Back Clinic Research Studies. Dr. Alex Jimenez has compiled study and research projects that are pertinent to the science and art of chiropractic medicine. The subsets can be classified as following: Case Study, Case Series, Cross-Sectional, Cohort, Case-Control, and Randomized Control Trials. Each subset of study profiles has its merits and scientific significance.
It is our intention to bring clarity to present-day research models. We will discuss and present significant clinical interpretations that may serve outpatients well. Great care in selecting appropriate and well-documented models has been enforced in our blog. We gladly will listen and heed comments on the discussed subject matters presented. For answers to any questions you may have please call Dr. Jimenez at 915-850-0900
El Paso, TX. Chiropractor Dr. Alexander Jimenez presents an introduction to the cerebellum. The brain is a complex structure that has billions of nerve cells. The basic anatomy is easily understandable. But there is one part of the brain, the cerebellum, which is involved in virtually all movement. This is the part of the brain that helps a person drive, throw a ball, or walk across the street.
Problems with the cerebellum are uncommon and mostly involve movement and coordination difficulties. This article will give an overview of the anatomy, purpose, and disorders of the cerebellum, as well as, how to keep the brain healthy.
FAGIOLINI ET AL. EPIGENETIC INFLUENCES ON BRAIN DEVELOPMENT AND PLASTICITY CURR OPIN NEUROBIOL, 2009
�Enhancing plasticity in the adult brain is an exciting prospect and there is certainly evidence emerging that suggest the possible use of epigenetic factors to induce a �younger� brain.�
�Recent findings support a key role of epigenetic factors in mediating the effects of sensory experience on site-specific gene expression, synaptic transmission, and behavioral phenotypes.�
TAYLOR ET AL. CUTTING YOUR NERVE CHANGES YOUR BRAIN BRAIN, 2009
�Animal studies have established that plasticity within the somatosensory cortex begins immediately following peripheral nerve transection, and that 1 year after complete nerve transection and surgical repair, cortical maps contain patchy, noncontinuous representations of the transected and adjacent nerves.�
�Here, we have demonstrated for the first time that there is functional plasticity and both grey and white matter structural abnormalities in several cortical areas following upper limb peripheral nerve transection and surgical repair.�
THE CEREBELLUM
IMPORTANT FUNCTIONAL AREAS OF THE CEREBELLUM
Spinocerebellum
Vestibulocerebellum
Cerebrocerebellum
SPINOCEREBELLUM
Responsibilities:
Regulation of muscle tone for posture and locomotion
Example: piano playing, finger taping, finger to nose, etc.
TAYLOR ET AL. CUTTING YOUR NERVE CHANGES YOUR BRAIN BRAIN, 2009
�Animal studies have established that plasticity within the somatosensory cortex begins immediately following peripheral nerve transection, and that 1 year after complete nerve transection and surgical repair, cortical maps contain patchy, noncontinuous representations of the transected and adjacent nerves.�
�Here, we have demonstrated for the first time that there is functional plasticity and both grey and white matter structural abnormalities in several cortical areas following upper limb peripheral nerve transection and surgical repair.�
Benign paroxysmal positional vertigo is a common type of vertigo, a sensation of spinning or whirling and loss of balance, which has been reported to account for as many as 17 percent of all cases of dizziness. Benign paroxysmal positional vertigo, or BPPV, is believed to be caused by a health issue in the inner ear. While it is typically associated with aging, head injuries have also been found to cause BPPV.
BPPV occurs when several of the small crystals found in the inner ear, known as otoconia, become loose and wind up in one or more of the three fluid-filled semicircular canals of the ear. Whenever these crystals move around the inner ear, they can cause the fluid in the semicircular canals to become displaced. This ultimately results in a spinning or whirling sensation, otherwise referred to as vertigo. The symptoms of BPPV can often come on suddenly when an individual with benign paroxysmal positional vertigo moves their head in a certain position. By way of instance, symptoms may trigger when turning over in bed during night time. Symptoms of BPPV can last anywhere from several seconds to several minutes, and may include:
Dizziness;
A feeling that surroundings are spinning or moving (vertigo);
A loss of equilibrium or balance;
Nausea; and
Vomiting.
BPPV Treatment
Although many healthcare professionals often prescribe drugs and/or medications for BPPV, there is not enough evidence to support their use as treatment for this condition. In other, very rare cases, surgical interventions are considered. However, in the majority of instances, BPPV can safely and effectively be adjusted mechanically.
Once a healthcare professional specializing in vestibular disorders, such as a vestibular rehabilitation therapist, a chiropractor, a specially trained physical therapist, an occupational therapist or audiologist, or an ENT (ear, nose & throat specialist who specializes on vestibular disorders), has properly diagnosed the individual’s type of benign paroxysmal positional vertigo by performing tests like the Dix-Hallpike Test, then they’ll have the ability to understand which of the semicircular canal(s) the crystals are in, and whether it is canalithiasis, where the loose crystals can move freely in the fluid of the tube, or cupulolithiasis, where the crystals are believed to be ‘hung up’ on the bundle of nerves that feel the fluid motion, then they can recommend you the appropriate therapy maneuver.
Other Auditory & Vestibular Function Tests
The Dix-Hallpike Test is commonly used to diagnose BPPV, however, if the diagnosis is negative, healthcare professionals may utilize a variety of other auditory and vestibular function tests in order to properly diagnose the patient’s source of their symptoms.
The most common treatment for benign paroxysmal positional vertigo, or BPPV, is called the Epley maneuver. The Epley maneuver, sometimes referred to as canalith repositioning, is a procedure which involves a succession of head movements, normally performed by a healthcare professional who is qualified and experienced in the treatment of vestibular disorders, in order to relieve the symptoms associated with BPPV.
Research studies have demonstrated that the Epley maneuver is a safe and effective treatment for the condition, offering both immediate and long-term relief. The Epley maneuver, named after Dr. John Epley, has been named the canalith repositioning maneuver because it�helps reposition the small crystals in a individual’s ear, which may be causing the sensation of dizziness. Repositioning these small crystals, also known as otoconia, ultimately helps to relieve BPPV symptoms.
The Epley maneuver is performed by placing the patient’s head at an angle from where gravity can help alleviate the symptoms. Tilting the head can move the crystals from the semicircular canals of the inner ear. This means that they will stop displacing the fluid, relieving the dizziness and nausea they may have been causing. In this way, the Epley maneuver alleviates the symptoms of BPPV. But, it may need to be repeated more than once, as occasionally, some head movements can once again displace the small crystals of the inner ear, once they had already been repositions after the initial treatment.
When a healthcare professional carries out the Epley maneuver, they’ll perform the following measures:
Ask the patient to sit upright in an examination table, completely extending their legs out in front of them.
Rotate the patient’s head in a 45-degree angle to the side they’re experiencing the worst vertigo.
Instantly push the patient back, so they are lying with their shoulders touching the table. The patient’s head is retained facing the side most negatively affected by vertigo but at a 30-degree angle, so that it is lifted slightly off the table. The healthcare professional holds the patient in this position for between 30 seconds and two minutes, until their symptoms stop.
Rotate the patient’s head 90 degrees from the opposite direction, stopping when the other ear is 30 degrees away from the table. Again, the doctor holds the patient in this position for between 30 minutes and two minutes, until their symptoms cease.
Next, the healthcare professional will roll the patient in precisely the same direction that they are facing, onto their side. The moment they encounter the worst vertigo on will be facing upward. The physician holds the patient in this position for between 30 minutes and 2 minutes, until their symptoms stop.
Eventually, the healthcare professional will bring the patient back up into a sitting position.
The whole process is repeated up to three times, until the patients’s symptoms have been completely relieved.
A healthcare professional specializing in vestibular disorders, such as a chiropractor or physical therapist, will utilize the Epley maneuver to help alleviate an individual’s dizziness and nausea, among other symptoms, when they have decided that BPPV is the cause. As mentioned before, the Epley maneuver isn’t suitable to treat vertigo brought on by another health issue aside from BPPV. If the individual is unsure of what is causing their vertigo, they ought to talk to a doctor and ask to be properly diagnosed. Other causes of vertigo may include:
Migraine headaches
Ear infections
Anemia
Cerebellar stroke
After performing the Epley maneuver, a doctor will advise the patient who has BPPV to prevent specific movements that may dislodge the crystals. These movements include:
Bending quickly
Lying down fast
Leaning the head
Moving the head back and forth
Many research studies have been done on the safety and effectiveness of therapy maneuvers for BPPV, such as the Epley maneuver, together with results and outcome measures demonstrating that the rates of recovery are well into the 90 percent range by 1 to 3 treatments. The more infrequent cupulolithiasis, or ‘hung-up’ version of BPPV, can be a little more stubborn to resolve, as this type of BPPV is generally the consequence of trauma or injury.
Dr. Alex Jimenez’s Insight
If you’ve ever experienced a sudden spinning or whirling sensation, dizziness and nausea when you make certain head movements, especially while rolling over in bed at night or when getting out of bed in the morning, you may be suffering from a common condition called benign paroxysmal positional vertigo, or BPPV. This type of vertigo can be frustrating to deal with and it can tremendously affect an individual’s quality of life. A healthcare professional who specializes in vestibular disorders, including chiropractors and physical therapists, frequently diagnose BPPV using the Dix-Hallpike Test before following up treatment for benign paroxysmal positional vertigo using the Epley maneuver.
Benign Paroxysmal Positional Vertigo, or BPPV, is a frequent health issue, and will be encountered more and more as our population ages. The effect can vary from a mild annoyance to a highly debilitating condition, and can affect function and safety as well as increase the risk of falls. Fortunately, symptoms tend to decrease in intensity over time as the brain gradually adjusts to the strange signals it is receiving, or as the condition resolves on its own. However, with a healthcare professional who’s suitably qualified and experienced in the diagnosis and treatment of BPPV, most patients will find overall relief of their problem once it readily corrected and their world stops spinning or whirling. The scope of our information is limited to chiropractic as well as to spinal injuries and conditions. To discuss the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Curated by Dr. Alex Jimenez
Additional Topics: Sciatica
Sciatica is medically referred to as a collection of symptoms, rather than a single injury and/or condition. Symptoms of sciatic nerve pain, or sciatica, can vary in frequency and intensity, however, it is most commonly described as a sudden, sharp (knife-like) or electrical pain that radiates from the low back down the buttocks, hips, thighs and legs into the foot. Other symptoms of sciatica may include, tingling or burning sensations, numbness and weakness along the length of the sciatic nerve. Sciatica most frequently affects individuals between the ages of 30 and 50 years. It may often develop as a result of the degeneration of the spine due to age, however, the compression and irritation of the sciatic nerve caused by a bulging or herniated disc, among other spinal health issues, may also cause sciatic nerve pain.
Skateboarding: Javier Mata has entrusted Dr. Alex Jimenez for many years now, receiving trustworthy chiropractic care after experiencing several low back pain injuries throughout his life. Javier Mata first considered the non-surgical treatment choice following his own father’s recommendation to seek chiropractic care after he himself received treatment with Dr. Alex Jimenez. Javier Mata has found tremendous relief through spinal adjustments and manual manipulations and he highly recommends chiropractic care with Dr. Alex Jimenez.
Skateboarding Injury Treatment
Skateboarding is a popular recreational activity among children and teenagers. Although it is an enjoyable and exciting activity, skateboarding carries with it a serious risk for injury. Roughly 70,000 injuries requiring a trip to the emergency department occur each year. There are many things that parents and children can do to help prevent skateboarding injuries, such as carefully selecting safe places to ride and wearing protective gear, especially helmets. Many accidents happen when a child loses balance, falls off the skateboard and lands on an outstretched arm. Skateboarding accidents often involve the wrist, ankle, or face and sprains or strains may occur.
We are blessed to present to you�El Paso�s Premier Wellness & Injury Care Clinic.
As El Paso�s Chiropractic Rehabilitation Clinic & Integrated Medicine Center,�we passionately are focused treating patients after frustrating injuries and chronic pain syndromes. We focus on improving your ability through flexibility, mobility and agility programs tailored for all age groups and disabilities.
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Benign Paroxysmal Positional Vertigo, or BPPV, is the most common vestibular disorder and it is by far the most common cause of vertigo, a false sensation of rotational movement or spinning. BPPV isn’t life-threatening, it can come in unexpectedly in brief spells and it can trigger with certain head positions or motions. This might frequently occur when you tip your head down or up, when you lie down, or when you flip over or sit up in bed.
BPPV is a mechanical problem in the inner ear. It occurs when some of the calcium carbonate crystals, known as otoconia, that are typically embedded in gel at the utricle, become dislodged and migrate into at least one of the 3 fluid-filled semicircular canals, in which they are not supposed to be. When enough of these particles collect among the canals, they interfere with the fluid movement that these canals use to sense head motion, causing the internal ear to send false signals to the brain.
Fluid from the canals does not normally respond to gravity. On the other hand, the crystals do interact with gravity, thereby shifting the fluid when it normally would remain still. After the fluid moves, nerve endings in the canal are triggered and send a message to the brain that the head is moving, even though it is not. This false information does not match what the other ear may be sensing, together with what the eyes are seeing, or using what the muscles and joints do, and this mismatched information is sensed by the brain as a spinning sensation, or vertigo, which normally lasts less than one minute. Between vertigo spells some people may feel symptom-free, while others feel a mild sense of imbalance or disequilibrium.
Symptoms of BPPV
The signs and symptoms of benign paroxysmal positional vertigo, or BPPV, may include:
Dizziness
A feeling that you or your surroundings are spinning or moving (vertigo)
A loss of equilibrium or balance
Nausea
Vomiting
The signs and symptoms of BPPV can come and go, with these generally lasting less than one minute. Episodes of benign paroxysmal positional vertigo can disappear for a while and then return. Activities that cause the signs and symptoms of BPPV may vary from person to person, but are nearly always brought on by a change in the placement of the head. Some people also feel out of balance when standing or walking. Abnormal rhythmic eye movements, known as nystagmus, usually follow the outward signs of benign paroxysmal positional vertigo, or BPPV.
It’s essential, however, to understand that BPPV will not give you continuous dizziness that is unaffected by motion or even a change in position. Also, it will not affect your hearing or produce fainting, headache or neurological signs, such as numbness, a sensation of “pins and needles,” difficulty speaking or difficulty coordinating your movements. If you have one or more of these additional symptoms, tell a healthcare professional immediately. Other disorders could be originally misdiagnosed as BPPV. By alerting a healthcare professional about any signs and symptoms you may be experiencing along with vertigo, they could reevaluate your illness and think about whether you might have another kind of disorder, instead of or in addition to BPPV.
BPPV is rather common, with an estimated prevalence of 107 per 100,000 annually plus a lifetime prevalence of 2.4 percent. It is thought to be quite rare in children but can affect adults of any age, particularly seniors. The wide majority of cases happen for no apparent reason, with many individuals describing how they simply went to get out of bed and the room began to spin. Nevertheless, associations have been made with injury, migraine headaches, inner ear infection or disease, diabetes, osteoporosis, intubation, presumably due to protracted time lying in bed, and reduced blood flow. There might also be a correlation with a person’s favorite sleeping side.
Diagnosis for BPPV
General practitioners normally refer patients to a healthcare professional specifically trained to take care of vestibular disorders, most commonly a vestibular rehabilitation therapist, such as a chiropractor, a specially trained physical therapist, or sometimes an occupational therapist or audiologist. An ENT (ear, nose & throat specialist) who specializes on vestibular disorders can also diagnose BPPV.
Normal medical imaging (e.g. an MRI) isn’t effective in diagnosing BPPV, because it doesn’t show the crystals that have moved to the semi-circular canals. However, when someone with BPPV has their own head moved into a position that makes the dislodged crystals go within a canal, the error signals have been known to cause the eyes to move in a very specific pattern, known as “nystagmus”.
The association between the internal ears and the eye muscles are what generally permit us to remain focused on our environment while the head is moving. Since the dislodged crystals make the brain think a person is moving when they are not, it causes the eyes to move, making it seem like the room is spinning. The eye movement is the indication that something is happening automatically in order to move the fluid in the inner ear canals when it shouldn’t be.
The nystagmus will have different characteristics that allow a healthcare professional to recognize which ear the displaced crystals are inside, as well as which canal(s) they have moved into. Evaluations like the Dix-Hallpike test involves moving the head into specific orientations, allowing gravity to move the dislodged crystals and activate the vertigo while the healthcare professional watches for the recognizable eye movements, or nystagmus.
Dix-Hallpike Test for BPPV
Healthcare professionals, such as chiropractors specializing in vestibular diseases, typically utilize the Dix-Hallpike test, sometimes called the Dix-Hallpike maneuver, to test for benign paroxysmal positional vertigo, or BPPV. To execute the Dix-Hallpike test, your doctor will ask you to sit on the test table with your legs stretched out. He’ll turn your head 45 degrees to one side, which contrasts the right posterior semicircular canal with the sagittal plane of the body, then they are going to allow you to lie back quickly, while the eyes are open, so that your head hangs slightly over the edge of the desk.
This motion may cause the loose crystals to move inside your semicircular canals. The healthcare professional will ask if you are feeling symptoms of vertigo and observe your eyes to find out how they move. As soon as you’ve got a few minutes to recover, your doctor may do the test on the opposite side of your head.
The latency, length and direction of nystagmus, if present, along with the latency and duration of vertigo, if present, should be noted. If the test is negative, it will demonstrate that�benign paroxysmal positional vertigo is a less probable diagnosis and central nervous system involvement ought to be considered. There are two sorts of BPPV: One at which loose crystals can move freely in the fluid of the canal (canalithiasis), and, more infrequently, one where the crystals are believed to be ‘wrapped up’ on the bundle of nerves that feel the fluid motion, or cupulolithiasis.
With canalithiasis, it requires less than a moment for those crystals to stop moving after a particular change in head position has triggered a twist. Once the crystals quit shifting, the fluid motion settles and the nystagmus and vertigo cease. With cupulolithiasis, the crystals trapped on the package of sensory nerves will make the nystagmus and vertigo last longer, until the head is moved out of the offending position. It is necessary to make the proper diagnosis, since the treatment is different for every variant. BPPV can be treated using various treatment methods, one of the most common being the Epley Maneuver.
Dr. Alex Jimenez’s Insight
Chiropractic care is an alternative treatment option commonly utilized to help treat a variety of injuries and conditions associated with the proper alignment of the spine. Occasionally, a spinal misalignment, or subluxation, can develop into numerous health issues, causing a wide array of symptoms if left untreated for an extended period of time. However, many chiropractors can treat many other ailments not closely associated with the spine. In a clinical setting, chiropractic care has been used for the management of benign paroxysmal positional vertigo, or BPPV. Chiropractors will utilize the Dix-Hallpike test to diagnose a patient followed by the Epley maneuver to help treat patients with BPPV. Many patients have reported a reduction in symptoms.
The scope of our information is limited to chiropractic as well as to spinal injuries and conditions. To discuss the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Curated by Dr. Alex Jimenez
Additional Topics: Sciatica
Sciatica is medically referred to as a collection of symptoms, rather than a single injury and/or condition. Symptoms of sciatic nerve pain, or sciatica, can vary in frequency and intensity, however, it is most commonly described as a sudden, sharp (knife-like) or electrical pain that radiates from the low back down the buttocks, hips, thighs and legs into the foot. Other symptoms of sciatica may include, tingling or burning sensations, numbness and weakness along the length of the sciatic nerve. Sciatica most frequently affects individuals between the ages of 30 and 50 years. It may often develop as a result of the degeneration of the spine due to age, however, the compression and irritation of the sciatic nerve caused by a bulging or herniated disc, among other spinal health issues, may also cause sciatic nerve pain.
Neuropathy Presentation II:�El Paso, TX. Chiropractor, Dr. Alexander Jimenez�continues the overview with neuropathy part II. Continued are the most common neuropathies to be seen in practice. Because the human body is composed of many different kinds of nerves which perform different functions, nerve damage is classified into several types. Neuropathy can also be classified according to the location of the nerves being affected and according to the disease causing it. For instance, neuropathy caused by diabetes is called diabetic neuropathy. Furthermore, depending on which nerves are affected will depend on the symptoms that will manifest. The complications which follow neuropathy depends on the type of nerves that are damaged. According to Dr. Jimenez, different neuropathies can cause numbness and/or tingling sensations, increased pain or the loss of ability to feel pain, muscle weakness along with twitching and cramps, even dizziness and/or loss of bladder control function.
Sciatic Nerve Entrapment
Piriformis Syndrome
Peroneal Nerve Entrapment
Tarsal Tunnel Syndrome
Sciatic N. Piriformis Syndrome
Causes
Anatomic variation
Piriformis overuse/tension
Exam
Positive Lase?gue test possible
Doctor extends patient�s leg passively, while patient is lying supine positive test if maneuver is limited by pain
Tenderness and palpable tension in piriformis muscle which elicits symptoms
Sciatic N. Peroneal Nerve Entrapment
Peroneal or Fibular branch of Sciatic nerve entrapped at the fibular head
Tinel�s sign may be present at fibular head/neck
Usually affects common peroneal nerve, therefore motor and sensory symptoms can be seen
Weakness of ankle dorsiflexion and eversion (tibialis anterior m.)
Sensory disruption on the dorsum of the foot and lateral aspect of the calf
Sciatic N. Tarsal Tunnel Syndrome
Tibial nerve impinged in the tarsal tunnel
Sensory changes in the sole of the foot
Tinel�s sign may be present with percussion posterior to the medial malleolus
Radiculopathy
A mononeuropathy � located in one specific area
Neuropathy involving spinal nerve roots
Presents as changes in sensory and/or motor function affecting a single or a few nerve root level(s)
Nerve sheath tumors (schwannomas and neurofibromas)
Guillain-Barre? syndrome
Herpes Zoster (shingles)
Lyme disease
Cytomegalovirus
Myxedema/Thyroid disorder
Idiopathic neuritis
Narrowing Down Common Causes Of Radiculopathy
Disc Herniation
Most commonly affected nerve roots are C6, C7, L5 & S1
Spinal Stenosis
Lumbar stenosis may produce neurogenic claudication
Pain & weakness with ambulation
Cervical stenosis may present with mixed picture of radiculopathy and myelopathy due to long tract involvement
Trauma
May cause compression, trauma or avulsion of the nerve roots
Diabetes
More likely to cause a polyneuropathy, but mononeuropathy is possible
Herpes Zoster (Shingles)
Most often on the trunk, accompanied by vesicular lesions in a single dermatome
If pain persits past vesicular regression = post-herpetic neuralgia
Patient History Of Radiculopathy
The patient will often complain of burning pain or tingling that radiates or shoots down an affected area in a dermatomal pattern.
Sometimes patient will complain of motor weakness, however if onset is recent, there is often no motor involvement
Exam Of Radiculopathy
Most often hypoesthesia in the affected dermatome level
Best to evaluate for pain, as light touch can be difficult for these patient�s to distinguish
Fasciculations and/or atrophy may be seen if radiculopathy is chronic, due to lower motor neuron being impinged
Motor weakness may be seen in muscles innervated by the same root level
Orthopedic tests:
Straight-leg raise test (SLR)
Pain between 10-60 degrees likely indicates nerve root compression
Well-leg raise/Crossed straight-leg raise test (WLR)
If positive, 90% specificity for L/S nerve root compression
Valsalva Maneuver
Positive if increase in radicular symptoms
Spinal Percussion
Pain may indicate metastatic disease, abscess or osteomyelitis
Examinations: Merck Manual Professional
How To Test Reflexes
How To Do A Sensory Exam
How To Do A Motor Examination
Dermatomes
Testing Cervical Nerve Roots
Testing Lumbosacral Nerve Roots
Specific Radiculopathy Patterns
T1 radiculopathy can cause Horner�s syndrome
This is due to affect on cervical sympathetic ganglia
Ptosis, miosis, anhidrosis
Below L1, radiculopathies can cause Cauda Equina syndrome
Saddle anesthesia (sensory loss in S2-S5 distribution)
Urinary retention or overflow incontinence
Constipation, decreased rectal tone or fecal incontinence
Loss of erectile function
Must be referred for emergency care immediately to prevent permanent dysfunction
Other Patterns Of Neuropathy
Cape/Shawl distribution of symptoms
Intramedullary lesion
Syringomyelia
Intramedullary tumor
Central cord damage
Stocking and Glove Distribution of Symptoms
Diabetes mellitus
B12 deficiency
Alcoholism/hepatitis
HIV
Thyroid dysfunction/myxedema
Cape/Shawl Pattern
Intramedullary lesion such as tumor, syringomyelia or hyperextension injury in patient with C/S spondylosis
Loss of pain and temp sensation in C/T dermatomes because of arrangement of lateral spinothalamic tract
Stocking & Glove Pattern
Symmetrical polyneuropathy
Feet/legs usually affected first, followed by hands/arms
Vibration sensation in the smallest toes is usually the first thing lost and neuropathy progresses across foot to great toe and then upward through the ankle and leg, then hands, arms and finally trunk if sever
Most likely cause of this distribution is diabetes mellitus, but other possible causes include B12 deficiency, alcoholism, HIV, chemotherapy treatment, thyroid dysfunction and multiple other causes
Diabetic Neuropathy
Diabetic neuropathy often presents as a polyneuropathy but can also present as a mononeuropathy, usually with acute onset
Neuropathy Presentation: El Paso, TX. Chiropractor, Dr. Alexander Jimenez�presents an overview of neuropathy. These are the most common neuropathies to be seen in practice.�Neuropathy is a medical term used to characterize damage or injury to the nerves, which refers to the peripheral nerves as opposed to the central nervous system. The complications which follow neuropathy depends largely on the type of nerves that are affected. According to Dr. Alex Jimenez, different neuropathies can cause numbness and tingling sensations, increased pain or the loss of ability to feel pain, muscle weakness along with twitching and cramps, even dizziness and/or loss of control over bladder function.
Neuropathy
Three primary classifications based on location of symptoms:
If sensory disruption is limited to certain modalities, it implies CNS is involved
If all sensation is affected in the area, implies PNS is involved
Determine Pattern Of Symptoms
Mononeuropathy (focal)?
Mononeuropathy multiplex (multifocal)?
Polyneuropathy (generalized)?
Motor Exam
Determine if there is change to muscle strength
Determine if there is a change in muscle tone
Determine which muscles are affected
Determine if there has been a change in reflexes
This information can help determine the level(s) of involvement
Check For Autonomic�Signs
Auscultate heart
Palpate palms
Auscultate abdomen
Assess autonomic history
For example, is patient complaining about sweating more on one side than another? Complaining of stress levels?
Suggest ANS involvement
Exams: Merck Manual Professional Version
How To Test Reflexes
How To Do The Sensory Exam
How To Do The Motor Examination
Classification Of Nerve Injuries Resulting In Neuropathy
Neurapraxia – This is a transient episode of motor paralysis with little or no sensory or autonomic dysfunction; no disruption of the nerve or its sheath occurs; with removal of the compressing force, recovery should be complete
Axonotmesis – This is a more severe nerve injury, in which the axon is disrupted but the Schwann sheath is maintained; motor, sensory, and autonomic paralysis results; recovery can occur if the compressing force is removed in a timely fashion and if the axon regenerates
Neurotmesis – This is the most serious injury, in which both the nerve and its sheath are disrupted; although recovery may occur, it is always incomplete, secondary to loss of nerve continuity
Brachial Plexopathies
Erb�s Palsy
Klumke�s Palsy
Erb�s Palsy
AKA Erb�Duchenne palsy or Waiter’s tip palsy
Most common mechanism of injury in adults is a patient who fall forward while holding onto something behind them
Can also happen to an infant during childbirth ? Results from damage to C5-6 nerve roots in the brachial plexus
Dermatomal distribution of sensory disruption
Weakness or paralysis in deltoid, biceps, and brachialis muscles resulting in �waiter�s tip� position
Klumke�s Palsy
AKA Dejerine�Klumpke palsy
Happens to infants during childbirth if arm is pulled overhead
Can also happen to adults with overhead traction injuries
Results from damage to C8-T1 nerve roots in the brachial plexus
Dermatomal distribution of sensory disruption
Weakness or paralysis in wrist flexors and pronators as well as muscles of the hand
May produce Horner�s syndrome due to T1 involvement
Results in a �claw hand� appearance
Forearm supinated with wrist hyperextended, with finger flexion
Neuropathy is a medical term used to describe a collection of general diseases or malfunctions which affect the nerves. The causes of neuropathy, or nerve damage, can vary greatly among each individual and these may be caused by a number of different diseases, injuries, infections and even vitamin deficiency states. However, neuropathy can most commonly affect the nerves that control the motor and sensory nerves. Because the human body is composed of many different kinds of nerves which perform different functions, nerve damage is classified into several types. Neuropathy can also be classified according to the location of the nerves being affected and according to the disease causing it. For instance, neuropathy caused by diabetes is called diabetic neuropathy. Furthermore, depending on which nerves are affected will depend on the symptoms that will manifest as a result. Below we will discuss several specific types of neuropathies clinically treated by chiropractors, physical therapists and physical medicine doctors alike, as well as briefly describing their causes and their symptoms.
Brachial Plexopathies
Brachial plexopathy is a type of peripheral neuropathy, which affects the nerves that transmit messages from the brain and the spinal cord to the rest of the body. This kind of nerve damage occurs when harm affects the brachial plexus, a region found on each side of the neck where nerve roots from the spinal cord branch out into each arm’s nerves. Damage, injury or a condition that impacts these nerve roots can result in pain, decreased mobility and reduced sensation in the arm and shoulder. In some cases, no cause can be identified.
Erb’s Palsy
Erb’s Palsy, also known as�Erb�Duchenne palsy or Waiter’s tip palsy, is identified as a paralysis of the arm caused by damage or injury to the nerves in the neck which form part of the brachial plexus. The most common mechanism of injury in adults with Erb’s Palsy is a patient who fell forward while holding onto something behind them. Erb�Duchenne palsy can also happen to an infant during childbirth, most commonly, but not exclusively, from shoulder dystocia during a difficult birth. To be more precise, this type of brachial plexopathy results from damage to the C5-C6 nerve roots along the brachial plexus in the neck. Symptoms of Erb’s Palsy include dermatomal distribution of sensory disruption followed by weakness or paralysis in the deltoid, biceps, and brachialis muscles, leading to the �waiter�s tip� position associated with this type of neuropathy. While many infants can recover on their own from this type of brachial plexopathy, some may require rehabilitation.
Klumpke’s Palsy
Klumpke’s Palsy, also known as Klumpke’s paralysis or�Dejerine�Klumpke palsy, is a partial palsy in the nerve roots of the brachial plexus located along the cervical spine, or neck. It is named after�Augusta D�jerine-Klumpke, an American-born French medical doctor acknowledged for her work in neuroanatomy. Klumpke’s Palsy is characterized as a form of paralysis involving the muscles of the forearm and hand, which occurs to�infants during childbirth if their arm is pulled overhead.�Dejerine�Klumpke palsy can also occur to adults with overhead traction injuries caused by harm to the C8-T1 nerve roots in the brachial plexus and upper thoracic region of the spine. Symptoms of Klumpke’s paralysis include dermatomal distribution of sensory disruption, weakness or paralysis, in the wrist flexors and pronators as well as in the muscles of the hand. This type of brachial plexopathy may often lead to Horner�s syndrome, a collection of symptoms which manifest when a set of nerves, known as the sympathetic trunk, are damaged or injured due to T1 involvement. This form of neuropathy is identified by resulting�in a �claw hand� appearance, where the forearm is supinated with the wrist hyperextended, together with finger flexion.
Entrapment Neuropathies
Entrapment neuropathy, also known as nerve compression syndrome or compression neuropathy, is best-known as nerve damage or a type of neuropathy caused by direct pressure on a nerve. Common symptoms include pain and discomfort, tingling or burning sensations, numbness and muscle weakness which affects only a particular part of the human body, depending on which nerve is affected. A nerve can become compressed as a result of a constant external force or due to a lesion, such as a tumor. Additionally, some conditions can make the nerves more susceptible to compression, including diabetes, where the nerves are rendered more sensitive to minor degrees of compression due to their already compromised supply of blood. Nerve damage caused by a single episode of harm can be considered an entrapment neuropathy, however, it is generally not classified under this group of compression neuropathy or nerve compression syndrome.
Thoracic Outlet Syndromes
Thoracic outlet syndromes are a group of disorders which develop when the nerves or blood vessels between the collarbone and the thoracic outlet, located in the region of the first rib, are compressed. As a result, this can cause pain and discomfort in the neck and shoulders as well as numbness in the fingers. There are a number of types of thoracic outlet syndromes, including neurogenic, or neurological, thoracic outlet syndrome, specifically caused by the compression of the brachial plexus, vascular thoracic outlet syndrome, which is caused specifically by the compression of the veins, known as venous thoracic outlet syndrome, or arteries, known as arterial thoracic outlet syndrome, and nonspecific-type thoracic outlet syndrome, which is considered to be idiopathic and has been described to worsen with activity. Several healthcare professionals believe that nonspecific-type thoracic outlet syndrome doesn’t exist, while others claim it to be a common disorders. However, the majority of thoracic outlet syndromes are often classified as neurogenic.
Thoracic outlet syndromes are caused by the compression of the cervical rib, an extra “rib” in the seventh cervical vertebra, subclavius muscle tension, improper posture or�excessive thoracic kyphosis, physical trauma, repetitive activity, obesity and pregnancy. Thoracic outlet syndromes can vary depending on which structures are compressed. Thoracic outlet syndromes can be diagnosed using tests, such as the Adsons test, the Allen maneuver, the Costoclavicular maneuver, the Halstead maneuver, the�Reverse bakody maneuver, the Roos test, the Shoulder compression test and the Wright test. Thoracic outlet syndromes can cause permanent neurological damage if not diagnosed and treated early.
Median Nerve Entrapment
Median nerve entrapment or median nerve entrapment syndrome, is a mononeuropathy, a condition that impacts only a single nerve or nerve group outside the brain and spinal cord, which affects the movement of or sensation in the hand. Median nerve entrapment is caused by the compression of the median nerve found in the elbow or distally in the forearm or wrist. Symptoms include sensory disruption in the lateral portion of the palmar aspect of the hand and dorsal finger tips of the same fingers. In addition, motor fibers may also be affected in the forearm, if applicable, including the muscles of the thenar eminence, such as the abductor pollicis brevis, the opponens pollicis, and the flexor pollicis brevis. Other forms of median nerve entrapment syndromes include: pronator teres syndrome and carpal tunnel syndrome.
Pronator teres syndrome is characterized as the compression of the median nerve at the elbow. It is considered rare compared to carpal tunnel syndrome. Pronator teres syndrome is caused by repetitive movement, pronator teres muscle inflammation and thickened bicipital aponeurosis. Clinical findings for this type of neuropathy include, tenderness with palpation of the pronator teres muscle, pain with resisted pronation of the arm, flexor pollicus longus and flexor digitorum profundus involvement, otherwise, symptoms manifestations for pronator teres syndrome may appear similar to carpal tunnel syndrome but without positive wrist orthopedics.
Carpal tunnel syndrome is characterized as the compression of the median nerve at the wrist. Carpal tunnel syndrome is identified by symptoms of pain and discomfort, tingling sensations in the thumb, index finger, middle finger and the thumb side of the ring fingers, and numbness. These can generally start gradually and may extend up the arm. Advanced instances of carpal tunnel syndrome may cause weakened grip strength where the muscles at the base of the thumb may waste away if left untreated for an extended period of time. In many cases, carpal tunnel syndrome may affect both hands or arms. Carpal tunnel syndrome is caused by repetitive movements, hypothyroidism, obesity, rheumatoid arthritis, diabetes and pregnancy. Orthopedic tests utilized to diagnose carpal tunnel syndrome include the use of the Tinel�s Sign, positive if tapping over the median nerve reproduces/exacerbates symptoms, the�Phalen�s Maneuver/Prayer Sign, performed by bringing the hands together, with wrists flexed, and is repeated in reverse with the wrists extended, for at least 60 seconds, and is considered positive if tests reproduce/exacerbate symptoms, and the�Wringing Test, if wringing a towel produces paresthesia.
Ulnar Nerve Entrapment
Ulnar nerve entrapment is a condition where the ulnar nerve itself becomes physically trapped or pinched, resulting in symptoms of pain, numbness and weakness which extends throughout the little finger, the ulnar half of the ring finger and throughout the intrinsic muscles of the hand. Symptoms or ulnar nerve entrapment ultimately involve sensory disruption in the medial two digits of the palmar and dorsal aspects of the hand. Symptoms of ulnar nerve entrapment may vary depending on the specific location of the ulnar nerve compression or impingement. These may also be classified as motor, sensory or both, depending on the location of the injury. If motor fibers are affected in the hand, all fingers, besides the thumb, may become weakened, described as general hand weakness. The most common location of ulnar nerve entrapment is within the cubital tunnel. Other forms of ulnar nerve entrapment include: cubital tunnel syndrome and tunnel of Guyon syndrome.
Cubital tunnel syndrome is identified by the compression or impingement of the ulnar nerve in the cubital tunnel at the elbow. It is considered to be the second most common entrapment neuropathy which affects the upper extremities, following carpal tunnel syndrome. Symptoms of cubital tunnel syndrome are characterized by pain and discomfort along the region of the ulnar nerve entrapment, along with sensory impairment, paresis and paresthesia.�Causes of cubital tunnel syndrome include, repetitive movements, hypothyroidism, obesity, diabetes, physical trauma or injury to the cubital tunnel, and prolonged sitting with pressure on bent elbow.
Tunnel of Guyon syndrome, or Guyon’s canal syndrome, is identified by the compression or impingement of the ulnar nerve at the wrist, particularly along an anatomical space in the wrist known as Guyon’s canal. Guyon’s canal syndrome may also be referred to as ulnar tunnel syndrome. Symptoms of tunnel of Guyon syndrome are similar to those of cubital tunnel syndrome with slight variations depending on the region of ulnar nerve entrapment.�Causes of tunnel of Guyon syndrome include, repetitive movements, long term crutch use, fracture of the hamate, a carpal bone, due to a ganglion cyst, hypothyroidism, obesity, rheumatoid arthritis and diabetes.�Orthopedic tests utilized to diagnose Guyon’s canal syndrome include the use of the�Tinel�s Sign, positive if test over the ulnar nerve at the wrist elicits symptoms, the Wartenberg Sign, positive if the 5th digit abducts when patient performs hard grip strength test or attempts to squeeze fingers together and reduced two-point discrimination in the hand.
Radial Nerve Entrapment
Radial nerve entrapment, also known as radial tunnel syndrome, is a condition caused by the compression of the radial nerve, which travels from the brachial plexus, to the hand and wrist. Healthcare professionals believe that radial tunnel syndrome occurs because the radial nerve becomes irritated or inflamed due to the friction caused by the impingement of the muscles in the forearm. Radial nerve entrapment manifests symptoms of sensory disruption in the lateral three and a half digits of the dorsal aspect of the hand. Motor�fibers may also be affected along the�posterior arm and extensor compartment of the forearm, and wrist drop may be seen. Other forms of radial tunnel syndrome include: spiral groove entrapment, where all radial nerve innervated muscles below entrapment are affected,�Saturday night palsy caused due to sleeping on your own arm and the brachioradialis & triceps reflexes are both diminished, supinator syndrome, caused by the compression at the arcade of Frohse with no change in reflexes. Posterior interosseous syndrome, or radial tunnel syndrome, also elicits no change in reflexes.
Sciatic Nerve Entrapment
Sciatic nerve entrapment is a condition caused by the compression of the sciatic nerve, the longest and largest nerve in the human body, which travels from the low back, down through the buttocks, thighs, legs and into the foot. The collection of symptoms which manifest as a result of sciatic nerve entrapment, including pain and discomfort, tingling and burning sensations, and numbness as well as weakness in the lower extremitites, is commonly known as sciatica. Sciatic nerve entrapment, or sciatica, can be caused by a variety of injuries and/or aggravated conditions which can lead to the compression of the sciatic nerve, including, but not limited to, disc herniation and spinal stenosis. However, symptoms of sciatic nerve entrapment may vary depending on the location of the compression of the sciatic nerve. Other conditions caused by the compression of the sciatic nerve include: piriformis syndrome, peroneal nerve entrapment and tarsal tunnel syndrome.
Piriformis syndrome is a condition which occurs due to the compression of the sciatic nerve as a result of the irritation or inflammation of the piriformis muscle. Symptoms of piriformis syndrome may include pain and discomfort, followed by numbness in the buttocks and down the leg. Symptoms may worsen with regular activities, such as sitting and running. Piriformis syndrome is caused by anatomic variation or due to piriformis overuse/tension. Piriformis syndrome diagnosis exams include, a positive Lase?gue test, where the healthcare professional�extends the patient�s leg passively, while the patient is lying supine,�test is positive if the maneuver is limited by pain, and through the use of tenderness and palpable tension in piriformis muscle which elicits symptoms.
Peroneal nerve entrapment is a condition which occurs when the peroneal or the fibular branch of the sciatic nerve are compressed at the fibular head. Tinel�s sign may be present at the fibular region of the head and/or neck. Peroneal nerve entrapment generally affects the common peroneal nerve, therefore, motor and sensory symptoms may manifest, including, weakness of the ankle dorsiflexion and eversion, or the tibialis anterior. Other symptoms of peroneal nerve entrapment may include sensory disruption on the dorsum of the foot and lateral aspect of the calf. Common peroneal nerve entrapement at the fibular head is the most common nerve entrapment syndrome in the lower extremities.
Tarsal tunnel syndrome, also known as posterior tibial neuralgia, is a condition caused by the compression of the tibial nerve as it travels through the tarsal tunnel, found along the region of the inner leg, posterior to the medial malleolus, or the bump on the inside of the ankle. Tarsal tunnel syndrome can manifest symptoms of pain and discomfort, burning or tingling sensations, and numbness along the big toe and the first three toes. However, symptoms may vary slightly depending on the area of compression, where the entire foot may manifest the symptoms previously described. Other symptoms associated with posterior tibial neuralgia include sensory changes in the sole of the foot. Tinel�s sign may be present with percussion posterior to the medial malleolus. The exact cause of tarsal tunnel syndrome may be difficult to determine and it is essential to receive a proper diagnosis to determine the source of the symptoms.
Radiculopathy
Radiculopathy is a mononeuropathy,�a condition that impacts only a single nerve or nerve group outside the brain and spinal cord, which affects the movement of or sensation in one specific area. It is often associated with neuropathy involving spinal nerve roots and presents as changes in sensory and/or motor function affecting a single or a few nerve root level(s). The most common types of radiculopathies include: sciatica and cervical radiculopathy. The most prevalent causes of radiculopathy include, disc herniation, osteophytes, spinal stenosis, trauma, diabetes, epidural abscess or metastasis, nerve sheath tumors, such as schwannomas and neurofibromas, Guillain-Barre? syndrome, Herpes Zoster, or shingles, Lyme disease, cytomegalovirus, myxedema and/or thyroid disorder, and idiopathic neuritis.
Narrowing down some of the most common causes of radiculopathy, symptoms can manifest due to disc herniation which most commonly affects the nerve roots along the C6, C7, L5 & S1 vertebrae of the spine, spinal stenosis and lumbar stenosis which may produce neurogenic claudication, and pain and weakness with ambulation. Cervical stenosis may present with mixed radiculopathy and myelopathy due to long tract involvement. Symptoms may also manifest due to trauma, because it may lead to compression, trauma or avulsion of the nerve roots, diabetes, which is most�likely to cause a polyneuropathy, but mononeuropathy is possible, and Herpes Zoster, or shingles, most often on the trunk, accompanied by vesicular lesions in a single dermatome. If pain persists past vesicular regression, radiculopathy may instead be considered post-herpetic neuralgia.
Patients with a history of radiculopathy will often complain of burning pain or tingling sensations which radiates or shoots down an affected area in a “dermatomal” pattern. Occasionally, patients will complain of motor weakness, however if onset is recent, there is often no motor involvement. The diagnosis of radiculopathy can depend on a variety of exams.�Most often, hypoesthesia may be present in the affected dermatome level. It’s recommended to�evaluate for pain, as light touch can be difficult for these patient�s to distinguish. Fasciculations and/or atrophy may be seen if radiculopathy is chronic, due to the lower motor neuron being compressed or impinged. Motor weakness may be seen in muscles innervated by the same root level. Orthopedic tests for the diagnosis of radiculopathy may include: the straight-leg raise test (SLR), where pain between 10 to 60 degrees likely indicates nerve root compression, the�Well-leg raise/Crossed straight-leg raise test (WLR), where if positive, 90 percent specificity for L/S nerve root compression may be present, the Valsalva Maneuver, where its considered positive if there is an increase in radicular symptoms, and spinal percussion, where pain may indicate metastatic disease, abscess or osteomyelitis.
Specific radiculopathy patterns may also develop as a result of different regions being affected. Radiculopathy along the T1 can cause Horner�s syndrome, a combination of symptoms caused by the disruption of a nerve pathway from the brain to the face and eye on one side of the body. This is due to its effect on cervical sympathetic ganglia, includind ptosis, miosis, anhidrosis. Radiculopathy below the L1, can cause Cauda Equina syndrome, a condition caused by damage or injury to the bundle of nerves found below the end of the spinal cord, known as the cauda equina. This type of radiculopathy may manifest symptoms of saddle anesthesia, sensory loss in the S2-S5 distribution, urinary retention or overflow incontinence, constipation, decreased rectal tone or fecal incontinence, and loss of erectile function. Individuals with these signs and symptoms must be referred for emergency care immediately to prevent permanent dysfunction.
Other patterns of neuropathy can include the cape/shawl distribution of symptoms, identified by an intramedullary lesion, such as syringomyeli, intramedullary tumor and central cord damage. Stocking and glove distribution of symptoms may manifest as a result of diabetes mellitus,�B12 deficiency, alcoholism and/or hepatitis,�HIV, and thyroid dysfunction and/or myxedema.
The cape/shawl pattern of neuropathy is characterized by symptoms occurring due to an intramedullary lesion, such as a tumor, syringomyelia or a hyperextension injury in patient with C/S spondylosis. It can also be characterized by loss of pain and temperature sensation in C/T dermatomes because of the arrangement of the lateral spinothalamic tract. The stocking and glove pattern may progress gradually depending on its specific stage. It can also be characterized as a symmetrical polyneuropathy, where the feet and legs are generally affected first, followed by the hands and arms. A vibration-like sensation in the smallest toes are also typically the first to go and the neuropathy symptoms may progress across the foot to the big toe and then upward through the ankle and leg, then hands, arms and finally to the trunk if the condition becomes severe. The most likely cause of this pattern may be attributed to diabetes mellitus, but other possible causes include, B12 deficiency, alcoholism, HIV, chemotherapy treatment, thyroid dysfunction and multiple other causes.
Diabetic Neuropathy
Diabetic neuropathy is medically defined as a collection of nerve damaging disorders associated with diabetes. These conditions are believed to occur as a result of a diabetic microvascular injury involving the small blood vessels, known as the vasa nervorum, which supply the nerves. Additionally, macrovascular conditions have also been considered to accumulate and cause diabetic neuropathy.�Diabetic neuropathy often presents as a polyneuropathy, or the simultaneous damage or disease of many peripheral nerves throughout the body, but it can also present as a mononeuropathy, usually with acute onset. Diabetic neuropathy most commonly affects the CN III, femoral and sciatic nerves. Diabetic neuropathy can affect all peripheral nerves, including the sensory neurons, motor neurons and, although rarely, the autonomic nervous system. As a result, diabetic neuropathy can affect all organs and systems, as these are all innervated. Diabetic neuropathy can manifest into a wide array of symptoms, including, but not limited to, pain, burning or tingling sensations, numbness, dizziness and trouble with balance.
Demyelinating Neuropathies
Demyelinating neuropathies can be individually defined by its two types: Acute inflammatory demyelinating polyneuropathy, best known as�Guillain-Barre? syndrome, or Chronic inflammatory demyelinating polyneuropathy.�Guillain-Barre? syndrome, abbreviated as AIDP, is identified as a rapid-onset muscle weakness caused when the immune system damages, harms or destroys the peripheral nervous system. Onset has been reported by around one to two weeks following viral infection with progressive weakness, loss of DTRs/areflexia, paresthesia in the hands and feet, more motor involvement than sensory, potential autonomic fiber involvement, elevated CSF protein, and EMG/NCV studies indicating demyelination.�Guillain-Barre? syndrome may require treatment with plasmapheresis or IV Ig therapy.�Chronic inflammatory demyelinating polyneuropathy, abbreviated as CIDP,�is identified as an acquired immune-mediated inflammatory disorder of the peripheral nervous system which appears similar to AIDP but does not follow infection. Symptoms must be present for at least 8 weeks for this diagnosis to be considered positive.�Anti-inflammatory treatments may help treat CIDP.
The scope of our information is limited to chiropractic as well as to spinal injuries and conditions. To discuss the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Curated by Dr. Alex Jimenez
Additional Topics: Sciatica
Sciatica is medically referred to as a collection of symptoms, rather than a single injury and/or condition. Symptoms of sciatic nerve pain, or sciatica, can vary in frequency and intensity, however, it is most commonly described as a sudden, sharp (knife-like) or electrical pain that radiates from the low back down the buttocks, hips, thighs and legs into the foot. Other symptoms of sciatica may include, tingling or burning sensations, numbness and weakness along the length of the sciatic nerve. Sciatica most frequently affects individuals between the ages of 30 and 50 years. It may often develop as a result of the degeneration of the spine due to age, however, the compression and irritation of the sciatic nerve caused by a bulging or herniated disc, among other spinal health issues, may also cause sciatic nerve pain.
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