Welcome to the Subluxation Section @ Chiro.Org
Review the evolution of the Subluxation Complex.
What is the
Chiropractic Subluxation?This section is compiled by Frank M. Painter, D.C.
Send all comments or additions to: Frankp@chiro.org
If there are terms in these articles you don't understand, you can get a definition from the Merriam Webster Medical Dictionary. If you want information about a specific disease, you can access the Merck Manual. You can also search Pub Med for more abstracts on this, or any other health topic.
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The Neurologic Component of the Subluxation Complex
NOTE: All the related articles are listed below this Table. Jump to Neurology articles
The Neurologic Component of Subluxation
The Impact of Chiropractic Spinal Adjusting
(Spinal Manipulation) On Pain Modulation
See also: Chiropractic and Spinal Pain
On The Origin of Atraumatic Neuromusculoskeletal Pain
Chiropractic Journal of Australia 2016 (Jan); 44 (1): 1–8 ~ FULL TEXT
The purpose of this study was to examine the possible origins of non-specific or atraumatic back pain by applying the Gate Theory of pain and current physiologic concepts. I present a theory that accounts for the initiation and potential consequences of neuromusculoskeletal pain incorporating failure of the mechanism of muscle relaxation and resulting in pain and compromise of the lymphatic system. The theory provides an alternative to current theories and hypotheses of the cause and consequences of neuromusculoskeletal pain.
Muscle Pain in Healthy Volunteers
Chiropractic & Manual Therapies 2015 (Sep 7); 23: 25 ~ FULL TEXT
The current findings do not support the theory that HVLA-manipulation has a non-specific, reflex-mediated local or generalized analgesic effect on experimentally induced deep muscle pain. This in turn suggests, that any clinical analgesic effect of HVLA-manipulation is likely related to the amelioration of a pre-existing painful problem, such as reduction of biomechanical dysfunction.
A Systematic Review and Meta-analysis
J Electromyogr Kinesiol. 2012 (Oct); 22 (5): 752–767 ~ FULL TEXT
Spinal manipulation (SMT) demonstrated a favorable effect over other interventions on increasing PPT. Subgroup analysis showed a significant effect of SMT on increasing mechanical pressure pain threshold (PPT) at the remote sites of stimulus application supporting a potential central nervous system mechanism. Future studies of SMT related hypoalgesia should include multiple experimental stimuli and test at multiple anatomical sites.
Induced Pain: A Systematic Literature Review
Chiropractic & Manual Therapies 2012 (Aug 10); 20 (1): 26 ~ FULL TEXT
Twenty-two articles were included, describing 43 experiments, primarily on pain produced by pressure (n = 27) or temperature (n = 9). Their quality was generally moderate. A hypoalgesic effect was shown in 19/27 experiments on pressure pain, produced by pressure in 3/9 on pain produced by temperature and in 6/7 tests on pain induced by other measures. Second pain provoked by temperature seems to respond to SMT but not first pain. Most studies revealed a local or regional hypoalgesic effect whereas a systematic effect was unclear. Manipulation of a "restricted motion segment" ("manipulable lesion") seemed not to be essential to analgesia. In relation to outcome, there was no discernible difference between studies with higher vs. lower quality scores.
Chiropractic & Manual Therapies 2012 (Jul 5); 20 (1): 22 ~ FULL TEXT
This thesis addressed the question "what is different about spine pain?" Neuroanatomic and neurophysiologic findings from studies in the last twenty years provide preliminary support for the thesis that deep spine pain is different from deep pain arising from peripheral limb structures.
Prevention, Treatment and Management f Chronic Pain
J Canadian Chiro Assoc 2012 (Mar); 56 (1): 5–7 ~ FULL TEXT
Chronic pain is a worldwide epidemic. It is characterized as “pain that persists beyond normal tissue healing time” [1] and is physiologically distinct from acute nociceptive pain. The current research estimates the prevalence of chronic pain in the general population to be anywhere from 10–55%, [2] predominantly affecting the adult population. Studies indicate that the prevalence of chronic pain in the over–60 age group is double that for younger adults. [3] Furthermore, over 80% of elderly (over 65) adults suffer from some form of painful chronic joint disease [4] and greater than 85% of the general population will experience some form of chronic myofascial pain during their lifetime. [5]
An Investigation Using a Rat Model of Lumbar
Facet Joint Inflammation
Spine (Phila Pa 1976) 2007 (Feb 15); 32 (4): 406–412
The association between lumbar facet joint inflammation and radiculopathy was investigated using behavioral, histologic, and immunohistochemical testing in rats. Both mechanical and chemical factors have been identified as important for inducing radiculopathy. In lumbar spondylosis, facet joint osteophytes may contribute to nerve root compression, which may induce radiculopathy. Furthermore, inflammation may occur in the facet joint, as in other synovial joints. Inflamed synovium may thus release inflammatory cytokines and induce nerve root injury with subsequent radiculopathy. (In this study) when inflammation was induced in a facet joint, inflammatory reactions spread to nerve roots, and leg symptoms were induced by chemical factors. This work supports yet another aspect of the Vertebral Subluxation Complex hypothesis.
Lumbar Intervertebral Foramen Inflammation in the Rat
J Manipulative Physiol Ther. 2006 (Jan); 29 (1): 5–13 ~ FULL TEXT
These studies show that Activator-assisted spinal manipulative therapy (ASMT) can significantly reduce the severity and shorten the duration of pain and hyperalgesia caused by lumbar IVF inflammation. This effect may result from ASMT-induced faster elimination of the inflammation and recovery of excitability of the inflamed DRG neurons by improving blood and nutrition supplement to the DRG within the affected IVF. Manipulation of a specific spinal segment may play an important role in optimizing recovery from lesions involving IVF inflammation.
Clin J Pain 2005 (Jan); 21 (1): 18–26 ~ FULL TEXT
In this paper, researchers in a medical school rehabilitation department were interested in finding out what treatments were most effective at reducing pain for neuromuscular diseases (like amyotrophic lateral sclerosis and myotonic muscular dystrophies).
Chiropractic scored the highest pain relief rating (7.33 out of 10), scoring higher than the
relief provided by either nerve blocks (6.75) or opioid analgesics (6.37). WOW!!!
Monoamine Receptors But Not Opioid or GABA Receptors
in the Spinal Cord
Pain. 2003 (Nov); 106 (1–2): 159–168 ~ FULL TEXT
Joint manipulation has long been used for pain relief. However, the underlying mechanisms for manipulation-related pain relief remain largely unexplored. The purpose of the current study was to determine which spinal neurotransmitter receptors mediate manipulation-induced antihyperalgesia. Rats were injected with capsaicin (50 microl, 0.2%) into one ankle joint and mechanical withdrawal threshold measured before and after injection. The mechanical withdrawal threshold decreases 2 h after capsaicin injection.
J Manipulative Physiol Ther 2000 (Feb); 23 (2): 134–138
From the early 1990s, there are several reports involving the use of the pressure algometer initially devised by Fischer. [24] Vernon [25] was the first to report the improvement in paraspinal pressure pain threshold (PPT) levels after manipulation. Six tender muscle spots were measured bilaterally in a subject with chronic right-sided neck and scapular pain. The right side muscle values were all significantly lower than those on the left and were lower than the normal cut-off value of 3.5 kg/cm2 established by Fischer. [24] After a cervicoscapular manipulation, PPT levels rose by an average of 45%, whereas the patient's pain score dropped from 6 to 1/10 on a 10-centimeter VAS. In 1992, Vernon et al [12] reported on 9 subjects with chronic neck pain. Baseline PPT values were obtained bilaterally around the painful segment (fixation) for a total of 4 measured sites. Five subjects were randomly assigned to receive a rotary manipulation, and 4 subjects received the same sort of oscillatory mobilization that had been used in the endorphin study. [21] In the group receiving manipulation, PPT levels at 5 minutes after treatment rose at all 4 sites (ie, bilaterally) an average of 45%, whereas in the control group there was no increase. This difference was statistically significant at all 4 points.
Four Articles Which Describe the Relationship Between the
Upper Cervical Spine and Headaches and Chronic Head Pain
Thanks to Rick Hallgren!
We have observed previously unreported muscle atrophy in the rectus capitis posterior minor (RCPMI) muscles of a group of chronic pain patients. We hypothesize that chronic pain, in this select group of patients, is a consequence of tramua that occurs to the C1 dorsal ramus during whiplash.
We are currently using MRI to investigate the functional integrity of the upper cervical spine. We started out looking for hypertonic muscles in a population of patients who were suffering from chronic head and neck pain. My first task was to collect MRI data and to identify suboccipital muscles within the MR images. So I brought together a physician and an anatomy professor to see if they could help me out. Their comments were classic. The anatomy professor said, "The reason you can't find those muscles is because they are not there." The physician immediately responded by saying, "No wonder these patients don't get any better." I had been using images that were collected from a chronic pain patient, and it was apparent that the rectus capitis posterior minor muscles were missing. When we looked at images from a control subject it was very easy to locate these muscles. At that point, the focus of our research switched from looking for hypertonic muscles to comparing muscle density between the control group and the chronic pain group.
Posterior Minor Muscle and the Spinal Dura Mater
We observed that the PAO membrane was securely fixed to the surface of the dural tube by multitudinous fine connective tissue fibers. There was no real interlaminar space between these two structures and they appeared to function as a single entity. The influence of the RCPMI muscle on the dura mater was artificially produced in the hemisected specimen. Artificially functioning the muscle produced obvious movement of the spinal dura between the occiput and the atlas, and resultant fluid movement was observed to the level of the pons and cerebellum.
in the Visible Human Female Data Set
Spine Journal 1995; 20 (23): 2484–2486
It has been speculated that the function of the muscle dural bridge may be to prevent folding of the dura mater during hyperextension of the neck. Also, clinical evidence suggests that the muscle dural bridge may play an important role the pathogenesis of the cervicogenic headaches.
The Neurophysiological Evaluation of the Subluxation Complex:
Documenting the Neurological Component with
Somatosensory Evoked Potentials
Chiropractic Research Journal 1994; 3 (1) ~ FULL TEXT
The results seen in this study indicate highly significant changes for the pre vs post adjustment SSEP tests. The mean latencies decreased after chiropractic adjustment in each of the nerves tested. This would seem to indicate that the upper cervical subluxation does cause neurological compromise in nerves forming both the brachial and lumbo-sacral plexuses. The removal of the subluxation by chiropractic adjustment results in improved conduction of the neural impulses as demonstrated on the post-adjustment tests. The improvements that were observed are similar to the changes seen when neurological compromise is relieved by surgical procedures to decompress or stabilize the spine.
How Does Subluxation Affect the Nervous System?
Dynamic Chiropractic (October 7, 1996)
In 1976, Drs. Vert Mooney and James Robertson set out to confirm the earlier research on referred pain and discussed their findings in a well-known paper, "The Facet Syndrome." [3] Their attention was directed toward the facet joints rather than spinal muscles and ligaments. The subjects in this study included five normal individuals and 15 patients with low back pain. To make a semi-long story short, Mooney and Robertson discovered that, indeed, injecting hypertonic saline into facet joints resulted in local and referred pain. They also discovered that, "slightly increasing the volume of injection would consistently increase the amount of pain radiation."
Nociception, Mechanoreception and Proprioception:
What's the Difference and What Do They Have
to Do with Subluxation?
Dynamic Chiropractic (November 18, 1994)
Nociception is the process by which nociceptive receptors receive tissue damaging stimuli that is then carried into the CNS by nociceptive axons (A-delta and C fibers). Potential outcomes of nociceptive input to the cord include pain, autonomic symptoms, vasoconstriction and muscle spasm. Nociceptive input to the cord appears to be the driving force behind the pathogenesis of subluxation (see Figure A). We must remember that nociception and pain are two completely different animals. However, a devastating consequence of both pain and nociceptive stimulation of the hypothalamus, is the release of cortisol by the adrenal glands. Over time, elevated levels of cortisol will promote glucose intolerance, inhibit collagen formation, increase protein breakdown, inhibit secretory IgA output, and inhibit white blood cell function. Clearly, the clinical importance of pain and nociception should not be minimized.
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