Back pain is a daily issue for millions of Americans, with a variety of medial issues being the culprit. The results of lower back pain on the economy as a whole are far reaching, from tons of lost work time to enormous medical costs. Maignes Syndrome is estimated to be the cause of a great deal of the instances of lower back pain.
Never heard of it? Lucky you because those who are diagnosed with Maignes Syndrome suffer pain that sometimes lasts for weeks or even months, and can become quite severe. Discomfort is increased sometimes when the patient twists his torso, or lifts a heavy object.
What Is Maignes Syndrome?
Also called Thoracolumbar Junction Syndrome, Maignes Syndrome is a spinal disorder that is located in the nerves in the upper lumbar region of the back, causing pain to radiate along the nerves from the site. This spinal condition creates difficult to diagnose symptoms, since it often results in pain in a different part of the body than the actual source. It is believed this “condition exists because of the facet joint issues at the junction between the middle spine and lower spine.”. The pain from Maignes Syndrome usually shows up in the hip, lower back, or groin.
If you are experiencing lower back pain, you may suffer from Maignes Syndrome. Schedule a chiropractic visit as soon as possible, because a chiropractor benefits Maignes Syndrome sufferers in four important ways.
Chiropractors Can�
�Help Correctly Diagnose It
Unfortunately, the nature of the pain and location of the condition frequently cause Maignes Syndrome to be misdiagnosed. Sacroiliac joint pain is sometimes the diagnosis they receive, which hinders proper treatment. For this reason, the patient needs to make certain they are working with an experienced chiropractor who understands the subtle differences of the two conditions.
�Adjust The Area Where The Issue Originates
In order to minimize the symptoms of the condition, a chiropractor can administer adjustments on and around the area causing the issue, the thoracolumbar facet joints. Aligning this area correctly, and loosening the area that may have become tight from overcompensation, assists in relieving pain from Maignes Syndrome.
�Offer At Home Exercises To Help With Healing
Fortunately, there are exercises that can aid Maignes Syndrome, both in loosening the tightness of the afflicted area, and building up the surrounding muscle strength so the body can compensate for the issue. A chiropractor who understands this spinal condition can walk you through a step-by-step exercise regimen of the types of exercises that will help your body adapt to and heal from Maignes Syndrome.
�Promote Your Body’s Ability To Heal Itself
Chiropractic care is a broad-based approach to the body’s inner function and balance. Experienced chiropractors understand that all parts fit together for overall health. A patient with Maignes Syndrome benefits from chiropractic care because of this.
Your chiropractor will make a series of adjustments that help the nervous system work at optimum capacity, which promotes healing to the entire body. Attacking Maignes Syndrome directly at the site and through the body as a whole promotes faster healing and increased mobility.
Individuals with Maignes Syndrome unfortunately face an uphill battle that begins with being correctly diagnosed. The complexity of the spinal condition is the primary reason to seek a professional chiropractor’s opinion at the first sign of ongoing lower back pain. Once Maignes Syndrome is correctly pinpointed, the chiropractor will be able to design an in-house and at-home blend of treatment options to minimize your healing time and achieve a pain-free, fully functioning back.
Although chiropractic is dedicated to finding and correcting vertebral subluxations (also known as spinal misalignments), many patients seek chiropractic care to alleviate pain and other health-related symptoms. One condition that chiropractic patients seek relief from is consistent low back pain.
According to the American Chiropractic Association, 31 million Americans experience low back pain at any give time. Even though low back pain plagues many people, finding the exact cause can be a challenge. However, chiropractors are spinal specialists that are trained extremely well to not only help alleviate your pain but also find the cause of the problem.
As you seek help from your local chiropractor, you�ll want to keep the following things in mind:
Low Back Pain: Prevention Is Key
Prevention is often the best cure for low back pain. When a patient sees a chiropractor, they�ll not only find relief for the low back pain they�re experiencing, but they�ll also learn ways to prevent such pain in the future. By using proper exercise and ergonomic techniques, they can ease their pain before it even starts. Amazing results are easily obtained simply by patients listening to the instructions given by their chiropractic doctor.
Treatment Options Are Available
Fortunately, there are many treatment options for low back pain. Based off of the diagnosis provided by your Doctor of Chiropractic, he or she will be able to suggest the ones that will benefit you the most. These treatments may include one or more of the following:
Spinal adjustments delivered either by hand or instrument like an Activator
Hot or cold compresses
Physical therapy modalities like Interferential Therapy or TENS
Massage Therapy or some other form of soft tissue work
Spinal decompression therapy
Getting Relief From Your Pain
If you were prescribed pain medication by a medial doctor before seeing your chiropractor, it may still be required to help reduce your pain levels. However, the good news is that you may be able to decrease your pain medication quicker than usual as spinal misalignments are corrected, nerve compression is alleviated and inflammation is reduced. That alone is well worth the investment of time and money to see your local chiropractor.
Rehab Through Exercise
As your care progresses from pain relief to rehabilitation of the spine, your chiropractor will recommend certain exercises to help strengthen your core muscles which, in return, will help stabilize and protect your lower back. Typically, these exercises are performed at the chiropractic office to make sure you understand how to do them without re-aggravating your original complaint. Once you�ve been educated on their purpose and know how to perform them correctly without supervision, you�ll be able to continue them at home in conjunction with the spinal adjustments you receive at the office during maintenance care.
Surgery May Be Avoided
Depending on your condition, you may be able to avoid surgery if you choose to see a chiropractor before your injuries or pain become worse. In some instances, a chiropractor can help you to avoid surgery entirely by helping correct the problem instead of just masking it through pain relief.
The key is to make sure you follow the recommendations of your chiropractor after a thorough consultation and examination are performed. Part of the examination procedures may require X-rays or MRIs. These not only benefit the chiropractor when he or she is developing your treatment plan but will also give you the peace of mind that the problem will be found.
The bottom line is that a chiropractor is the ideal professional to consult with for any unexplained pain in the musculoskeletal system. They�re not only well-qualified to treat conditions like low back pain but also achieve great results in a very affordable and effective manner. If you or a loved one are suffering from low back pain, gives us a call. We�re here to help!
This article is copyrighted by Blogging Chiros LLC for its Doctor of Chiropractic members and may not be copied or duplicated in any manner including printed or electronic media, regardless of whether for a fee or gratis without the prior written permission of Blogging Chiros, LLC.
Most of us will experience it at some point — but how does it influence on athletic performance? Chiropractic injury specialist, Dr. Alexander Jimenez investigates.
Research postulates that 80 percent of the populace will undergo an acute onset of back pain at least once in their lifetimes. This adds a considerable financial burden not just on the medical system (physician consultations, prescribed drugs, physiotherapy) but also the financing of the workforce in lost employee hours and loss in productivity.
The types of lower back pain that an individual may experience include (but are not limited to):
1. Lumbar spine disc herniation with/ without sciatica
8. Inflammatory arthritis such as rheumatoid and anklyosing spondylitis
9. Facet joint sprains
10. Bone injuries such as stress fractures, pars defects and spondylolisthesis.
The focus for this paper will be on the previous group — that the bone injuries. This may be simply postural (slow onset repetitive trauma) or related to sports; for instance, gymnastics.
The two demographic groups that tend to endure the most extension-related low back pain are:
1. People who endure all day, for instance, retailers, army, security guards etc.. Prolonged position will obviously force the pelvis to start to migrate to an anterior tilt management. This may begin to place compressive pressure on the facet joints of the spinal column as they also change towards an expansion position since they accompany the pelvic tilt.
2. Extension sports such as gymnastics, tennis, swimming, diving, football codes, volleyball, basketball, track and field, cricket fast bowlers. This is more pronounced in sports that involve extension/rotation.
Pathomechanics
With normal extension of the lumbar spine (or backward bending), the facet joints begin to approximate each other and compress.�The articular processes of this facet above will abut the articular process of the facet below. This is a normal biomechanical movement. However, if the extension ranges are excessive, the procedures will impinge quite aggressively and damage to the cartilage surfaces within the facet joint can result. Sports such as gymnastics, functioning in tennis, and handling in American Soccer may all involve uncontrolled and excessive extension.
It would be unlikely that a bone stress response or even a stress fracture could be brought on by an isolated expansion injury. It would be more likely that a sudden forced extension injury may damage an already pre-existing bone strain reaction.
Similarly, if an individual stands daily and the pelvis migrates into lateral tilt, then the aspects will be placed under low load compression but for extensive intervals.
With ongoing uncontrolled loading, stress is then transferred from the facet joint to the bone below (pars interarticularis). This originally will manifest as a pressure reaction on the bone. This bone strain may advance to a stress fracture throughout the pars if uncorrected. This fracture is also referred to as a “pars flaw”, or spondylolysis.
It was initially considered that stress fractures of the pars was a congenital defect that introduced itself at the teenage years. However, it is now agreed that it is probably obtained through years of overuse into extension positions, especially in young sportspeople involved with expansion sports. What’s more, one-sided pars defects often occur more commonly in sport which also included a rotational component such as tennis serving or fast bowling in cricket.
The stress fracture can then advance to impact the opposite side, causing a bilateral strain fracture, with anxiety subsequently being transferred to the disk in between both levels.
Spondylolisthesis features bilateral pars defects which could possibly be a result of repetitive stress into the bilateral pars in extension athletics, but more likely it is an independent pathology that manifests in the early growing stages (9-14) as this pathology is often viewed in this age category. If they become symptomatic in later years because of involvement in expansion sports, it is exceedingly likely that the defects were there by a young age but presented asymptomatically. As a result of rapid growth spurts in teenage years and the high-volume training experienced by teenaged athletes, it is possible that these dormant spondylolisthesis then pose as ‘acute onset’ back pain in teenage years.
In summary, the progression of this bone stress reactions tends to follow the following continuum:
1. Facet joint irritation
2. Pars interarticularis stress response
3. Stress fracture to the pars
4. Pars defect (or spondylolysis)
5. Spondylolisthesis due to activity or more likely congenital and found later in teenage years due to participation in�extension sports.
The landmark publication related to spondylolysis and spondylolisthesis was presented by Wiltse et al (1976) and they classified these injuries as follows:
1. Type I: dysplastic � congenital abnormalities of L5 or the upper sacrum allow anterior displacement of L5 on the sacrum.
2. Type II: isthmic � a lesion in the pars interarticularis occurs. This is subclassified as
a. lytic, representing a fatigue fracture of the pars,
b. elongated but intact pars, and c. acute fracture.
3. Type III: degenerative � secondary to long-standing intersegmental instability with associated remodeling of the articular processes.
4. Type IV: traumatic � acute fractures in vertebral arch other than the pars.
5. Type V: pathological � due to generalized or focal bone disease affecting the vertebral arch.
The vast majority of spondylolysis and sponylolisthesis accidents are Type II — the isthmic variety.
For the purposes of this paper, we will refer to the above stages as the posterior arch bone stress injuries (PABSI).
Epidemiology
It is a lot more widespread at the L5 level (85-90 percent). It’s a high asymptomatic prevalence in the general population and is often found unintentionally on x ray imaging. Nonetheless, in athletes, particularly young athletes, it is a common reason for persistent low back pain. From the young athlete, the problem is often referred to as ‘active spondylolysis’.
Active spondylolysis is normal in virtually every gamenevertheless, sports such as gymnastics and diving and cricket pose a much greater danger due to the extension and turning character of the sport. The progression from an active spondylolysis into a non-union type spondylolisthesis has been associated with a greater prevalence of spinal disk degeneration.
Early detection through screening and imaging, therefore, will highlight those early at the bone stress phase and if caught early enough and managed, the progression to the larger and more complicated pathologies are avoided as a result of therapeutic capacity of the pars interarticularis in the early stages.
It is more common to find teens and young adults afflicted by PABSI. This will highlight the rapid growth of the spine through growth spurts that is also characterized by a delay in the motor control of the muscle system during this period. Furthermore, it’s thought that the neural arch actually gets stronger in the fourth decade hence possibly explaining the low incidence of bone stress reactions in mid ages.
The incidence of spondylolysis has been reported to be around 4-6% in the Caucasian population (Friedrikson et al 1984). The rates seem to be lower in females and also in African-American males. It has also been suggested that a link exists between pars defects and spina bifida occulta.
The incidence of spondylolysis seems to be higher in the young athletic population than in the general population. Studies in gymnasts, tennis, weightlifting, divers and wrestlers all show disproportionately high incidence of spondylolysis compared with the general population of age-matched subjects.
Tennis
The tennis serve generates excessive extension and rotation force. In addition, the forehand shot may also produce elevated levels of spinning/ extension. The more traditional forehand shot demanded a great deal of weight shift through the legs to the torso and arms. However, a more favorite forehand shot is to currently face the ball and also generate the force of this shot utilizing hip rotation and lumbar spine extension. This action does increase ball speed but also puts more extension and compressive loads on the spine potentially resulting in a greater degree of stress on the bone components.
Golf
The most likely skill component involved in golf that may cause a PABSI are the tee shot with a 1 wood when forcing for distance. The follow-through of this shot entails a significant quantity of spine rotation with maybe a level of spine expansion.
Cricket
Fast bowlers in cricket are the most susceptible to PABSI. This will occur on the opposite side to the bowling arm. As the front foot engages on plant stage, the pelvis abruptly stops moving but the spine and chest continue to proceed. With the wind-up of this bowling action (rotation), when coupled with expansion this can place large forces on the anterior arch of the thoracic. More than 50% of fast bowlers will create a pars stress fracture. Young players (up to 25) are most vulnerable. Cricket governments have implemented training and competition guidelines to avoid such injuries by restricting the number of meals in training/games.
Field Events
The more common field events to cause a PABSI would be high leap followed by javelin. Both these sports create enormous ranges of backbone extension and under significant load.
Contact Sports
Sports like NFL, rugby and AFL all require skill components that need backbone expansion under load.
Gymnastics/Dancers
It goes without saying that gymnastics and dancing involves a substantial amount of repetitive spine expansion, particularly backflips and arabesques. It has been suggested that nearly all Olympic degree gymnasts could have suffered from a pars defect. Many organizing bodies now put limits on the number of hours young gymnasts can instruct to prevent the repetitive loading on the spine.
Diving
Spine extension injuries occur mostly off the spring board and on water entrance.
Diagnosis Of PABSI In Athletes
Clinical investigation
These can pose as preventable injuries. Research shows that the incidence was emphasized from the general population that have nil indicators of back pain. But, individuals will typically complain of back ache that is deep and generally unilateral (one side). This may radiate into the buttock area. The most offending movements tend to be described as expansion moves or backward bending movements. This may be a slow progression of pain or might be initiated by one acute episode of back pain in a competitive extension motion.
On clinical examination:
1. Pain may be elicited with a one-leg extension/rotation test (standing on the leg on the affected side) � stork test.
2. Tenderness over the site of the fracture.
3. Postural faults such as excessive anterior tilt and/or pelvic asymmetry.
The one-legged hyperextension test (stork test) was suggested to be pathognomonic for busy spondylolysis. A negative evaluation was stated to effectively exclude the diagnosis of a bone stress-type injury, thus creating radiological investigations unnecessary.
But, Masci et al (2006) examined the connection between the one-legged hyperextension test and gold standard bone scintigraphy and MRI. They discovered that the one-legged hyperextension test was neither sensitive nor specific for active spondylolysis. Moreover, its negative predictive value was so poor. Thus, a negative test can’t exclude energetic spondylolysis as a possible cause.
Masci et al (2006) go on to indicate that the bad relationship between imaging and the one-legged test may be because of a number of factors. The extension test would be expected to move a significant extension force on to the lower back spine. In addition to putting substantial strain on the pars interarticularis, it might also stress different regions of the spinal column like facet joints as well as posterior lumbar disks, and this may subsequently induce pain in the existence of other pathology such as facet joint arthropathy and spinal disc disease. This will explain the poor specificity of the test. Conversely, the inadequate sensitivity of the test may be related to the subjective reporting of pain by issues performing the maneuvre, which may vary based on individual pain tolerance. Additionally, this evaluation can preferentially load the fifth cervical vertebra, and so bone stress located in the upper lumbar spine may not test positive.
Grade 1 spondylolisthesis are normally asymptomatic; nonetheless, grade 2+ lesions often present with leg pain, either with or without leg pain. On examination, a palpable slip could be evident.
Imaging
Clinical assessment of active spondylolysis and the more severe pars defects and spondylolisthesis can be notoriously non-specific; this is, not all patients suffering PABSI will present with favorable abstract features or positive signs on analyzing. Thus, radiological visualization is important for diagnosis. The imaging methods available in the diagnosis of bone stress injury are:
1. Conventional radiology. This test is not very sensitive but is highly unique. Its limits are partially because of the cognitive orientation of the pars defect. The oblique 45-degree films may show the timeless ‘Scotty Dog’ appearance. Spondylolisthesis can be looked at simply on a lateral movie x-ray.
2. Planar bone scintigraphy (PBS) and single photon emission computed tomography (SPECT). SPECT enhances sensitivity in addition to specificity of PBS than straightforward radiographic study. Comparative research between PBS and conventional radiology have shown that scintigraphy is more sensitive. Patients with positive SPECT scan must then undergo a reverse gantry CT scan to assess whether the lesion is active or old.
3. Computed tomography (CT). The CT scan is considered to be more sensitive than conventional radiology and with higher specificity than SPECT. Regardless of the type of cross-sectional image utilized, the CT scan provides information on the state of the flaw (intense fracture, unconsolidated flaw with geodes and sclerosis, pars in procedure for consolidation or repair). The “inverse gantry” perspective can evaluate this condition better. Repeat CT scan can be used to track progress and recovery of the pars defect.
4. Magnetic resonance imaging (MRI). This technique shows pronounced changes in the signal in the amount of the pars. This is recognized as “stress response” and can be classified into five different degrees of action. MRI can be helpful for evaluating elements that stabilize isthmic lesions, for example intervertebral disc, common anterior ligament, and related lesions. The MRI isn’t as specific or sensitive as SPECT and CT combination.
Therefore, the current gold standards of investigation for athletes with low back pain are:
1. bone scintigraphy with single photon emission computed tomography (SPECT); if positive then
MRI has many advantages over bone scintigraphy, for instance, noninvasive nature of the imaging along with the absence of ionizing radiation. MRI changes in active spondylolysis include bone marrow edema, visualized as increased signal in the pars interarticularis on edema-sensitive sequences, and fracture, visualized as reduced signal in the pars interarticularis on T1 and T2 weighted sequences.
However, there is greater difficulty in detecting the changes of busy spondylolysis from MRI. Detecting pathology from MRI relies on the interpretation of distinct contrasts of signals compared with normal tissue. Unlike stress fractures in different parts of the body, the little region of the pars interarticularis may make detection of those changes harder.
However, unlike MRI, computed tomography has the capability to differentiate between acute and chronic fractures, and this differentiation might be an important determinant of fracture healing. Accordingly, in areas using pars interarticularis fractures discovered by MRI, it might nonetheless be necessary to execute thin computed tomography slices to determine whether or not a fracture is severe or chronic — an important factor in fracture resolution.
The purpose of this article is to provide an update of a previously published evidence-based practice guideline on chiropractic management of low back pain.
Methods
This project updated and combined 3 previous guidelines. A systematic review of articles published between October 2009 through February 2014 was conducted to update the literature published since the previous Council on Chiropractic Guidelines and Practice Parameters (CCGPP) guideline was developed. Articles with new relevant information were summarized and provided to the Delphi panel as background information along with the previous CCGPP guidelines. Delphi panelists who served on previous consensus projects and represented a broad sampling of jurisdictions and practice experience related to low back pain management were invited to participate. Thirty-seven panelists participated; 33 were doctors of chiropractic (DCs). In addition, public comment was sought by posting the consensus statements on the CCGPP Web site. The RAND-UCLA methodology was used to reach formal consensus.
Results
Consensus was reached after 1 round of revisions, with an additional round conducted to reach consensus on the changes that resulted from the public comment period. Most recommendations made in the original guidelines were unchanged after going through the consensus process.
Conclusions
The evidence supports that doctors of chiropractic are well suited to diagnose, treat, co-manage, and manage the treatment of patients with low back pain disorders.
Key Indexing Terms:
Chiropractic, Low Back Pain, Manipulation, Spinal, Guidelines
Early development of the chiropractic profession in the 1900s represented the application of accumulated wisdom and traditional practices.1, 2 As was the practice of medicine, philosophy and practice of chiropractic were informed to a large extent by an apprenticeship and clinical experiential model in a time predominantly absent of clinical trials and observational research.
The traditional chiropractic approach, in which a trial of natural and less invasive methods precedes aggressive therapies, has gained credibility. However, the chiropractic profession can gain wider acceptance in the role as the first point of contact health care provider to patients with low back disorders, particularly within integrated health care delivery systems, by embracing the scientific approach integral to evidence-based health care.3, 4, 5,6, 7 It is in this context that these guidelines were developed and are updated and revised.8, 9, 10, 11, 12
By today’s standards, it is the responsibility of a health profession to use scientific methods to conduct research and critically evaluate the evidence base for clinical methods used.13, 14 This scientific approach helps to ensure that best practices are emphasized.15 With respect to low back disorders, clinical experience suggests that some patients respond to different treatments. The availability of other clinical methods for conditions that are unresponsive to more evidence-informed approaches (primary nonresponders) introduces the opportunity for patients to achieve improved outcomes by alternative and personalized approaches that may be more attuned to individual differences that cannot be informed by typical clinical trials.16, 17, 18 To a large degree, variability in the selection of treatment methods among doctors of chiropractic (DCs) continues to exist, even though the large body of research on low back pain (LBP) has focused on the most commonly used manipulative methods.17, 19, 20
Although the weight of the evidence may favor the evidence referenced in a guideline for particular clinical methods, an individual patient may be best served in subsequent trials of care by treatment that is highly personalized to their own mechanical disorder, experience of pain and disability, as well as preference for a specific treatment approach. This is consistent with the 3 components of evidence-based practice: clinician experience and judgment, patient preferences and values, and the best available scientific evidence.3, 13
Doctors of chiropractic use methods that assist patients in self-management such as exercise, diet, and lifestyle modification to improve outcomes and their stabilization to avoid dependency on health care system resources.19, 21 They also recognize that a variety of health care providers play a critical role in the treatment and recovery process of patients at various stages, and that DCs should consult, refer patients, and co-manage patients with them when in the patient’s best interest.19
To facilitate best practices specific to the chiropractic management of patients with common, primarily musculoskeletal disorders, the profession established the Council on Chiropractic Guidelines and Practice Parameters (CCGPP) in 1995.6 The organization sponsored and/or participated in the development of a number of “best practices” recommendations on various conditions.21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32 With respect to chiropractic management of LBP, a CCGPP team produced a literature synthesis8 which formed the basis of the first iteration of this guideline in 2008.9 In 2010, a new guideline focused on chronic spine-related pain was published,12 with a companion publication to both the 2008 and 2010 guidelines published in 2012, providing algorithms for chiropractic management of both acute and chronic pain.10 Guidelines should be updated regularly.33, 34 Therefore, this article provides the clinical practice guideline (CPG) based on an updated systematic literature review and extensive and robust consensus process.9, 10, 11, 12
Methods
This project was a guideline update based on current evidence and consensus of a multidisciplinary panel of experts in the conservative management of LBP. It has been recommended that, although periodic updates of guidelines are necessary, “partial updating often makes more sense than updating the whole CPG because topics and recommendations differ in terms of the need for updating.”33 Logan University Institutional Review Board determined that the project was exempt. We used Appraisal of Guidelines for Research & Evaluation (AGREE) in developing the guideline methodology.
Systematic Review
Between March 2014 through July 2014, we conducted a systematic review to update the literature published since the previous CCGPP guideline was developed. The search included articles that were published between October 2009 through February 2014. Our question was, “What is the effectiveness of chiropractic care including spinal manipulation for nonspecific low back pain?” Table 1 summarizes the eligibility criteria for the search.
Table 1
Eligibility Criteria for the Literature Search
Inclusion
Exclusion
Published between October 2009-February 2014
Case reports and case series
English language
Commentaries
Human participants
Conference proceedings
Age >17 y
In-patients
Manipulation
Letters
LBP
Narrative and qualitative reviews
Duration chronic (>3 mo)
Non–peer-reviewed publications
Patient outcomes reported
Pilot studies
Non-manipulation comparison group
Pregnancy-related LBP
RCTs, cohort studies, systematic reviews, and meta-analyses
Secondary analyses and descriptive studies
LBP, low back pain; RCT, randomized controlled trial.
Search Strategy
The following databases were included in the search: PubMed, Index to Chiropractic Literature, CINAHL, and MANTIS. Details of the strategy for each database are provided in Figure 1. Articles and abstracts were screened independently by 2 reviewers. Data were not further extracted.
Fig 1
Search strategies used in the literature search.
Evaluation of Articles
We evaluated articles using the Scottish Intercollegiate Guideline Network checklists (http://www.sign.ac.uk/methodology/checklists.html) for randomized controlled trials (RCTs) and systematic reviews/meta-analyses. For guidelines, the AGREE 2013 instrument35 was used. At least 2 of the 3 investigators conducting the review (CH, SW, MK) reviewed each article. If both reviewers rated the study as either high quality or acceptable, it was included for consideration; if both reviewers rated it as unacceptable, it was removed. For AGREE, we considered “unacceptable” to be a sum of <4. If there was disagreement between reviewers, a third also reviewed the article, and the majority rating was used.
Results of Literature Review
This search yielded 270 articles. Screening the articles for eligibility resulted in 18 articles included for evaluation, as detailed in Figure 2, using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses flowchart.36
Fig 2
Flow diagram for literature search. LBP, low back pain; RCT, randomized controlled trial; SR, systematic reviews.
Of the 18 articles included after screening, 16 were retained as acceptable/high quality12, 17, 37, 38, 39, 40, 41, 42,43, 44, 45, 46, 47, 48, 49, 50 and 251, 52 (both systematic reviews) were excluded as being of unacceptable quality according to the Scottish Intercollegiate Guideline Network checklist. Those with new relevant information were summarized and provided to the Delphi panel as background information. Table 2 lists the articles by lead author and date, and the topic addressed, if new findings were present.
Table 2
Articles Evaluated
Lead Author
Year
Relevant New Findings
Guidelines and systematic reviews
Clar17
2014
None
Dagenais38
2010
Standards for assessment of LBP
Dagenais37
2010
Standards for assessment of LBP
Farabaugh12
2010
Basis for current update
Furlan39
2010
None
Goertz40
2012
None
Hidalgo41
2014
None
Koes42
2010
None
McIntosh43
2011
None
Posadzki44
2011
None
Rubinstein45
2013
None
Rubinstein46
2011
Excluded as unacceptable quality
Ernst51
2012
Menke52
2014
RCTs
Haas47
2013
Dosage information
Senna48
2011
Dosage information
Von Heymann49
2013
None
Walker50
2013
None
LBP, low back pain; RCT, randomized controlled trial.
Seed Documents & Seed Statements
Along with the literature summary, seed documents were comprised of the 3 previous CCGPP guidelines9, 10, 12; links were provided to full text versions. The original guidelines had been developed based on the evidence, including guidelines and research available at the time.16, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63 The steering committee, composed of authors on these previous guidelines, developed 51 seed statements based on the background documents, revising the previous statements if it seemed advisable based on the literature. The steering committee did not conduct a formal consensus process; however, the seed statement development was a team effort, with changes only made if all members of the steering committee were in agreement. Before conducting this project, these seed statements had gone through a local Delphi process among clinical and academic faculty at Logan University as part of their development of care pathways for their clinical faculty. This was done to assess the readability of the seed statements to a group of practicing clinicians. In the Delphi process, 7 statements were slightly modified from the original, and none of those changes were substantive, but rather for purposes of clarification. Consensus was reached for the seed document, which was then adopted by that institution for use in its teaching clinics. That document formed the seed document for the current project. For the Delphi rounds, the 51 statements were divided into 3 sections to be less onerous for the panelists to rate in a timely manner.
Delphi Panel
Panelists who served on the 3 previous consensus projects10, 11, 12 related to LBP management were invited to participate. Steering committee members made additional recommendations for experts in management of LBP who were not DCs to increase multidisciplinary input. There were 37 panelists; 33 were DCs, one of whom had dual licensure—DC and massage therapist. The 4 non-DC panelists consisted of an acupuncturist who is also a medical doctor, a medical doctor (orthopedic surgeon), a massage therapist, and a physical therapist. Thirty-three of the 37 panelists were in practice (89%); the mean number of years in practice was 27. Seventeen were also affiliated with a chiropractic institution (46%), with 2 of these associated with Logan University; 3 were affiliated with a different health care professional institution (8%); and 1 was employed with a government agency. Because this guideline focuses primarily on chiropractic practice in the United States, geographically, all panelists were from the United States, with 19 states represented. These were Arizona (1), California (4), Florida (3), Georgia (3), Hawaii (2), Iowa (2), Illinois (3), Kansas (1), Michigan (1), Minnesota (1), Missouri (3), North Carolina (1), New Jersey (2), New York (5), South Carolina (1), South Dakota (1), Texas (1), Virginia (1), and Vermont (1). Of the 33 DCs, 21 (64%) were members of the American Chiropractic Association, 2 (6%) were members of the International Chiropractors Association, and 10 (30%) did not belong to any national chiropractic professional organization.
Delphi Rounds and Rating System
The consensus process was conducted by e-mail. For purposes of analyzing the ratings and comments, panelists were identified by an ID number only. The Delphi panelists were not aware of other panelists’ identity during the duration of the study. As in our previous projects, we used the RAND-UCLA methodology for formal consensus.64
This methodology uses an ordinal scale of 1-9 (highly inappropriate to highly appropriate) to rate each seed statement. RAND/UCLA defines appropriateness to mean that expected patient health benefits are greater than expected negative effects by a large enough margin that the action is worthwhile, without considering costs.64
After scoring each Delphi round, the project coordinator provided the medians, percentages, and comments (as a Word table) to the steering committee. They reviewed all comments and revised any statements not reaching consensus as per these comments. The project coordinator circulated the revised statements, accompanied by the deidentified comments, to the Delphi panel for the next round.
We considered consensus on a statement’s appropriateness to have been reached if both the median rating was 7 or higher and at least 80% of panelists’ ratings for that statement were 7 or higher. Panelists were provided with space to make unlimited comments on each statement. If consensus could not be reached, it was planned that minority reports would be included.
Public Comments
As per recommendations for guideline development such as AGREE, we invited public comment on the draft CPG. This was accomplished by posting the consensus statement on the CCGPP Web site. Press releases and direct e-mail contacts announced a 2-week public comment period, with comments collected via an online Web survey application. Organizations and institutions who were contacted included the following: all US chiropractic colleges; members of all chiropractic state organizations; state boards of chiropractic examiners; chiropractic practice consultants; chiropractic attorneys; chiropractic media (including 1 publication sent to all US-licensed DCs); and chiropractic vendors, whose contacts also included interested laypersons. The steering committee then crafted additional or revised statements as per the comments collected through this method, and these statements were then recirculated through the Delphi panel until consensus was reached.
Data Analysis
For scoring purposes, ratings of 1-3 were collapsed as “inappropriate,” 4-6 as “uncertain,” and 7-9 as “appropriate.” If a panelist rated a statement as “inappropriate,” he or she was instructed to articulate a specific reason and provide a citation from the peer-reviewed literature to support it, if possible. The project coordinator entered ratings into a database (SPSS v. 22.0, Armonk, NY: IBM Corp, 2013).
Results
The verbatim evidence-informed consensus-based seed statements, as approved by the Delphi panel, are presented below. Consensus was reached after 1 round of revisions, with an additional round conducted to reach consensus on the changes that resulted from the public comment period. No minority reports are included because consensus was reached on all statements. There were 7 comments received, 6 from DCs and 1 from a layperson. Three did not require a response; statements were added or modified in response to the other 4 comments.
General Considerations
Most acute pain, typically the result of injury (micro- or macrotrauma), responds to a short course of conservative treatment (Table 3). If effectively treated at this stage, patients often recover with full resolution of pain and function, although recurrences are common. Delayed or inadequate early clinical management may result in increased risk of chronicity and disability. Furthermore, those responding poorly in the acute stage and those with increased risk factors for chronicity must also be identified as early as possible.
Table 3
Frequency and Duration for Trial(s) of Chiropractic Treatment
Scheduled ongoing care for management of chronic painb
1-4 visits per month
At minimum every 6 visits, or as necessary to document condition changes.
aFor acute and subacute stages; up to 12 visits per trial of care. If additional trials of care are indicated, supporting documentation should be available for review, including, but not necessarily limited to, documentation of complicating factors and/or comorbidities coupled with evidence of functional gains from earlier trial(s). Efforts toward self-care recommendations should be documented.
bFor chronic presentations, exacerbations, and scheduled ongoing care for management of chronic pain, additional care must be supported with evidence of either functional improvement or functional optimization. Such presentations may include, but are not limited to, the following: (1) substantial symptom recurrences following treatment withdrawal, (2) minimization/control of pain, (3) maintenance of function and ability to perform common ADLs, (4) minimization of dependence on therapeutic interventions with greater risk(s) of adverse events, and (5) care which maintains or improves capacity to perform work. Efforts toward self-care recommendations should be documented.
Clinicians must continually be vigilant for the appearance of clinical red flags that may arise at any point during patient care. In addition, biopsychosocial factors (also known as clinical yellow flags) should be identified and addressed as early as possible as part of a comprehensive approach to clinical management.
Chiropractic doctors are skilled in multiple approaches of functional assessment and treatment. Depending on the clinical complexity, DCs can work independently or as part of a multidisciplinary team approach to functional restoration of patients with acute and chronic LBP.
It is the ultimate goal of chiropractic care to improve patients’ functional capacity and educate them to accept independently the responsibility for their own health.
Informed Consent
Informed consent is the process of proactive communication between a patient and physician that results in the patient’s authorization or agreement to undergo a specific medical intervention. Informed consent should be obtained from the patient and performed within the local and/or regional standards of practice. The DC should explain the diagnosis, examination, and proposed procedures clearly and simply and answer patients’ questions to ensure that they can make an informed decision about their health care choices. He or she should explain material risks* of care along with other reasonable treatment options, including the risks of no treatment. (*Note: The legal definition of material risk may vary state by state.)
Examination Procedures
Thorough history and evidence-informed examination procedures are critical components of chiropractic clinical management. These procedures provide the clinical rationale for appropriate diagnosis and subsequent treatment planning.
Assessment should include but is not limited to the following38:
Health history (eg, pain characteristics, red flags, review of systems, risk factors for chronicity)
Specific causes of LBP (eg, aortic aneurysm, inflammatory disorders)
Diagnostic testing (indications) for red flags (eg, imaging and laboratory tests)
Routine imaging or other diagnostic tests are not recommended for patients with nonspecific LBP.55
Imaging and other diagnostic tests are indicated in the presence of severe and/or progressive neurologic deficits or if the history and physical examination cause suspicion of serious underlying pathology.55
Patients with persistent LBP accompanied by signs or symptoms of radiculopathy or spinal stenosis should be evaluated, preferably, with magnetic resonance imaging or computed tomography.55
Imaging studies should be considered when patients fail to improve following a reasonable course of conservative care or when there is suspicion of an underlying anatomical anomaly, such as spondylolisthesis, moderate to severe spondylosis, posttrauma with worsening symptomatogy (consider imaging, referral, or co-management) with evidence of persistent or increasing neurological (ie, reflex, motor, and/or sensory) compromise, or other factors which might alter the treatment approach. Lateral view flexion/extension studies may be warranted to assess for mechanical instability due to excessive intervertebral translation and/or wedging. Imaging studies should be considered only after careful review and correlation of the history and examination.65
Severity and Duration of Conditions
Conditions of illness and injury are typically classified by severity and/or duration. Common descriptions of the stages of illness and injuries are acute, subacute, chronic, and recurrent, and further subdivided into mild, moderate, and severe.
Acute—symptoms persisting for less than 6 weeks.
Subacute—symptoms persisting between 6 and 12 weeks.
Chronic—symptoms persisting for at least 12 weeks’ duration.
Recurrent/flare-up—return of symptoms perceived to be similar to those of the original injury at sporadic intervals or as a result of exacerbating factors.
Treatment Frequency and Duration
Although most patients respond within anticipated time frames, frequency and duration of treatment may be influenced by individual patient factors or characteristics that present as barriers to recovery (eg, comorbidities, clinical yellow flags). Depending on these individualized factors, additional time and treatment may be required to observe a therapeutic response. The therapeutic effects of chiropractic care/treatment should be evaluated by subjective and/or objective assessments after each course of treatment (see “Outcome Measurement”).
Recommended therapeutic trial ranges are representative of typical care parameters. A typical initial therapeutic trial of chiropractic care consists of 6 to 12 visits over a 2- to 4-week period, with the doctor monitoring the patient’s progress with each visit to ensure that acceptable clinical gains are realized (Table 3).
For acute conditions, fewer treatments may be necessary to observe a therapeutic effect and to obtain complete recovery. Chiropractic management is also recommended for various chronic low back conditions where repeated episodes (or acute exacerbations) are experienced by the patient, particularly when a previous course of care has demonstrated clinical effectiveness and reduced the long-term use of medications.
Initial Course of Treatments for Low Back Disorders
To be consistent with an evidence-based approach, DCs should use clinical methods that generally reflect the best available evidence, combined with clinical judgment, experience, and patient preference. For example, currently, the most robust literature regarding manual therapy for LBP is based primarily on high-velocity, low-amplitude (HVLA) techniques, and mobilization (such as flexion-distraction).17, 20, 66 Therefore, in the absence of contraindications, these methods are generally recommended. However, best practices for individualized patient care, based on clinical judgment and patient preference, may require alternative clinical strategies for which the evidence of effectiveness may be less robust.
The treatment recommendations that follow, based on clinical experience combined with the best available evidence, are posited for the “typical” patient and do not include risk stratification for complicating factors. Complicating factors are discussed elsewhere in this document.
An initial course of chiropractic treatment typically includes 1 or more “passive” (ie, nonexercise) manual therapeutic procedures (ie, spinal manipulation or mobilization) and physiotherapeutic modalities for pain reduction, in addition to patient education designed to reassure and instill optimal strategies for independent management.
Although the evidence reviewed does not generally support the use of therapeutic modalities (ie, ultrasonography, electrical stimulation, etc) in isolation,67 their use as part of a passive-to-active care multimodal approach to LBP management may be warranted based on clinician judgment and patient preferences. Because of the scarcity of definitive evidence,68 lumbar supports (bracing/taping/orthoses) are not recommended for routine use, but there may be some utility in both acute and chronic conditions based upon clinician judgment, patient presentation, and preferences. Caution should be exercised as these orthopedic devices may interfere with conditioning and return to regular activities of daily living (ADLs).
The initial visits allow the doctor to explain that the clinician and the patient must work as a proactive team and to outline the patient’s responsibilities. Although passive care methods for pain or discomfort may be initially emphasized, “active” (ie, exercise) care should be increasingly integrated to increase function and return the patient to regular activities. Table 3 lists appropriate frequency and duration ranges for trials of chiropractic treatment for different stages of LBP.
Reevaluation & Reexamination
After an initial course of treatment has been concluded, a detailed or focused reevaluation should be performed. The purpose of this reevaluation is to determine whether the patient has made clinically meaningful improvement. A determination of the necessity for additional treatment should be based on the response to the initial trial of care and the likelihood that additional gains can be achieved.
As patients begin to plateau in their response to treatment, further care should be tapered or discontinued depending on the presentation. A reevaluation is recommended to confirm that the condition has reached a clinical plateau or has resolved. When a patient reaches complete or partial resolution of their condition and all reasonable treatment and diagnostic studies have been provided, then this should be considered a final plateau (maximum therapeutic benefit, MTB). The DC should perform a final examination, typically following a trial of therapeutic withdrawal, to verify that MTB has been achieved and provide any necessary patient education and instructions in effective future self-management and/or the possible need for future chiropractic care to retain the benefits achieved.
Continuing Course Of Treatment
If the criteria to support continuing chiropractic care (substantive, measurable functional gains with remaining functional deficits) have been achieved, a follow-up course of treatment may be indicated. However, one of the goals of any treatment plan should be to reduce the frequency of treatments to the point where MTB continues to be achieved while encouraging more active self-therapy, such as independent strengthening and range of motion exercises and rehabilitative exercises. Patients also need to be encouraged to return to usual activity levels as well as to avoid catastrophizing and overdependence on physicians, including DCs. The frequency of continued treatment generally depends on the severity and duration of the condition. Patients who are interested in wellness care (formerly called maintenance care11) should be given those options as well. (Wellness or maintenance care was defined by Dehen et al11 as “care to reduce the incidence or prevalence of illness, impairment, and risk factors and to promote optimal function.”)
When the patient’s condition reaches a plateau or no longer shows ongoing improvement from the therapy, a decision must be made on whether the patient will need to continue treatment. Generally, progressively longer trials of therapeutic withdrawal may be useful in ascertaining whether therapeutic gains can be maintained without treatment.
In a case where a patient reaches a clinical plateau in their recovery (MTB) and has been provided reasonable trials of interdisciplinary treatments, additional chiropractic care may be indicated in cases of exacerbation/flare-up or when withdrawal of care results in substantial, measurable decline in functional or work status. Additional chiropractic care may be indicated in cases of exacerbation/flare-up in patients who have previously reached MTB if criteria to support such care (substantive, measurable prior functional gains with recurrence of functional deficits) have been established.
Outcome Measurement
For a trial of care to be considered beneficial, it must be substantive, meaning that a definite improvement in the patient’s functional capacity has occurred. Examples of measurable outcomes and activities of daily living and employment include the following:
1.Pain scales such as the visual analog scale and the numeric rating scale.
2.Pain diagrams that allow the patient to demonstrate the location and character of their symptoms.
3.Validated ADL measures, such as the Revised Oswestry Back Disability Index, Roland Morris Back Disability Index, RAND 36, and Bournemouth Disability Questionnaire.
4.Increases in home and leisure activities, in addition to increases in exercise capacity.
5.Increases in work capacity or decreases in prior work restrictions.
6.Improvement in validated functional capacity testing, such as lifting capacity, strength, flexibility, and endurance.
Spinal Range Of Motion Assessment
Range of motion testing may be used as a part of the physical examination to assess for regional mobility, although evidence does not support its reliability in determining functional status.69
Benefit Vs Risk
Care rendered by DCs has been documented to be quite safe and effective compared with other common medical treatments and procedures. A 2010 systematic review concluded that serious adverse events were no more than 1 per million patient visits for lumbar spine manipulation.20 Another systematic review found that the risk of major adverse events with manual therapy is low, but many patients experience minor to moderate short-lived (<48 hours) adverse events after treatment.70
These are usually brief episodes of muscle stiffness or soreness.20 The relative risk (RR) of adverse events appears greater with drug therapy but less with usual medical care.70 Comparatively, an earlier study from 1995 related to cervical manipulation found that the RR for high-velocity manipulation causing minor/moderate adverse events was significantly less than the RR of the comparison medication (usually nonsteroidal anti-inflammatory drugs [NSAIDs]).71 The risk of death from NSAIDs for osteoarthritis was estimated to be 100-400 times the risk of death from cervical manipulation.71 Because lumbar spine manipulation is considered lower risk than cervical manipulation, it is reasonable to extrapolate that NSAIDs pose at least the same comparative risk when prescribed for the treatment of LBP. Special attention must be given to each patient’s individual history and presentation. In that context, it should be noted that for patients who are not good candidates for HVLA manipulation, DCs should modify their manual approach accordingly.
Cautions & Contraindications
Chiropractic-directed care, including patient education, and passive and active care therapy, is a safe and effective form of health care for low back disorders. As stated in the previous section, there are certain clinical situations where HVLA manipulation or other manual therapies may be contraindicated. It is incumbent upon the treating DC to evaluate the need for care and the risks associated with any treatment to be applied. Many contraindications are considered relative to the location and stage of severity of the morbidity, whether there is co-management with one or more specialists, and the therapeutic methods being used by the chiropractic physician. Figure 3 lists contraindications for high-velocity manipulation to the lumbar spine (red flags); however, these do not necessarily prohibit soft-tissue, low-velocity, low-amplitude procedures and mobilization.
Fig 3
Contraindications for high-velocity manipulation to the lumbar spine (red flags). aIn some cases, soft-tissue, low-velocity, low-amplitude mobilization procedures may still be clinically reasonable and safe.
Conditions Contraindicating Certain Chiropractic-Directed Treatments Such As Spinal Manipulation & Passive Therapy
In some complex cases where biomechanical, neurological, or vascular structure or integrity is compromised, the clinician may need to modify or omit the delivery of manipulative procedures. Chiropractic co-management may still be appropriate using a variety of treatments and therapies commonly used by DCs. It is prudent to document the steps taken to minimize the additional risk that these conditions may present. Figure 4 lists conditions which present contraindications to spinal manipulation and passive therapy, along with conditions requiring co-management and/or referral.
Fig 4
Conditions contraindicating certain chiropractic-directed treatments such as spinal manipulation and passive therapy.
During the course of ongoing chronic pain management of spine-related conditions, the provider must remain alert to the emergence of well-known and established “red flags” that could indicate the presence of serious pathology. Patients presenting with “red flag” signs and/or symptoms require prompt diagnostic workup which can include imaging, laboratory studies, and/or referral to another provider. Ignoring these “red flag” indicators increases the likelihood of patient harm. Figure 5 summarizes red flags that present contraindications to ongoing HVLA spinal manipulation.
Fig 5
Complicating factors that may document the necessity of ongoing care for chronic conditions.
Management of Chronic LBP
Definition of chronic pain patients. Note: MTB is defined as the point at which a patient’s condition has plateaued and is unlikely to improve further. Chronic pain patients are those for whom ongoing supervised treatment/care has demonstrated clinically meaningful improvement with a course of management and who have reached MTB, but in whom substantial residual deficits in activity performance remain or recur upon withdrawal of treatment. The management for chronic pain patients ranges from home-directed self-care to episodic care to scheduled ongoing care. Patients who require provider-assisted ongoing care are those for whom self-care measures, although necessary, are not sufficient to sustain previously achieved therapeutic gains; these patients may be expected to progressively deteriorate as demonstrated by previous treatment withdrawals.
Chronic Care Goals
Minimize lost time on the job
Support patient’s current level of function/ADL
Pain control/relief to tolerance
Minimize further disability
Minimize exacerbation frequency and severity
Maximize patient satisfaction
Reduce and/or minimize reliance on medication
Application of Chronic Pain Management
Chronic pain management occurs after the appropriate application of active and passive care including lifestyle modifications. It may be appropriate when rehabilitative and/or functional restorative and other care options, such as psychosocial issues, home-based self-care, and lifestyle modifications, have been considered and/or attempted, yet treatment fails to sustain prior therapeutic gains and withdrawal/reduction results in the exacerbation of the patient’s condition and/or adversely affects their ADLs.
Ongoing care may be inappropriate when it interferes with other appropriate care or when the risk of supportive care outweighs its benefits, that is, physician dependence, somatization, illness behavior, or secondary gain. However, when the benefits outweigh the risks, ongoing care may be both medically necessary and appropriate.
Appropriate chronic pain management of spine-related conditions includes addressing the issues of physician dependence, somatization, illness behavior, and secondary gain. Those conditions that require ongoing supervised treatment after having first achieved MTB should have appropriate documentation that clearly describes them as persistent or recurrent conditions. Once documented as persistent or recurrent, these chronic presentations should not be categorized as “acute” or uncomplicated.
Factors Affecting the Necessity for Chronic Pain Management of LBP
Prognostic factors that may provide a partial basis for the necessity for chronic pain management of LBP after MTB has been achieved include the following:
Older age (pain and disability)
History of prior episodes (pain, activity limitation, disability)
Duration of current episode >1 month (activity limitation, disability)
Leg pain (for patients having LBP) (pain, activity limitation, disability)
Psychosocial factors (depression [pain]; high fear-avoidance beliefs, poor coping skills [activity limitation]; expectations of recovery)
High pain intensity (activity limitation; disability)
Occupational factors (higher job physical or psychological demands [disability])
The list above is not all-inclusive and is provided to represent prognostic factors most commonly seen in the literature. Other factors or comorbidities not listed above may adversely affect a given patient’s prognosis and management. These should be documented in the clinical record and considered on a case-by-case basis.
Each of the following factors may complicate the patient’s condition, extend recovery time, and result in the necessity of ongoing care:
Nature of employment/work activities or ergonomics: The nature and psychosocial aspects of a patient’s employment must be considered when evaluating the need for ongoing care (eg, prolonged standing posture, high loads, and extended muscle activity)
Impairment/disability: The patient who has reached MTB but has failed to reach preinjury status has an impairment/disability even if the injured patient has not yet received a permanent impairment/disability award.
Medical history: Concurrent condition(s) and/or use of certain medications may affect outcomes.
History of prior treatment: Initial and subsequent care (type and duration), as well as patient compliance and response to care, can assist the physician in developing appropriate treatment planning. Delays in the initiation of appropriate care may complicate the patient’s condition and extend recovery time.
Lifestyle habits: Lifestyle habits may impact the magnitude of treatment response, including outcomes at MTB.
Psychological factors: A history of depression, anxiety, somatoform disorder, or other psychopathology may complicate treatment and/or recovery.
Treatment Withdrawal Fails to Sustain MTB
Documented flare-ups/exacerbations (ie, increased pain and/or associated symptoms, which may or may not be related to specific incidents), superimposed on a recurrent or chronic course, may be an indication of chronicity and/or need for ongoing care.
Complicating/Risk Factors for Failure to Sustain MTB
Figure 5 lists complicating factors that may document the necessity of ongoing care for chronic spine-related conditions. Such lists of complicating/risk factors are not all-inclusive. Individual factors from this list may adequately explain the condition chronicity, complexity, and instability in some cases. However, most chronic cases that require ongoing care are characterized by multiple complicating factors. These factors should be carefully identified and documented in the patient’s file to support the characterization of a condition as chronic.
Risk Factors for the Transition of Acute/Subacute Spine-Related Conditions to Chronicity (Yellow Flags)
A number of prognostic variables have been identified as increasing the risk of transition from acute/subacute to chronic nonspecific spine-related pain. However, their independent prognostic value is low. A multidimensional model, that is, a number of clinical, demographic, psychological, and social factors are considered simultaneously, has been recommended. This model emphasizes the interaction among these factors, as well as the possible overlap between variables such as pain beliefs and pain behaviors.
Chronicity may be described in terms of pain and/or activity limitation (function) and/or work disability. Risk factors for chronicity have been categorized by similar domains:
Symptoms
Psychosocial factors
Function
Occupational factors
Factors directly associated with the clinician/patient encounter may influence the transition to chronicity:
Treatment expectations: Patients with high expectations for a specific treatment may contribute to better functional outcomes if they receive that treatment.
Significant others’ support: Patients’ risk of chronicity may be reduced when family members encourage their participation in social and recreational activities.
Diagnosis Of Chronic LBP
The diagnosis should never be used exclusively to determine need for care (or lack thereof). The diagnosis must be considered with the remainder of case documentation to assist the physician or reviewer in developing a comprehensive clinical picture of the condition/patient under treatment.
Clinical Reevaluation Information
Clinical information obtained during reevaluation that may be used to document the necessity of chronic pain management for persistent or recurrent spine-related conditions includes, but is not limited to, the following:
Response to date of care management for the current and previous episodes.
Response to therapeutic withdrawal (either gradual or complete withdrawal) or absence of care.
MTB has been reached and documented.
Patient-centered outcome assessment instruments.
Analgesic use patterns.
Other health care services used.
Clinical Reevaluation Information to Document Necessity for Ongoing Care of Chronic LBP
In addition to standard documentation elements (ie, date, history, physical evaluation, diagnosis, and treatment plan), the clinical information typically relied upon to document the necessity of ongoing chronic pain management includes the following:
Documentation of having achieved a clinically meaningful favorable response to initial treatment or documentation that the plan of care is to be amended.
Documentation that the patient has reached MTB.
Substantial residual deficits in activity limitations are present at MTB.
Documented attempts of transition to primary self-care.
Documented attempts and/or consideration of alternative treatment approaches.
Documentation of those factors influencing the likelihood that self-care alone will be insufficient to sustain or restore MTB.
Once the need for additional care has been documented, findings of diagnostic/assessment procedures that may influence treatment selection include the following:
Biomechanical analysis (pain, asymmetry, range of motion, tissue tone changes);
Palpation (static, motion);
Nutritional/dietary assessment with respect to factors related to pain management (such as vitamin D intake).
This list is provided for guidance only and is not all-inclusive. All items are not required to justify the need for ongoing care. Each item of clinical information should be documented in the case file to describe the patient’s clinical status, present and past.
In the absence of documented flare-up/exacerbation, the ongoing treatment of persistent or recurrent spine-related disorders is not expected to result in any clinically meaningful change. In the event of a flare-up or exacerbation, a patient may require additional supervised treatment to facilitate return to MTB status. Individual circumstances including patient preferences and previous response to specific interventions guide the appropriate services to be used in each case.
Chronic Pain Management Components in Physician-Directed Case Management
Case management of patients with chronic LBP should be based upon an individualized approach to care that combines the best evidence with clinician judgment and patient preferences. In addition to spinal manipulation and/or mobilization, an active care plan for chronic pain management may include, but is not restricted to, the following:
Procedures
Massage therapy
Other manual therapeutic methods
Physical modalities
Acupunctur
Bracing/orthoses
Behavioral and exercise recommendations
Supervised rehabilitative/therapeutic exercise
General and/or specific exercise programs
Mind/body programs (eg, yoga, Tai Chi)
Multidisciplinary rehabilitation
Cognitive behavioral programs
Counseling recommendations
ADL recommendations
Co-management/coordination of care with other physicians/health care providers
Monitoring patient compliance with self-care recommendations
Chronic Pain Management Treatment Planning
A variety of functional and physiological changes may occur in chronic conditions. Therefore, a variety of treatment procedures, modalities, and recommendations may be applied to benefit the patient. The necessity for ongoing chronic pain management of spine-related conditions for individual patients is established when there is a return of pain and/or other symptoms and/or pain-related difficulty performing tasks and actions equivalent to the appropriate minimal clinically important change value for more than 24 hours, for example, change in numeric rating scale of more than 2 points for chronic LBP.
Although the visit frequency and duration of supervised treatment vary and are influenced by the rate of recovery toward MTB values and the individual’s ability to self-manage the recurrence of complaints, a reasonable therapeutic trial for managing patients requiring ongoing care is up to 4 visits after a therapeutic withdrawal. If reevaluation indicates further care, this may be delivered at up to 4 visits per month. (Caution: The majority of chronic pain patients can self/home-manage, be managed in short episodic bursts of care, or require ongoing care at 1-2 visits per month, to be reevaluated at a minimum of every 12 visits. It is rare that a patient would require 4 visits per month to manage even advanced or complicated chronic pain.) Clinicians should routinely monitor a patient’s change in pain/function to determine appropriateness of continued care. An appropriate reevaluation should be completed at minimum every 12 visits. Reevaluation may be indicated more frequently in the event a patient reports a substantial or unanticipated change in symptoms and/or there is a basis for determining the need for change in the treatment plan/goals.
When pain and/or ADL dysfunction exceeds the patient’s ability to self-manage, the medical necessity of care should be documented and the chronic care treatment plan altered appropriately.
Patient recovery patterns vary depending on degrees of exacerbations. Mild exacerbation episodes may be manageable with 1-6 office visits within a chronic care treatment plan. There is not a linear effect between the intensity of exacerbation and time to recovery.
Moderate and severe exacerbation episodes within a chronic care treatment plan require acute care recommendations and case management.12
Algorithms
Figure 6 summarizes the pathways for the chiropractic management of LBP.
Fig 6
Algorithms for chiropractic management of LBP.
Discussion
With the chiropractic profession’s establishment of the CCGPP to facilitate the development of best practices, 3 guidelines addressing the management of low back disorders were ultimately published.9, 10, 12 This set in motion an effort to improve clinical methods by reducing variation in chiropractic treatment patterns that has long been unaddressed by any other evidence-informed and consensus-driven official guideline.16, 54, 55, 62, 63,72 The approach to the development of these recommendations has been evolutionary so as to guide the profession toward the utilization of more evidence-informed clinical methods intended to improve patient outcomes. Historically, this also explains why the initial low back guideline, published in 2008, required 2 subsequent additional guidelines to expand on acute and chronic conditions. This was practical to introduce additional guidance in a stepwise fashion.
The focus of these recommendations has been patient centered and not practitioner centered. Practices and techniques that have not demonstrated superior efficacy in published studies may be used as alternative approaches to those methods that have more robust evidence. No other guidelines have been specific to this purpose within the chiropractic profession and endorsed as broadly, making this guideline unique. It is also important to consider that guidelines specific to other professions may or may not include clinical approaches that do not best inform chiropractic management of low back disorders. Although evidence produced under the auspices of other professions is important to consider, it is also important to consider whether this evidence informs a conservative care approach. For example, from a chiropractic viewpoint, drug and surgical treatment approaches are generally regarded as more invasive and should be considered as second- and third-line approaches to the treatment of low back disorders. That is why we believe that professional guidelines specific to a profession’s scope and approach to intervening in the natural course of disease are important.
It is the responsibility of a profession to periodically update guidelines to ensure consistency with new research findings and subsequent clinical experience. As such, an updated literature review was conducted, and the previous best practice guidelines were revised. The evidence reviewed has informed several important new recommendations to this updated guideline. For example, the evidence informs us that the routine use of radiographic imaging studies is not in the best interest of most patients with nonspecific LBP.53, 55 However, there may be exceptions to this based upon history and clinical examination characteristics. Doctors of chiropractic are advised that it is frequently in the best interest of patients to select manual method approaches that do not rely on radiographs to determine the method of manipulation or adjustment.69 In addition, it is not in the patient’s best interest for the DC to use the least evidence-informed chiropractic techniques as their first-line approach over those where the evidence is more robust.
While adding important new recommendations, it is useful to note that the updated literature synthesis did not ultimately require many other changes from the original guideline recommendations. The changes reflected in this current update were as follows: (1) a brief description of key elements that should standardly be included during an informed consent discussion; (2) the recommendation that routine radiographs, other imaging, and other diagnostic tests are not recommended for patients with nonspecific LBP (along with recommendations for when these studies should be considered); (3) recommendation that the hierarchy of clinical methods used in patient care should generally correspond to the supporting level of existing evidence; (4) additional clarification about the limited use of therapeutic modalities and lumbar supports that reflects patient preferences with the intention to best facilitate the shift from passive-to-active care and not dependency on passive modalities with limited evidence of efficacy; (5) recognition that although range of motion testing may be clinically useful as a part of the physical examination to assess for regional mobility, the evidence does not support its reliability in determining functional status; and (6) inclusion of a brief summary of the evidence informing manipulation risk vs benefit assessment.
Although this revision contemplates new guidance on key practice areas, it is not expected that these new recommendations will necessarily apply to every patient seen by a DC.
Similarly, with respect to the dosage recommendations (ie, treatment frequency and duration) within this guideline, dosage should be modified to fit the individual patient’s needs. For example, the majority of chronic pain patients can self-manage, can be managed in short episodic bursts of care, or require ongoing care at 1-2 visits per month, to be reevaluated at a minimum of every 12 visits. It is rare that a patient would require 4 visits per month to manage advanced or complicated chronic pain. Thus, it is important to consider this guideline’s recommendations for visit frequency as ranges rather than specific numbers. In addition, with regard to continuing assessments to evaluate the effectiveness of treatment, after the initial round of up to 6 visits, a brief evaluation should be performed to evaluate the progress of care. Such reevaluations at a minimum should include assessment of subjective and/or objective factors. These might include using pain scales such as the visual analog scale, the numeric rating scale, pain diagrams, and/or validated ADL measures, such as the Revised Oswestry Back Disability Index, Roland Morris Back Disability Index, RAND 36, or the Bournemouth Disability Questionnaire. Additional orthopedic/neurological tests may be considered on a case-by-case basis.
Nothing in this guideline should be interpreted as saying that patients should never have imaging ordered based upon examination and clinical judgment. Similarly, the conclusion should not be that every patient should only receive treatment methods with the highest level of evidence. It is the recommendation of this guideline that imaging and clinical methods have evidence to inform their use. In addition, patients should be informed when their care appears to require a trial of an alternate, less evidence-informed strategy.
Regarding the evidence used to support these guidelines, most clinical trials are limited in duration and usually reflect a target patient population that is not necessarily representative of all patients encountered in standard practice. Patients possess characteristics that include risk factors (ie, age, history of previous episodes of LBP, etc) and other clinical characteristics that were not specifically assessed in clinical trials. Therefore, it is important to view practice guidelines in this context and that a 1-size-fits-all approach will not fit all patients. It is the collective judgment of CCGPP, the Delphi panelists, and the authors that unexplainable and unnecessary variation in treatment patterns for standard presentations of nonspecific LBP, without considering or using the best evidence, will not necessarily lead to improvements in clinical methods and improved patient outcomes.
Future Studies
The work of developing and improving guidelines is a never-ending and time-consuming task. Therefore, the authors have suggested areas of patient management that should be considered during future revisions. Three areas suggested during the manuscript review process were (1) guidance on the evidence of the value of limited rest at various phases of recovery across the range of low back disorders, (2) more detailed guidance as to what history findings would/should lead to imaging, and (3) review of the literature describing efforts to develop assessment methods and tools to characterize the predictors of outcomes and inform selection and greater standardization of clinical methods.73, 74 Two areas of focus for future updates are also strongly recommended by the coauthors as well. The first concerns attempting to achieve a more detailed understanding of the hierarchy of chiropractic techniques that should be used based upon various archetypal patient presentations across the range of low back disorders. This would require reviewing head-to-head comparative research to determine relative efficacy of clinical methods using specific chiropractic techniques.
The authors recognize that some legacy outcome measures used in clinical practice and in clinical trials were not developed specifically with patients who may be interested in prioritizing conservative care approaches first. Also, because a measure’s ability to detect change and clinically minimal important difference (CMID) is linked directly to the target population and contextual characteristics, it is unlikely that there is a monolithic CMID value for a clinical outcomes assessment tool (including patient rated outcome measures) across all contexts of use and patient cohorts. More likely, there would be a range in CMID estimates that differs across varying patient cohorts and clinical trial contexts.75 The chiropractic profession has relied upon instruments that are less sensitive to changes in the types of risks, adverse effects, symptoms, and impacts that chiropractic patients might consider most important. This includes the benefits of avoidance of risks and adverse events associated with medication use and surgical interventions. As such, a comprehensive review is recommended to determine the evidence for the use of these legacy instruments in practice as well as, most critically, clinical trials that include the evaluation of the outcomes of the treatment of low back disorders that include chiropractic subjects. This type of review should include members who have a background in outcomes measurement and the development of de novo patient-reported outcomes instruments. Finally, an ever-broadening horizon of new and ongoing areas of related research constantly needs to be scanned for updated and applicable learnings, such as improved understanding of the interplay between functional anatomy (eg, muscular and fascial) and the generation of LBP.76, 77
Limitations
This guideline did not address several important issues that future efforts should focus on, including the following: the important issues of appropriate recommendations on limited rest; guidance on how DCs should assess history findings that might require imaging; expanded review and assessment of comparative efficacy of chiropractic manipulative techniques; and a full-scale review of outcome measures used by chiropractors and chiropractic researchers to evaluate the suitability of legacy measures as well as the robustness of their reported CMID in the context of populations frequently treated by chiropractors.78, 79, 80
Our Delphi panel may not have represented the broadest spectrum of DCs in terms of philosophy and approach to practice. In addition, this guideline is most applicable to chiropractic practice in the United States. Input from other professions was present but also limited to 4 members from other professions (acupuncture, massage therapy, medicine, and physical therapy). However, the panel had geographic diversity and was clearly based upon practice expertise with 33 of 37 panelists being in practice an average 27 years.
Another limitation relates to the literature included in the systematic review, which extended through February 2014 to provide time for project implementation. It is possible that articles were inadvertently excluded. An important issue related to the literature is that issues of great practical importance, such as the determination of optimal procedures and protocols for specific patients, do not yet have enough high-quality evidence to make detailed recommendations. An example of this is the use of a wide variety of manipulative techniques by DCs,19even though most randomized trials use only HVLA manipulation, due to the requirements of the study design for uniformity of the intervention. As the evidence base for manipulative techniques grows and expands its scope, it is essential that CPGs continue to be updated in response to new evidence. Although the authors did not task themselves with the responsibility of developing a formal dissemination plan, CCGPP is currently developing one to coordinate with the timing of the publication of this guideline.
Finally, any guideline recommendations are limited by those who would use partial statements, out of context, to justify a treatment, utilization, and/or reimbursement decision. It is critical to the appropriate use of this CPG that recommendations are not misconstrued by being taken out of context by the use of partial statements. To avoid such practice, we strongly recommend that when a quote from this guideline is to be used, an entire paragraph be included to contextualize the recommendation being cited.
Conclusion
This publication is an update of the best practice recommendations for chiropractic management of LBP.9, 10, 12This guide summarizes recommendations throughout the continuum of care from acute to chronic and offers the chiropractic profession and other key stakeholders an up-to-date evidence- and clinical practice experience–informed resource outlining best practice approaches for the treatment of patients with LBP.
Funding Sources & Conflicts of Interest
All authors and panelists participated without compensation from any organization. Logan University made an in-kind contribution to the project by allowing Drs. Hawk and Kaeser and Ms. Anderson and Walters to devote a portion of their work time to this project. The University of Western States also provided in-kind support for a portion of Dr. Hawk’s time. Dr. Farabaugh currently holds the position of the National Physical Medicine Director of Advanced Medical Integration Group, LP. Dr. Morris is a post-graduate faculty member of the National University of Health Sciences and receives access to library resources. There were no conflicts of interest were reported for this study.
Contributorship Information
Concept development (provided idea for the research): C.H., G.G., C.M., W.W., G.B.
Design (planned the methods to generate the results): C.H., G.G.
Supervision (provided oversight, responsible for organization and implementation, writing of the manuscript): C.H., G.G., C.M.
Data collection/processing (responsible for experiments, patient management, organization, or reporting data): C.H.
Analysis/interpretation (responsible for statistical analysis, evaluation, and presentation of the results): C.H., G.G., C.M., G.B.
Literature search (performed the literature search): C.H., M.K., S.W., R.F., G.G., C.M.
Writing (responsible for writing a substantive part of the manuscript): C.H., R.F., G.G., C.M., W.W., G.B.
Critical review (revised manuscript for intellectual content; this does not relate to spelling and grammar checking): C.H., M.K., S.W., R.F., M.D., G.G., C.M., W.W., M.D., G.B., T.A.
Acknowledgment
The authors thank Michelle Anderson, project coordinator, who ensured that all communications were completed smoothly and in a timely manner. The experts, listed below, who served on the Delphi panel made this project possible by generously donating their expertise and clinical judgment.
Logan University panelists who developed the seed document that served as the basis for the consensus process: Robin McCauley Bozark, DC; Karen Dishauzi, DC, MEd; Krista Gerau, DC; Edward Johnnie, DC; Aimee Jokerst, DC; Jeffrey Kamper, DC; Norman Kettner, DC; Janine Ludwinski, DC; Donna Mannello, DC; Anthony Miller, DC; Patrick Montgomery, DC; Michael J. Wittmer, DC. Muriel Perillat, DC, MS, Logan Dean of Clinics, also provided an independent review of the document.
Delphi panelists for the consensus process: Charles Blum, DC; Bryan Bond, DC; Jeff Bonsell, DC; Jerrilyn Cambron, LMT, DC, MPH, PhD; Joseph Cipriano, DC; Mark Cotney, DC; Edward Cremata, DC; Don Cross, DC; Donald Dishman, DC; Gregory Doerr, DC; Paul Dougherty, DC; Joseph Ferstl, DC; Anthony Q. Hall, DC; Michael W. Hall, DC; Robert Hayden, DC, PhD; Kathryn Hoiriis, DC; Lawrence Humberstone, DC; Norman Kettner, DC; Robert Klein, DC; Kurt Kuhn, DC, PhD; William Lauretti, DC; Gene Lewis, DC, MPH; John Lockenour, DC; James McDaniel, DC; Martha Menard, PhD, LMT; Angela Nicholas, DC; Mariangela Penna, DC; Dan Spencer, DC; Albert Stabile, DC; John S. Stites, DC; Kasey Sudkamp, DPT; Leonard Suiter, DC; John Ventura, DC; Sivarama Vinjamury, MD, MAOM, MPH, LAc; Jeffrey Weber, MA, DC; Gregory Yoshida, MD.
References
Meeker, S HW. Chiropractic: a profession at the crossroads of mainstream and alternative medicine. Ann Intern Med. 2002; 136: 216–227
Coulter, I. The roles of philosophy and belief systems in complementary and alternative health care.in: Paper presented at: Conference on Philosophy of Chiropractic Education 2000; Toronto. ; 2000
LeFebvre, R, Peterson, D, and Haas, M. Evidence-based practice and chiropractic care. JEBCAM. 2013; 18: 75–79
Triano, J and Raley, B. Chiropractic in the interdisciplinary team practice. Top Clin Chiropr. 1994; 1: 58–66
Triano, JJ. Literature syntheses for the Council on Chiropractic Guidelines and Practice Parameters: methodology. J Manipulative Physiol Ther. 2008; 31: 645–650
Triano, JJ. What constitutes evidence for best practice?. J Manipulative Physiol Ther. 2008; 31: 637–643
Triano, JJ, Goertz, C, Weeks, J et al. Chiropractic in North America: toward a strategic plan for professional renewal—outcomes from the 2006 Chiropractic Strategic Planning Conference. J Manipulative Physiol Ther. 2010; 33: 395–405
Lawrence, DJ, Meeker, W, Branson, R et al. Chiropractic management of low back pain and low back-related leg complaints: a literature synthesis. J Manipulative Physiol Ther. 2008; 31: 659–674
Globe, GA, Morris, CE, Whalen, WM, Farabaugh, RJ, and Hawk, C. Chiropractic management of low back disorders: report from a consensus process. J Manipulative Physiol Ther. 2008; 31: 651–658
Baker, G, Farabaugh, RJ, Augat, TJ, and Hawk, C. Algorithms for the chiropractic management of acute and chronic spine-related pain. Top Integr Health Care. 2012; 3
Dehen, MD, Whalen, WM, Farabaugh, RJ, and Hawk, C. Consensus terminology for stages of care: acute, chronic, recurrent, and wellness. J Manipulative Physiol Ther. 2010; 33: 458–463
Farabaugh, RJ, Dehen, MD, and Hawk, C. Management of chronic spine-related conditions: consensus recommendations of a multidisciplinary panel. J Manipulative Physiol Ther. 2010; 33: 484–492
Sackett, DL, Rosenberg, WM, Gray, JA, Haynes, RB, and Richardson, WS. Evidence based medicine: what it is and what it isn’t. BMJ. 1996; 312: 71–72
Sackett, DL, Straus, SE, Richardson, WS et al. Evidence-based medicine: how to practice and teach EBM. 2nd ed. Church Livingston, Edinburgh; 2000
Slaughter, AL, Frith, K, O’Keefe, L, Alexander, S, and Stoll, R. Promoting best practices for managing acute low back pain in an occupational environment. Workplace Health Saf. 2015; 63: 408–414
Haldeman, S and Dagenais, S. What have we learned about the evidence-informed management of chronic low back pain?. Spine J. 2008; 8: 266–277
Clar, C, Tsertsvadze, A, Court, R, Hundt, GL, Clarke, A, and Sutcliffe, P. Clinical effectiveness of manual therapy for the management of musculoskeletal and non-musculoskeletal conditions: systematic review and update of UK evidence report. Chiropr Man Ther. 2014; 22: 12
Council on Chiropractic Education. Accreditation standards, principles, processes & requirements for accreditation. (Scottsdale, AZ); 2013
Christensen, M, Kollasch, M, and Hyland, JK. Practice analysis of chiropractic. NBCE, Greeley, CO; 2010
Bronfort, G, Haas, M, Evans, R, Leiniger, B, and Triano, J. Effectiveness of manual therapies: the UK evidence report. Chiropr Osteopath. 2010; 18: 3
Hawk, C, Schneider, M, Evans, MW, and Redwood, D. Consensus process to develop a best-practice document on the role of chiropractic care in health promotion, disease prevention, and wellness. J Manipulative Physiol Ther. 2012; 35: 556–567
Hawk, C, Khorsan, R, Lisi, AJ, Ferrance, RJ, and Evans, MW. Chiropractic care for nonmusculoskeletal conditions: a systematic review with implications for whole systems research. J Altern Complement Med. 2007; 13: 491–512
Hawk, C, Schneider, M, Dougherty, P, Gleberzon, BJ, and Killinger, LZ. Best practices recommendations for chiropractic care for older adults: results of a consensus process. J Manipulative Physiol Ther. 2010; 33: 464–473
Hawk, C, Schneider, M, Ferrance, RJ, Hewitt, E, Van Loon, M, and Tanis, L. Best practices recommendations for chiropractic care for infants, children, and adolescents: results of a consensus process. J Manipulative Physiol Ther. 2009; 32: 639–647
Schneider, M, Vernon, H, Ko, G, Lawson, G, and Perera, J. Chiropractic management of fibromyalgia syndrome: a systematic review of the literature. J Manipulative Physiol Ther. 2009; 32: 25–40
Vernon, H and Schneider, M. Chiropractic management of myofascial trigger points and myofascial pain syndrome: a systematic review of the literature. J Manipulative Physiol Ther. 2009; 32: 14–24
Pfefer, MT, Cooper, SR, and Uhl, NL. Chiropractic management of tendinopathy: a literature synthesis. J Manipulative Physiol Ther. 2009; 32: 41–52
Brantingham, JW, Bonnefin, D, Perle, SM et al. Manipulative therapy for lower extremity conditions: update of a literature review. J Manipulative Physiol Ther. 2012; 35: 127–166
Brantingham, JW, Cassa, TK, Bonnefin, D et al. Manipulative therapy for shoulder pain and disorders: expansion of a systematic review. J Manipulative Physiol Ther. 2011; 34: 314–346
Brantingham, JW, Cassa, TK, Bonnefin, D et al. Manipulative and multimodal therapy for upper extremity and temporomandibular disorders: a systematic review. J Manipulative Physiol Ther. 2013;36: 143–201
Brantingham, JW, Globe, G, Pollard, H, Hicks, M, Korporaal, C, and Hoskins, W. Manipulative therapy for lower extremity conditions: expansion of literature review. J Manipulative Physiol Ther. 2009; 32: 53–71
Brantingham, JW, Parkin-Smith, G, Cassa, TK et al. Full kinetic chain manual and manipulative therapy plus exercise compared with targeted manual and manipulative therapy plus exercise for symptomatic osteoarthritis of the hip: a randomized controlled trial. Arch Phys Med Rehabil. 2012; 93: 259–267
Becker, M, Neugebauer, EA, and Eikermann, M. Partial updating of clinical practice guidelines often makes more sense than full updating: a systematic review on methods and the development of an updating procedure. J Clin Epidemiol. 2014; 67: 33–45
Shekelle, P, Woolf, S, Grimshaw, JM, Schunemann, HJ, and Eccles, MP. Developing clinical practice guidelines: reviewing, reporting, and publishing guidelines; updating guidelines; and the emerging issues of enhancing guideline implementability and accounting for comorbid conditions in guideline development. Implement Sci. 2012; 7: 62
The AGREE Next Steps Consortium. Appraisal of guidelines for research and evaluation II. ([Ontario, Canada]); 2013
Moher, D, Liberati, A, Tetzlaff, J, Altman, DG, and Group, P. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. BMJ. 2009; 339: b2535
Dagenais, S, Gay, RE, Tricco, AC, Freeman, MD, and Mayer, JM. NASS contemporary concepts in spine care: spinal manipulation therapy for acute low back pain. Spine J. 2010; 10: 918–940
Dagenais, S, Tricco, AC, and Haldeman, S. Synthesis of recommendations for the assessment and management of low back pain from recent clinical practice guidelines. Spine J. 2010; 10: 514–529
Furlan, AD, Yazdi, F, Tsertsvadze, A et al. Complementary and alternative therapies for back pain II.Evid Rep Technol Assess (Full Rep). 2010; : 1–764
Goertz, CM, Pohlman, KA, Vining, RD, Brantingham, JW, and Long, CR. Patient-centered outcomes of high-velocity, low-amplitude spinal manipulation for low back pain: a systematic review. J Electromyogr Kinesiol. 2012; 22: 670–691
Hidalgo, B, Detrembleur, C, Hall, T, Mahaudens, P, and Nielens, H. The efficacy of manual therapy and exercise for different stages of non-specific low back pain: an update of systematic reviews. J Man Manip Ther. 2014; 22: 59–74
Koes, BW, van Tulder, M, Lin, CW, Macedo, LG, McAuley, J, and Maher, C. An updated overview of clinical guidelines for the management of non-specific low back pain in primary care. Eur Spine J. 2010; 19: 2075–2094
McIntosh, G and Hall, H. Low back pain (acute). BMJ Clin Evid. 2011; 2011
Posadzki, P and Ernst, E. Spinal manipulations for cervicogenic headaches: a systematic review of randomized clinical trials. Headache. 2011; 51: 1132–1139
Rubinstein, SM, Terwee, CB, Assendelft, WJ, de Boer, MR, and van Tulder, MW. Spinal manipulative therapy for acute low back pain: an update of the cochrane review. Spine (Phila Pa 1976). 2013; 38: E158–E177
Rubinstein, SM, van Middelkoop, M, Assendelft, WJ, de Boer, MR, and van Tulder, MW. Spinal manipulative therapy for chronic low-back pain: an update of a Cochrane review. Spine (Phila Pa 1976). 2011; 36: E825–E846
Haas, M, Vavrek, D, Peterson, D, Polissar, N, and Neradilek, MB. Dose-response and efficacy of spinal manipulation for care of chronic low back pain: a randomized controlled trial. Spine J. 2014;14: 1106–1116
Senna, MK and Machaly, SA. Does maintained spinal manipulation therapy for chronic nonspecific low back pain result in better long-term outcome?. Spine (Phila Pa 1976). 2011; 36: 1427–1437
von Heymann, WJ, Schloemer, P, Timm, J, and Muehlbauer, B. Spinal high-velocity low amplitude manipulation in acute nonspecific low back pain: a double-blinded randomized controlled trial in comparison with diclofenac and placebo. Spine (Phila Pa 1976). 2013; 38: 540–548
Walker, BF, Hebert, JJ, Stomski, NJ, Losco, B, and French, SD. Short-term usual chiropractic care for spinal pain: a randomized controlled trial. Spine (Phila Pa 1976). 2013; 38: 2071–207
Ernst, E. Chiropractic spinal manipulation: what does the ‘best’ evidence show?. Focus Altern Complement Ther. 2012; 17: E463–E472
Menke, JM. Do manual therapies help low back pain? A comparative effectiveness meta-analysis.Spine (Phila Pa 1976). 2014; 39: E463–E472
Chou, R, Fu, R, Carrino, JA, and Deyo, RA. Imaging strategies for low-back pain: systematic review and meta-analysis. Lancet. 2009; 373: 463–472
Chou, R and Huffman, LH. Nonpharmacologic therapies for acute and chronic low back pain: a review of the evidence for an American Pain Society/American College of Physicians clinical practice guideline. Ann Intern Med. 2007; 147: 492–504
Chou, R, Qaseem, A, Snow, V et al. Diagnosis and treatment of low back pain: a joint clinical practice guideline from the American College of Physicians and the American Pain Society. Ann Intern Med. 2007; 147: 478–491
Chou, WC, Tinetti, ME, King, MB, Irwin, K, and Fortinsky, RH. Perceptions of physicians on the barriers and facilitators to integrating fall risk evaluation and management into practice. J Gen Intern Med. 2006; 21: 117–122
Guzman, J, Haldeman, S, Carroll, LJ et al. Clinical practice implications of the Bone and Joint Decade 2000-2010 Task Force on Neck Pain and Its Associated Disorders: from concepts and findings to recommendations. Spine. 2008; 33: S199–S213
Haas, M, Bronfort, G, and Evans, RL. Chiropractic clinical research: progress and recommendations. J Manipulative Physiol Ther. 2006; 29: 695–706
Haas, M, Jacobs, GE, Raphael, R, and Petzing, K. Low back pain outcome measurement assessment in chiropractic teaching clinics: responsiveness and applicability of two functional disability questionnaires. J Manipulative Physiol Ther. 1995; 18: 79–87
Haas, M, Sharma, R, and Stano, M. Cost-effectiveness of medical and chiropractic care for acute and chronic low back pain. J Manipulative Physiol Ther. 2005; 28: 555–563
Haldeman, S, Carroll, L, Cassidy, JD, Schubert, J, and Nygren, A. The Bone and Joint Decade 2000-2010 Task Force on Neck Pain and Its Associated Disorders: executive summary. Spine (Phila Pa 1976). 2008; 33: S5–S7
in: S Haldeman, D Chapman-Smith, DJ Petersen (Eds.) Guidelines for chiropractic quality assurance and practice parameters. Aspen Publishers, Gaithersburg, MD; 1993
Haldeman, S and Dagenais, S. A supermarket approach to the evidence-informed management of chronic low back pain. Spine J. 2008; 8: 1–7
Fitch, K, Bernstein, SJ, Aquilar, MS et al. The RAND UCLA Appropriateness Method user’s manual.RAND Corp., Santa Monica, CA; 2003
American Medical Association. Guide to the evaluation of permanent impairment. 6th ed. American Medical Association, Chicago; 2008
Schneider, M, Haas, M, Glick, R, Stevans, J, and Landsittel, D. Comparison of spinal manipulation methods and usual medical care for acute and subacute low back pain: a randomized clinical trial.Spine (Phila Pa 1976). 2015; 40: 209–217
National Institute for Health and Care Excellence. Early management of persistent non-specific low back pain. NICE, UK; 2009
van Duijvenbode, I, Jellema, P, van Poppel, MN, and van Tulder, MW. Lumbar supports for prevention and treatment of low back pain. Cochrane Database Syst Rev. 2011; : CD001823
Triano, J, Budgell, B, Bagnulo, A et al. Review of methods used by chiropractors to determine the site for applying manipulation. Chiropr Man Ther. 2013; 21: 36
Carnes, D, Mars, TS, Mullinger, B, Froud, R, and Underwood, M. Adverse events and manual therapy: a systematic review. Man Ther. 2010; 15: 355–363
Dabbs, V and Lauretti, WJ. A risk assessment of cervical manipulation vs. NSAIDs for the treatment of neck pain. J Manipulative Physiol Ther. 1995; 18: 530–536
Boswell, MV, Trescot, AM, Datta, S et al. Interventional techniques: evidence-based practice guidelines in the management of chronic spinal pain. Pain Physician. 2007; 10: 7–111
Deyo, RA, Dworkin, SF, Amtmann, D et al. Report of the NIH task force on research standards for chronic low back pain. Spine (Phila Pa 1976). 2014; 39: 1128–1143
Russell, R. The rationale for primary spine care employing biopsychosocial, stratified and diagnosis-based care-pathways at a chiropractic college public clinic: a literature review. ([Online access only 11 p.])Chiropr Man Ther. 2013; 21
Revicki, D, Hays, RD, Cella, D, and Sloan, J. Recommended methods for determining responsiveness and minimally important differences for patient-reported outcomes. J Clin Epidemiol. 2008; 61: 102–109
Bush, HM, Pagorek, S, Kuperstein, J, Guo, J, Ballert, KN, and Crofford, LJ. The association of chronic back pain and stress urinary incontinence: a cross-sectional study. J Womens Health Phys Ther. 2013;37: 11–18
Bi, X, Zhao, J, Zhao, L et al. Pelvic floor muscle exercise for chronic low back pain. J Int Med Res. 2013; 41: 146–152
Parkin-Smith, GF, Norman, IJ, Briggs, E, Angier, E, Wood, TG, and Brantingham, JW. A structured protocol of evidence-based conservative care compared with usual care for acute nonspecific low back pain: a randomized clinical trial. Arch Phys Med Rehabil. 2012; 93: 11–20
Peterson, CK, Bolton, J, and Humphreys, BK. Predictors of outcome in neck pain patients undergoing chiropractic care: comparison of acute and chronic patients. Chiropr Man Therap. 2012;20: 27
Peterson, CK, Bolton, J, and Humphreys, BK. Predictors of improvement in patients with acute and chronic low back pain undergoing chiropractic treatment. J Manipulative Physiol Ther. 2012; 35: 525–533
(HealthDay News) � Chronic lower back pain affects millions of Americans. Many try steroid injections to ease their discomfort, but researchers now say this remedy provides only short-term relief.
In their study, investigators from France focused on 135 patients with back pain seemingly caused by inflammation between the discs and bones (vertebrae) in the lower spine.
The researchers found that a single steroid injection eased pain for one month. After that, however, effectiveness waned. Virtually no difference was seen one year after treatment between patients who did or didn�t get the injection.
�Our results do not support the wide use of an injection of glucocorticoid in alleviating symptoms in the long term in this condition,� said lead researcher Dr. Christelle Nguyen.
The findings are consistent with earlier studies, said Nguyen, an assistant professor of physical medicine and rehabilitation at Paris Descartes University.
Nguyen said she and her colleagues had hoped that targeting local disc inflammation with an anti-inflammatory steroid would help alleviate long-term pain.
To test their theory, they selected patients with chronic lower back pain and signs of disc inflammation on an MRI. On average, participants had suffered from back pain for six years. Half were assigned to a single steroid shot; the other half got no injection.
Patients rated their pain severity before the injection and again one, three, six and 12 months after the treatment.
One month after treatment, 55 percent of those who got the steroid injection experienced less lower back pain, compared with 33 percent of those who weren�t treated.
�However, the groups did not differ for the assessed outcomes 12 months after the injection,� Nguyen said.
For example, patients who did or didn�t received a steroid injection ended up in similar circumstances, with the same incidence of disc inflammation, lower quality of life, more anxiety and depression and continued use of non-narcotic pain pills, she said.
Overall, most patients found the steroid injections tolerable, and would agree to have a second one if necessary, Nguyen said. �We had no specific safety concerns and found no cases of infection, destruction or calcification of the disc 12 months after the injection,� she added.
The results were published March 20 in the Annals of Internal Medicine.
Dr. Byron Schneider, of Vanderbilt University School of Medicine in Nashville, noted there are many different causes of back pain.
In this study, the patients suffered from chronic back pain, he pointed out. �Patients with chronic lower back [pain] probably have more than one cause of their pain, which may be why the good results they found at one month weren�t there a year later,� said Schneider, an assistant professor of physical medicine and rehabilitation.
The study results don�t mean steroid injections should be avoided altogether, he noted.
Patients with a sudden episode of back pain � so-called acute pain � probably don�t need a steroid injection, he said.
Chiropractic Care Boosts Surgery Avoidance
�But if they�re not getting better after a month or two the way we would expect them to, at that point it would be reasonable to discuss the pluses and minuses of a steroid injection,� said Schneider, co-author of an accompanying journal editorial.
Chronic (long-term) back pain is a different situation, he said. Treating chronic back pain means treating the pain itself, but also using cognitive behavior therapy and �pain psychology� to help patients cope with pain, he said.
�For chronic pain, physicians need to address the musculoskeletal reasons that cause the hurt, but also other reasons that patients may be experiencing pain,� Schneider said.
According to the editorial, psychological distress, fear of pain and even low educational levels can affect pain levels.
Sciatica is a disabling condition characterised by pain in the leg along the distribution of the sciatic nerve. It can be accompanied by back pain, tingling, numbness, reduced strength and reflex changes in the leg.
Sciatica is most commonly caused by irritation of the nerve roots emerging from the lower spine. For this reason it is often considered a type of nerve pain.
It is estimated that around 5 to 10% of people with low back pain have sciatica, equating to around 200,000 to 400,000 Australians. It is notoriously difficult to treat sciatica with over-the-counter medications and complementary therapies.
Our study released today examines the commonly prescribed nerve pain treatment pregabalin for acute and chronic sciatica. The results show that pregabalin does not improve pain symptoms or function, but is associated with unwanted side effects such as dizziness when compared to a placebo.
Huge Uptake Of New Drug
Medicines that have shown to be effective for treating nerve pain were considered to be an exciting new treatment option for sciatica.
Pregabalin became subsidised by the Australian government for nerve pain in 2013 and quickly became widely prescribed for conditions such as sciatica. In its first year of listing, nearly 1.4 million prescriptions were written and in its second year, this figure increased to 2.4 million. This was 32% more than the government predicted.
Since its first approval in 2004 pregabalin has become the most widely prescribed medicine for nerve pain globally, with worldwide sales of between US$3-5 billion annually. The astonishing growth is likely to be a consequence of many factors but may partly be a reflection of the lack of effective treatments for sciatica.
But while pregabalin has been shown to be effective for other types of nerve pain, there was little evidence it helped patients with sciatica. There were also emerging concerns of increased harmful effects, including risk of suicidality and misuse.
We designed our study to examine whether pregabalin is effective and has tolerable side effects in patients with sciatica.
Pregabalin Does Not Work For Sciatica
The research compared the effects of pregabalin against placebo (identical inactive capsules) in 207 patients with sciatica.
Patients were randomly assigned to take up to eight weeks of pregabalin or placebo, prescribed and monitored by a general practitioner or a medical specialist. To keep the results as unbiased as possible, patients, doctors and study staff were kept blinded to who was treated with pregabalin and who received placebo capsules.
This study found after eight weeks there was no difference in the severity of leg pain between those who took pregabalin and those who took placebo capsules. The same result was seen at one year. There were also no differences in other relevant outcomes, such as back pain severity and function, at either eight weeks or one year.
However, people who took pregabalin reported more adverse effects. The most common adverse effect reported in the trial was dizziness.
The study shows that taking pregabalin does not improve your sciatic symptoms when compared with placebo, but you are more likely to have adverse effects when taking pregabalin.
Treatment Options For Sciatica
Few alternative treatment options exist for people suffering from sciatica.
There is limited data describing the effects of nonsurgical treatments such as exercise, spinal manipulation or acupuncture on sciatica.
There is also no convincing evidence to show medicines such as anti-inflammatory drugs, oral corticosteroids or opioid analgesic medicines are effective. Epidural corticosteroid injections have been shown to have a small benefit in the short-term only.
Surgery confers a short-term effect in selected patients with sciatica, but after a year people with sciatica who have not had surgery do just as well as people who�ve had the procedure.
The good news is that sciatica does get better with time. It�s important to stay as active as possible and to avoid prolonged bed rest (as this can delay recovery).
If you�re currently taking pregabalin, speak to a doctor about your condition, and mention any improvement or adverse effects you�ve experienced since starting pregabalin. It�s important not to stop pregabalin abruptly � usually doses should be reduced slowly over a few weeks. Abruptly stopping pregabalin can have some ill effects and should be done with care, close monitoring and advice from a doctor.
It�s unfortunate, but we do not currently have a lot of effective treatment options for people with sciatica. Speak to your doctor or treating clinician (such as a physiotherapist) about what may be appropriate for you, including specific advice on how you can stay as active as possible.
Perhaps you bent the wrong way while lifting something heavy. Or you�re dealing with a degenerative condition like arthritis. Whatever the cause, once you have low back pain, it can be hard to shake. About one in four Americans say they�ve had a recent bout of low back pain. And almost everyone can expect to experience back pain at some point in their lives.
Sometimes, it�s clearly serious: You were injured, or you feel numbness, weakness, or tingling in the legs. Call the doctor, of course. But for routine and mild low back pain, here are a few simple tips to try at home.
Chill It
Ice is best in the first 24 to 48 hours after an injury because it reduces inflammation, says E. Anne Reicherter, PhD, PT, DPT, associate professor of Physical Therapy at the University of Maryland School of Medicine. �Even though the warmth feels good because it helps cover up the pain and it does help relax the muscles, the heat actually inflames the inflammatory processes,� she says. After 48 hours, you can switch to heat if you prefer. Whether you use heat or ice � take it off after about 20 minutes to give your skin a rest. If pain persists, talk with a doctor.
Keep Moving
�Our spines are like the rest of our body � they�re meant to move,� says Reicherter. Keep doing your daily activities. Make the beds, go to work, walk the dog. Once you�re feeling better, regular aerobic exercises like swimming, bicycling, and walking can keep you � and your back � more mobile. Just don�t overdo it. There�s no need to run a marathon when your back is sore.
Stay Strong
Once your low back pain has receded, you can help avert future episodes of back pain by working the muscles that support your lower back, including the back extensor muscles. �They help you maintain the proper posture and alignment of your spine,� Reicherter says. Having strong hip, pelvic, and abdominal muscles also gives you more back support. Avoid abdominal crunches, because they can actually put more strain on your back.
Stretch
Don�t sit slumped in your desk chair all day. Get up every 20 minutes or so and stretch the other way. �Because most of us spend a lot of time bending forward in our jobs, it�s important to stand up and stretch backward throughout the day,� Reicherter says. Don�t forget to also stretch your legs. Some people find relief from their back pain by doing a regular stretching routine, like yoga.
Think Ergonomically
Design your workspace so you don�t have to hunch forward to see your computer monitor or reach way out for your mouse. Use a desk chair that supports your lower back and allows you to keep your feet planted firmly on the floor.
Watch Your Posture
Slumping makes it harder for your back to support your weight. Be especially careful of your posture when lifting heavy objects. Never bend over from the waist. Instead, bend and straighten from the knees.
Wear Low Heels
Exchange your four-inch pumps for flats or low heels (less than 1 inch). High heels may create a more unstable posture, and increase pressure on your lower spine.
These could be signs that you have a nerve problem or another underlying medical condition that needs to be treated.
Call Today!
Are Functional Orthotics Part of Your Wellness Protocol?
Most Chiropractors advertise pain relief without drugs and care for injuries. Recently, some doctors and practices have begun labeling and promoting themselves as Wellness Centers. A wellness practice is focused on both maintaining a pre-existing level of musculoskeletal balance and postural health and preventing conditions that might alter this state of health. The challenge is, how can healthy patients be protected from problems that might arise in the future? The answer is simple: custom-made orthotics. Custom orthotics may be traditionally seen as a preventative measure, but so are most treatments of old. They are the perfect, foundational support your patients will never want to go without.
Wellness is a great concept�one of those �win-win� situations for doctor and patient. Orthotics are the perfect way to implement this concept and help establish a �preventative� approach, in addition to the traditional reactive ones, if need be. Let�s take at a look at the foundation of the body, and see just how useful they can be.
Look To The Feet
The feet are the foundation of the body. By age 40, nearly everyone has a foot condition of�some sort, many of which eventually contributing to health concerns farther up the Kinetic Chain (Figure 1). Therefore, it�s in the best interest of healthy patients to be offered a wellness program which stresses preventative care for normal, healthy feet, in order to prevent foot problems from occurring later in life.
�Pictured above, patient with severe bunions, or Hallux Valgus.
Figure 1. While 99% of all feet are normal at birth, 8% develop troubles by the first year of age, 41% at age 5, and 80% by age 20 (Fig. 1).�By age 40, nearly everyone has a foot condition of some sort.
How Can Orthotics Help?
Patients who participate in Chiropractic wellness programs can benefit from custom-made orthotics nearly as much as patients who seek Chiropractic care for musculoskeletal injuries and conditions. Foot Levelers� custom orthotics have been shown to effectively support the pedal foundation for both categories of patients, and can prevent problems well into the future with static and dynamic support.
Static support.Static support. A 1999 study using radiographic measurements found that custom-made, flexible orthotics can significantly improve the alignment of the arches when standing.2 In the wellness-practice concept of orthotic use, custom-made, flexible orthotics can be used to maintain a properly functioning arch alignment.
Dynamic support. During gait, the foot undergoes substantial changes and must permit a smooth transfer of the body�s center of mass over the leg in order to conserve energy and keep the work expenditure to a minimum.3 This requires a flexible, yet supportive orthotic that accommodates varying weights and forces and allows proper movement and function of the foot, while supporting all three arches�in order to prevent eventual arch collapse.
Postural benefits. Since the entire body structure is balanced on one foot at a time when walking and running, improving foot alignment can help maintain knee, hip, pelvic and even spinal postural alignment,4 and prevent joint degeneration (of the hip, knee, or spinal joints). A pelvic or spinal tilt or recurrent subluxations will often respond rapidly to orthotic support of the arches in the feet.
Orthotics For Everyone
Custom-made, flexible orthotics have long been recognized as a valid adjunct to Chiropractic care for many musculoskeletal conditions. In the wellness model of Chiropractic care, Foot Levelers� custom-made, flexible orthotics (Fig. 2) can be utilized as a preventative modality for the preservation of optimal arch support and the postponement or prevention of joint imbalances in later years. Therefore, orthotics are appropriate for virtually all Chiropractic patients.
IFM's Find A Practitioner tool is the largest referral network in Functional Medicine, created to help patients locate Functional Medicine practitioners anywhere in the world. IFM Certified Practitioners are listed first in the search results, given their extensive education in Functional Medicine
Static support.Static support. A 1999 study using radiographic measurements found that custom-made, flexible orthotics can significantly improve the alignment of the arches when standing.2 In the wellness-practice concept of orthotic use, custom-made, flexible orthotics can be used to maintain a properly functioning arch alignment.
Shoes for Kids
