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Functional Medicine

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Functional Medicine Explained
Clinical Neurophysiology

Facetogenic Pain, Headaches, Neuropathic Pain And Osteoarthritis

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El Paso, TX. Chiropractor Dr. Alexander Jimenez takes a look at various conditions that can cause chronic pain. These include:

Abstract

Arthritis pain is a complex phenomenon involving intricate neurophysiological processing at all levels of the pain pathway. The treatment options available to alleviate joint pain are fairly limited, and most arthritis patients report only modest pain relief with current treatments. A better understanding of the neural mechanisms responsible for musculoskeletal pain and identifying new targets will help develop future pharmacological therapies. This article reviews some of the latest research into factors that contribute to joint pain and covers areas such as cannabinoids, proteinase-activated receptors, sodium channels, cytokines, and transient receptor potential channels. The emerging hypothesis that osteoarthritis may have a neuropathic component is also discussed.

Introduction

The world health organization ranks musculoskeletal disorders as the most frequent cause of disability in the modern world, affecting one in three adults [1]. Even more alarming is that the prevalence of these diseases is rising while our knowledge of their underlying causes is fairly rudimentary.

Fig. 1 A schematic illustrating some of the targets known to modulate joint pain. Neuromodulators can be released from nerve terminals as well as mast cells and macrophages to alter afferent mechanosensitivity. Endovanilloids, acid, and noxious heat can activate transient receptor potential vanilloid type 1 (TRPV1) ion channels leading to the release of algogenic substance P (SP), which subsequently binds to neurokinin-1 (NK1) receptors. Proteases can cleave and stimulate protease-activated receptors (PARs). Thus far, PAR2and PAR4have been shown to sensitize joint primary afferents. The endocannabinoid anandamide (AE) is produced on demand and synthesized from N-arachidonoyl phosphatidylethanolamine (NAPE) under the enzymatic action of phospholipases. A portion of AE then binds to cannabinoid-1 (CB1) receptors leading to neuronal desensitization. Unbound AE is rapidly taken up by an anandamide membrane transporter (AMT)before being broken down by a fatty acid amide hydrolase (FAAH)into ethanolamine (Et) and arachidonic acid (AA). The cytokines tumor necrosis factor-?(TNF-?), interleukin-6 (IL-6) and interleukin1-beta (IL-1?) Can bind to their respective receptors to enhance pain transmission. Finally, tetrodotoxin (TTX)-resistant sodium channels (Nav1.8) are involved in neuronal sensitization.

Patients yearn for their chronic pain to disappear; however, currently prescribed analgesics are largely ineffective and are accompanied by a wide range of unwanted side effects. As such, millions of people worldwide are suffering from the debilitating effects of joint pain, for which there is no satisfactory treatment [2].

More than 100 different forms of arthritis have osteoarthritis (OA) being the most common. OA is a progressively degenerative joint disease that causes chronic pain and loss of function. Commonly, OA is the inability of the joint to repair damage effectively in response to excessive forces being placed on it. The biological and psychosocial factors that comprise chronic OA pain are not well understood, although ongoing research unravels the complex nature of disease symptoms [2]. Current therapeutics, such as non-steroidal anti-inflammatory drugs (NSAIDs), provide some symptomatic relief, reducing the pain for short periods of time, but do not alleviate pain across the patient’s lifespan. Furthermore, high-dose NSAIDs cannot be taken repeatedly over many years, as this can lead to renal toxicity and gastrointestinal bleeding.

Traditionally, arthritis research has focused largely on the articular cartilage as a primary target for the therapeutic development of novel OA drugs for disease modification. This chondrogenic focus has shed new light on the intricate biochemical and biomechanical factors that influence chondrocyte behavior in diseased joints. However, as the articular cartilage is aneural and avascular, this tissue is unlikely to be the source of OA pain. This fact, coupled with the findings that there is no correlation between the damage of articular cartilage and pain in OA patients [3,4] or preclinical models of OA [5], has caused a shift in focus to develop drugs for effective pain control. This article will review the latest findings in joint pain research and highlight some of the emerging targets that may be the future of arthritis pain management (summarized in Fig. 1)

Cytokines

The actions of various cytokines in joint neurophysiology studies have featured quite prominently recently. Interleukin-6 (IL-6), for example, is a cytokine that typically binds to the membrane-bound IL-6 receptor (IL-6R). IL-6 can also signal by binding with a soluble IL-6R (SIL-6R) to produce an IL-6/sIL-6R complex. This IL-6/sIL-6R complex subsequent lybinds to a transmembrane glycoprotein subunit 130(gp130), thereby allowing IL-6 to signal in cells that do not constitutively express membrane-bound IL-6R [25,26]. IL-6 and SIL-6R are key players in systemic inflammation and arthritis, as upregulation of both has been found in RA patients’ serum and synovial fluid [27,29]. Recently, Vazquez et al.observed that co-administration of IL-6/sIL-6R into rat knees caused inflammation-evoked pain, as revealed by an increase in the response of spinal dorsal horn neurons to mechanical stimulation of the knee and other parts of the hindlimb [30]. Spinal neuron hyperexcitability was also seen when IL-6/sIL-6R was applied locally to the spinal cord. Spinal application of soluble gp130 (which would mop up IL-6/sIL-6R complexes, thereby reducing trans-signaling) inhibited IL-6/sIL-6R-induced central sensitization. However, acute application of soluble gp130 alone did not reduce the neuronal responses to already established joint inflammation.

The transient receptor potential (TRP) channels are non-selective cation channels that act as integrators of various physiological and pathophysiological processes. In addition to thermosensation, chemosensation, and mechanosensation, TRP channels are involved in the modulation of pain and inflammation. For example, TRP vanilloid-1 (TRPV1) ion channels have been shown to contribute to joint inflammatory pain as thermal hyperalgesia was not evocable in TRPV1 mono arthritic mice [31]. Similarly, TRP ankyrin-1 (TRPA1)ion channels are involved in arthritic mechano hypersensitivity as blockade of the receptor with selective antagonists attenuated mechanical pain in the Freunds complete adjuvant model inflammation [32,33]. Further evidence thatTRPV1 may be involved in the neurotransmission of OA pain comes from studies in which neuronal TRPV1 expression is elevated in the sodium monoiodoacetate model of OA [34]. In addition, systemic administration of the TRPV1 antagonist A-889425 reduced the evoked and spontaneous activity of spinal-wide dynamic range and nociception-specific neurons in the monoiodoacetate model [35]. These data suggest that endovanilloids could be involved in central sensitization processes associated with OA pain.

There are currently known to be at least four polymorphisms in the gene that encodes TRPV1, leading to an alteration in the structure of the ion channel and impaired function. One particular polymorphism (rs8065080) alters the sensitivity of TRPV1 to capsaicin, and individuals carrying this polymorphism are less sensitive to thermal hyperalgesia [36]. A recent study examined whether OA patients with the rs8065080 polymorphism experienced altered pain perception based on this genetic anomaly. The research team found that patients with asymptomatic knee OA were more likely to carry the rs8065080 gene than patients with painful joints [37]. This observation indicates that OA patients with normal functioning; TRPV1 channels have an increased risk of joint pain and re-affirms the potential involvement of TRPV1 in OA pain perception.

Conclusion

While the hurdle of treating arthritis pain effectively remains, great leaps are being made in our understanding of the neurophysiological processes responsible for the generation of joint pain. New targets are being discovered continually, while the mechanisms behind known pathways are being further defined and refined. Targeting one specific receptor or ion channel is unlikely to be the solution to normalizing joint pain, but rather a polypharmacy approach is indicated in which various mediators are used in combination during specific phases of the disease. Unraveling the functional circuitry at each level of the pain pathway will also improve our knowledge of how joint pain is generated. For example, identifying the peripheral mediators of joint pain will allow us to control nociception within the joint and likely avoid the central side effects of systemically administered pharmacotherapeutics.

FACETOGENIC PAIN

FACET SYNDROME & FACETOGENIC PAIN
  • Facet syndrome is an articular disorder related to the lumbar facet joints and their innervations and produces both local and radiating facetogenic pain.
  • Excessive rotation, extension, or flexion of the spine (repeated overuse) can result in degenerative changes to the joint’s cartilage. In addition, itt may involve degenerative changes to other structures, including the intervertebral disc.

CERVICAL FACET SYNDROME & FACETOGENIC PAIN

  • Axial neck pain (rarely radiating past the shoulders), most common unilaterally.
  • Pain with and/or limitation of extension and rotation
  • Tenderness upon palpation
  • Radiating facetogenic pain locally or into the shoulders or upper back, and rarely radiate in the front or down an arm or into the fingers as a herniated disc might.

LUMBAR FACET SYNDROME & FACETOGENIC PAIN

  • Pain or tenderness in the lower back.
  • Local tenderness/stiffness alongside the spine in the lower back.
  • Pain, stiffness, or difficulty with certain movements (such as standing up straight or getting up from a chair.
  • Pain upon hyperextension
  • Referred pain from upper lumbar facet joints can extend into the flank, hip, and upper lateral thigh.
  • Referred pain from lower lumbar facet joints can penetrate deep into the thigh, laterally and/or posteriorly.
  • L4-L5 and L5-S1 facet joints can refer to pain extending into the distal lateral leg, and in rare instances, to the foot

EVIDENCE-BASED MEDICINE

Evidence-based Interventional Pain Medicine according to Clinical Diagnoses

12. Pain Originating from the Lumbar Facet Joints

Abstract

Although the existence of a facet syndrome had long been questioned, it is now generally accepted as a clinical entity. Depending on the diagnostic criteria, the zygapophysial joints account for between 5% and 15% of cases of chronic, axial low back pain. Most commonly, facetogenic pain results from repetitive stress and/or cumulative low-level trauma, leading to inflammation and stretching of the joint capsule. The most frequent complaint is axial low back pain with referred pain perceived in the flank, hip, and thigh. No physical examination findings are pathognomonic for diagnosis. The strongest indicator for lumbar facetogenic pain is pain reduction after anesthetic blocks of the rami mediales (medial branches) of the rami dorsales that innervate the facet joints. Because false-positive and, possibly, false-negative results may occur, results must be interpreted carefully. In patients with injection-confirmed zygapophysial joint pain, procedural interventions can be undertaken in the context of a multidisciplinary, multimodal treatment regimen that includes pharmacotherapy, physical therapy, and regular exercise, and, if indicated, psychotherapy. Currently, the gold standard for treating facetogenic pain is radiofrequency treatment (1 B+). The evidence supporting intra-articular corticosteroids is limited; hence, this should be reserved for those who do not respond to radiofrequency treatment (2 B1).

Facetogenic Pain emanating from the lumbar facet joints is a common cause of low back pain in the adult population. Goldthwaite was the first to describe the syndrome in 1911, and Ghormley is generally credited with coining the term �facet syndrome� in 1933. Facetogenic pain is defined as pain that arises from any structure that is part of the facet joints, including the fibrous capsule, synovial membrane, hyaline cartilage, and bone.35

More commonly, it is the result of repetitive stress and/or cumulative low-level trauma. This leads to inflammation, which can cause the facet joint to be filled with fluid and swell, resulting in stretching of the joint capsule and subsequent pain generation.27 Inflammatory changes around the facet joint can also irritate the spinal nerve via foraminal narrowing, resulting in sciatica. In addition, Igarashi et al.28 found that inflammatory cytokines released through the ventral joint capsule in patients with zygapophysial joint degeneration may be partially responsible for the neuropathic symptoms in individuals with spinal stenosis. Predisposing factors for zygapophysial joint pain include spondylolisthesis/lysis, degenerative disc disease, and advanced age.5

I.C ADDITIONAL TESTS

The prevalence rate of pathological changes in the facet joints on radiological examination depends on the mean age of the subjects, the radiological technique used, and the definition of abnormality. Degenerative facet joints can be best visualized via computed tomography (CT) examination.49

NEUROPATHIC PAIN

  • Pain initiated or caused by a primary lesion or dysfunction in the somatosensory nervous system.
  • Neuropathic pain is usually chronic, difficult to treat, and often resistant to standard analgesic management.
Abstract

Neuropathic pain is caused by a lesion or disease of the somatosensory system, including peripheral fibers (A?, A? and C fibers) and central neurons, and affects 7-10% of the general population. Multiple causes of neuropathic pain have been described. Its incidence is likely to increase due to the aging global population, increased diabetes mellitus, and improved survival from cancer after chemotherapy. Indeed, imbalances between excitatory and inhibitory somatosensory signaling, alterations in ion channels, and variability in how pain messages are modulated in the central nervous system all have been implicated in neuropathic pain. Furthermore, the burden of chronic neuropathic pain seems to be related to the complexity of neuropathic symptoms, poor outcomes, and difficult treatment decisions. Importantly, quality of life is impaired in patients with neuropathic pain due to increased drug prescriptions and visits to health care providers and the morbidity from the pain itself and the inciting disease. Despite challenges, progress in understanding the pathophysiology of neuropathic pain is spurring the development of new diagnostic procedures and personalized interventions, which emphasize the need for a multidisciplinary approach to the management of neuropathic pain.

PATHOGENESIS OF NEUROPATHIC PAIN

  • PERIPHERAL MECHANISMS
  • After a peripheral nerve lesion, neurons become more sensitive and develop abnormal excitability and elevated sensitivity to stimulation.
  • This is known as…Peripheral Sensitization!

Related Post
  • CENTRAL MECHANISMS
  • As a consequence of ongoing spontaneous activity in the periphery, neurons develop an increased background activity, enlarged receptive fields, and increased responses to afferent impulses, including normal tactile stimuli.
    This is known as…Central Sensitization!

Chronic neuropathic pain is more frequent in women (8% versus 5.7% in men) and in patients >50 years of age (8.9% versus 5.6% in those <49 years of age), and most commonly affects the lower back and lower limbs, neck and upper limbs24. Lumbar and cervical painful radiculopathies are probably the most frequent cause of chronic neuropathic pain. Consistent with these data, a survey of >12,000 patients with chronic pain with both nociceptive and neuropathic pain types, referred to pain specialists in Germany, revealed that 40% of all patients experienced at least some characteristics of neuropathic pain (such as burning sensations, numbness, and tingling); patients with chronic back pain and radiculopathy were particularly affected25.

The contribution of clinical neurophysiology to the comprehension of the tension-type headache mechanisms.

Abstract

So far, clinical neurophysiological studies on tension-type headache (TTH) have been conducted with two main purposes: (1) to establish whether some neurophysiological parameters may act as markers of TTH, and (2) to investigate the physiopathology of TTH. Regarding the first point, the present results are disappointing since some abnormalities found in TTH patients may also be frequently observed in migraineurs. On the other hand, clinical neurophysiology has played an important role in the debate about the pathogenesis of TTH. Studies on the exteroceptive suppression of the temporalis muscle contraction have detected a dysfunction of the brainstem excitability and suprasegmental control. A similar conclusion has been reached using trigeminocervical reflexes, whose abnormalities in TTH have suggested a reduced inhibitory activity of brainstem interneurons, reflecting abnormal endogenous pain control mechanisms. Interestingly, the neural excitability abnormality in TTH seems to be a generalized phenomenon, not limited to the cranial districts. Defective DNIC-like mechanisms have indeed been evidenced also in somatic districts by nociceptive flexion reflex studies. Unfortunately, most neurophysiological studies on TTH are marred by serious methodological flaws, which should be avoided in future research to clarify the TTH mechanisms better.

References:

Neurophysiology of arthritis pain. McDougall JJ1 Linton P.

https://www.researchgate.net/publication/232231610_Neurophysiology_of_Arthritis_Pain

Pain originating from the lumbar facet joints. van Kleef M1,Vanelderen P,Cohen SP,Lataster A,Van Zundert J,Mekhail N.

Neuropathic painLuana Colloca,1Taylor Ludman,1Didier Bouhassira,2Ralf Baron,3Anthony H. Dickenson,4David Yarnitsky,5Roy Freeman,6Andrea Truini,7Nadine Attal, Nanna B. Finnerup,9Christopher Eccleston,10,11Eija Kalso,12David L. Bennett,13Robert H. Dworkin,14and Srinivasa N. Raja15

The contribution of clinical neurophysiology to the comprehension of the tension-type headache mechanisms. Rossi P1, Vollono C, Valeriani M, Sandrini G.

Post Disclaimer & Professional Scope of Practice *

The information herein on "Facetogenic Pain, Headaches, Neuropathic Pain And Osteoarthritis" is not intended to replace a one-on-one relationship with a qualified health care professional, licensed physician, and is not medical advice. We encourage you to make your own health care decisions based on your research and partnership with a qualified health care professional.

Our information scope is limited to chiropractic, musculoskeletal, physical medicines, wellness, sensitive health issues, functional medicine articles, topics, and discussions. We provide and present clinical collaboration with specialists from a wide array of disciplines. Each specialist is governed by their professional scope of practice and their jurisdiction of licensure. We use functional health & wellness protocols to treat and support care for the injuries or disorders of the musculoskeletal system.

Our videos, posts, topics, subjects, and insights cover clinical matters, issues, and topics that relate to and support, directly or indirectly, our clinical scope of practice.*

Our office has made a reasonable attempt to provide supportive citations and has identified the relevant research study or studies supporting our posts. We provide copies of supporting research studies available to regulatory boards and the public upon request.

We understand that we cover matters that require an additional explanation of how it may assist in a particular care plan or treatment protocol; therefore, to further discuss the subject matter above, please feel free to ask Dr. Alex Jimenez or contact us at 915-850-0900.

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Blessings

Dr. Alex Jimenez DC, MSACP, CCST, IFMCP*, CIFM*, ATN*

email: coach@elpasofunctionalmedicine.com

Licensed in: Texas & New Mexico*

Dr Alex Jimenez

Welcome-Bienvenido's to our blog. We focus on treating severe spinal disabilities and injuries. We also treat Sciatica, Neck and Back Pain, Whiplash, Headaches, Knee Injuries, Sports Injuries, Dizziness, Poor Sleep, Arthritis. We use advanced proven therapies focused on optimal mobility, health, fitness, and structural conditioning. We use Individualized Diet Plans, Specialized Chiropractic Techniques, Mobility-Agility Training, Adapted Cross-Fit Protocols, and the "PUSH System" to treat patients suffering from various injuries and health problems. If you would like to learn more about a Doctor of Chiropractic who uses advanced progressive techniques to facilitate complete physical health, please connect with me. We focus on simplicity to help restore mobility and recovery. I'd love to see you. Connect!

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