Pain perception varies across different people based on their mood, psychological condition and previous experience, even when pain is brought on by similar physical stimulation and ends in a similar level of damage. In 1965, Ronald Melzack and Patrick Wall summarized a scientific theory about the psychological influence on pain perception; known as the gate control theory.
If it wasn’t for this theory, pain perception would still be connected to the intensity of the pain stimulation and the degree of damage caused to the affected tissue. But Melzack and Wall made it clear that pain perception is far more complicated than we believe.
Based on the gate control theory, pain signals aren’t free to travel to the brain as soon as they’re generated in the region of the damaged or injured tissues. These first need to encounter specific neural gates found at the level of the spinal cord level, where these gates ascertain whether the pain signals should reach the brain or not. To put it differently, pain is perceived when the gate gives way to the pain signals and it is not as intense or it is not sensed at all when the gate closes for the signs to pass through.
This theory provides the explanation for why people find relief by massaging or rubbing a damage, injured or painful site. Although the gate control theory cannot demonstrate the whole picture of the fundamental system which underlies pain, it’s visualized the mechanism of pain perception and it has created a pathway to various pain management treatment approaches.
Every organ, or portion of the human body, has its own nerve supply which are in charge of carrying electric impulses generated in reaction to several senses, such as touch, temperature, pressure and pain. These nerves, which make up the peripheral nervous system, transmit these sensory signals, to the central nervous system, or the brain and the spinal cord. These impulses are then translated and perceived as senses. The peripheral nerves send signals to the dorsal horn of the spinal cord and from there, the sensory signals are transmitted into the brain through the spinothalamic tract. Pain is a sensation which alarms a person that a tissue or certain portion of the human body has been damaged or injured.
Due to their axonal diameter and their conduction speed, nerve fibers can be categorized into three different types, nerve fibers A, B and C. The C fibers are considered to be the smallest among the three different types. Moreover, there are four subtypes within the A fibers: A-alpha, A-beta, A-gamma and A-delta. From the A fiber subtypes, the A-alpha fibers are the largest and the A-delta fibers are the smallest.
The A fibers which are larger compared to the A-delta fibers, carry sensations, such as touch, pressure, etc., into the spinal cord. The A-delta fibers as well as the C fibers carry pain signals into the spinal cord. A-delta fibers are faster and carry sharp pain signals while the C fibers are slower and carry diffuse pain signals.
When thinking about that the conduction velocity of nerve fibers, the A-alpha fibers, which are the biggest A nerve fibers, have greater conduction speed compared to A-delta fibers and C fibers, which are considered to be the smallest nerve pathways. When a tissue is damaged or injured, the A-delta fibers are activated first, followed by the activation of the C fibers. These nerve fibers have a tendency to carry the pain signals to the spinal cord and then to the brain. However, the pain signals are transmitted through a much more complex process than what is simply explained above.
The gate control theory implies that the sensory signals or impulses which are transmitted by the nerve fibers encounter neural gates at the level of the spinal cord and these will need to get cleared through those gates to reach the brain. Various factors determine how the pain signals ought to be treated in the neurological gates, including:
As previously mentioned, the nerve fibers, both large and small, carrying the sensory signals, end in the dorsal horn of the spinal cord from where the impulses are transmitted into the brain. According to the original postulate of Melzack and Wall, the nerve fibers project to the substantia gelatinosa, or SG, of the dorsal horn and the initial central transmission (T) cells of the spinal cord. The SG consists of inhibitory interneurons that behave as the gate and ascertain which sensory signals should get to the T cells then go further throughout the spinothalamic tract to finally reach the brain.
When the pain signals carried by the small nerve fibers, or the A-delta fibers and the C fibers, are somewhat less intense compared to another non-pain sensory signal like touch, temperature and pressure, the inhibitory neurons stop the transmission of the pain signals through the T cells. The non-pain signals override the pain signals and therefore the pain is not perceived by the brain. When the pain signals are somewhat more intense compared to the non-pain signals, the inhibitory neurons are inactivated and the gate is opened. The T cells transmit the pain signals into the spinothalamic tract which carries those impulses to the brain. As a result, the neurological gate is influenced by the relative amount of activity from the large and the small nerve fibers.
The gate control theory also suggests that the pain signal transmission could be affected by thoughts and emotions. It’s well known that people do not feel that a chronic pain or, more appropriately, the pain does not disturb them if they concentrate on other activities which interest them. Whereas, people who are depressed or anxious may often feel intense pain and can also find it challenging to cope with. This is due to the fact that the brain sends messages through descending nerve fibers which stop, reduce or enhance the transmission of pain signals through the gate, depending on the emotions and thoughts someone may be going through.
The gate control theory has caused a radical revolution within the field of pain management. The theory suggested that pain management can be accomplished by influencing the larger nerve fibers that carry non-pain stimulation. The concept has also paved way for more research on cognitive and behavioral strategies to achieve pain relief.
Among the most tremendous advances in pain management research is the arrival of Transcutaneous Electrical Nerve Stimulation (TENS). The gate control theory forms the cornerstone of TENS. In this procedure, the selective stimulation of the large diameter nerve fibers taking non-pain sensory stimulation from a particular region nullifies or reduces the impact of pain signals from the region. TENS is a non-invasive and affordable pain control strategy that has been widely used for the treatment of chronic and intractable pain by various healthcare professionals, which may otherwise have been non-responsive to analgesics and surgical interventions. TENS is tremendously advantageous over pain drugs from the aspect that it does not have the problem of medication interactions and toxicity.
For instance, many doctors of chiropractic, or chiropractors, utilize TENS and other electrotherapeutic procedures in their practice. These are generally utilized along with spinal adjustments and manual manipulations to increase circulation as well as to aid in the support of chiropractic care. Several other invasive and noninvasive electrical stimulation techniques are discovered to be helpful in several chronic pain conditions such as arthritic pain, diabetic neuropathy, fibromyalgia, etc.. The theory has also been extensively studied in treating chronic back pain and cancer pain. However, favorable results are not attained in some conditions and the long term efficacy of these techniques based on the theory still remains under consideration.
Dr. Alex Jimenez’s Insight
Chiropractic care is widely utilized to benefit patients with chronic pain. Symptoms of persistent pain and discomfort have become a big health issue in the United States where many years of research have found that drugs and/or medications are not necessarily a solution to the problem. The gate control theory, which was first proposed over half a century ago, has offered healthcare professionals new insights on the perception of pain, providing a variety of pain management treatment methods, such as the use of transcutaneous electrical nerve stimulation, or TENS, as well as other electrotherapeutic procedures. Chiropractors can help with pain management through spinal adjustments and manual manipulations, and through the use of TENS.
Nevertheless, the gate control theory has radically revolutionized the area of pain research and it has achieved to get numerous studies which aim at presenting a pain-free lifestyle into the patients who suffer from chronic pain. 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
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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