Dynamic Chiropractic – September 23, 1994
By David Seaman, DC, MS, DABCN
This is the first article in a three-part series devoted to nociception, mechanoreception, proprioception and subluxation. These articles serve as introductions to topics that will be discussed in detail at MPI's Hawaii seminar in March of 1995. When discussing subluxation with our patients, the great majority of DCs still describe it in terms of a bone-out-of-place that pinches or chokes nerves. There are two major problems with this explanation: It is inaccurate because subluxations rarely, if ever, pinch or choke nerves. Secondly, by repeating this erroneous explanation again and again, DCs eventually come to believe it. Repetitive exposure to information embeds in the mind.
How do DCs view subluxation? The first image that pops into many heads is a displaced vertebra or a black shoe on a green hose. Such a visual response regarding the subluxation demonstrates how we have programmed our minds to think in an unscientific and anti-intellectual fashion. This utterly demeans our profession. This way of viewing subluxation, more than anything else, serves as an indicator that we need to update our perspective about the science of chiropractic. We can either quickly change our views or we can become paranoid and self-defensive.
According to various gossip columnists in chiropractic, our profession appears to be currently enmeshed in a brutal civil war between BOOP (bone-out-of-place) practitioners and low back pain practitioners. It should be known that the BOOPers incorrectly call themselves subluxation-based practitioners. My experience has demonstrated that the BOOPers do not know enough about subluxation to call themselves subluxation-based chiropractors. We would all do well to not be subluxation-based in the BOOP sense. It should also be know that this so-called war is really an over-dramatized skirmish between vocal BOOPers and a theoretical group of anti-chiropractic DCs. I have yet to meet any of these anti-chiropractic DCs. Unfortunately, the BOOPers seem to think that those who do not embrace the totality of BOOP philosophy are merely non-BOOPers who are still very pro-chiropractic and appreciate the philosophy of chiropractic from a contemporary and nondogmatic perspective.
My impression is that both the BOOPers and non-BOOPers could be more subluxation-oriented in their approaches to patient care. In fact, many of us non-BOOPers are trying very hard to better understand the nature of the subluxation complex for the purpose of improving our diagnostic and therapeutic abilities.
Most DCs would probably agree that muscle spasm and vasoconstriction of paravertebral blood vessels could promote the development of the subluxation complex. If this is the case, then what is it that first caused the development of muscle spasm and vasoconstriction? Devoted BOOPers would be quick to say that subluxations cause muscle spasm and vasoconstriction, which is incorrect and a blatant deductive slip-up. Something had to first cause the subluxation before it could perpetuate muscle spasm and vasoconstriction. Consider this quote:
"The spinal cord dorsal horn, and to a lesser extent the ventral horn, are the origins of second-order neuronal pathways involved in pain. The dorsal horn is also a central focal point for mediating autonomic and somatomotor reflexes initiated by nociceptive stimulation. Nociceptive responses at this level are also influenced by several descending control mechanisms as well as local inhibitory and facilitatory interactions." 
Clearly it is nociceptor irritation that causes pain, muscle spasm and vasoconstriction. Figure A demonstrates this relationship very clearly. Figure A also demonstrates that nociceptor irritation may also cause autonomic symptoms. Autonomic symptoms are nociception- induced alterations in function of the gastrointestinal, cardiovascular and respiratory systems. [2, 3]
The term nociception is confusing to most practitioners. This is probably because we were taught this topic out of context in school, so our confusion is natural and should be expected. Nociceptors are located in nearly all spinal tissues except for the nucleus pulposus, the inner two-thirds of the annulus, and the articular cartilage of zygapohyseal joints. Nociceptors are specialized sensory receptors that are designed to receive tissue damaging stimuli, i.e., trauma and the subsequent release of chemical mediators of inflammation. Under normal circumstances nociceptors never respond to innocuous stimuli. On the other hand, mechanoreceptors are designed to receive innocuous stimuli such as light touch and normal joint motion. Mechanoreceptors are located in skin, muscles, ligaments and joint capsules. Clearly, there is a great difference between nociceptors and mechanoreceptors. Proprioception is another story and will be described in a future article.
A major misconception, held by BOOPers and non-BOOPers, is the presumption that nociception equates with pain. Nothing could be farther from the truth. Nociceptor irritation may result in pain, autonomic symptoms, muscle spasm and/or vasoconstriction. Pain is an emotional experience and does not correlate with the severity of tissue damage and/or nociceptor irritation. Pain, as an indicator of tissue dysfunction, should not be our sole focus, nor should its importance be de-emphasized, rather, pain should be understood. A basic point to understand is that pain is merely one possible outcome of nociception. Subluxations can develop without the experience of pain and thus, the symptom of pain is not necessarily required before an adjustment should be administered.
There are volumes and volumes written on nociception and chiropractors need to become well versed in this subject. If you are a BOOPer or a non-BOOPer and have not investigated the topic of nociception and subluxation, then here is a chance for both sides to agree on a basic tenet of chiropractic -- nerve (nociception) irritation -- and approach it from the science of the 1990s.
The second article in this series will describe how our food and thoughts can influence nociceptive activity. The third article will clarify nociception, mechanoreception and proprioception.
1. Price D. Psychological and Neural Mechanisms of Pain. Raven Press, New York, 1988, p. 100.
2. Feinstein B. Experiments on pain referred from deep somatic tissues.
J Bone Joint Surg 36-A(5):981-97, 1954.
3. Bonica J. Clinical importance of hyperalgesia, p. 17-43, in Willis, W., editor, Allodynia and Hyperalgesia, Raven Press, New York, 1992.
Prior to his graduation in 1986 from New York Chiropractic College, Dr. David Seaman received his B.S. in biology from Rutgers University. He earned his M.S. in nutrition from the University of Bridgeport in 1991 and completed his postdoctoral studies in neurology at Logan College of Chiropractic the next year. He also a diplomate of the American Chiropractic Academy of Neurology and the American Clinical Board of Nutrition.
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