Acupuncture Girl

Acupuncture And Myofascial Trigger Therapy Treat Same Pain Areas

This could be titled, “Science independently verifies the existence of acupuncture points”. 

ScienceDaily (May 13, 2008) — Ancient acupuncture and modern myofascial pain therapy each focus on hundreds of similar points on the body to treat pain, although they do it differently, says a physician at Mayo Clinic in Jacksonville who analyzed the two techniques.

Results of the study, published May 10 in the Journal of Complementary and Alternative Medicine, suggest that people who want relief from chronic musculoskeletal pain may benefit from either therapy, says chronic pain specialist Dr. Peter Dorsher of the Department of Physical Medicine and Rehabilitation at Mayo Clinic.

“This may come as a surprise to those who perform the two different techniques, because the notion has been that these are exclusive therapies separated by thousands of years,” he says. “But this study shows that in the treatment of pain disorders, acupuncture and myofascial techniques are fundamentally similar – and this is good news for anyone looking for relief.”

Classic Chinese acupuncture treats pain and a variety of health disorders using fine needles to “reset” nerve transmission, Dorsher says. Needles are inserted in one or several of 361 classical acupoints to target specific organs or pain problems. “This is a very safe and effective technique,” he says.

Myofascial trigger-point therapy, which has evolved since the mid-1800s, focuses on tender muscle or “trigger point” regions. There are about 255 such regions described by the Trigger Point Manual, the seminal textbook on myofascial pain. These are believed to be sensitive and painful areas of muscle and fascia, the web of soft tissue that surrounds muscle, bones, organs and other body structures. To relieve pain at these trigger points, practitioners use injections, deep pressure, massage, mechanical vibration, electrical stimulation and stretching, among other techniques.

In the study, Dorsher analyzed studies published on both techniques and demonstrated that acupuncture points and trigger points are anatomically and clinically similar in their uses for treatment of pain disorders.

In another recent study, he found that at least 92 percent of common trigger points anatomically corresponded with acupoints, and that their clinical correspondence in treating pain was more than 95 percent. “That means that the classical acupoint was in the same body region as the trigger point, was used for the same type of pain problem, and the trigger point referred pain pattern followed the meridian pathway of that acupoint described by the Chinese more than 2,000 years before,” Dorsher says. Myofascial pain therapy has lately incorporated the use of acupuncture needles in a treatment called “dry needling” to treat muscle trigger points.

“I think it is fair to say that the myofascial pain tradition represents an independent rediscovery of the healing principles of traditional Chinese medicine,” Dorsher says. “What likely unites these two disciplines is the nervous system, which transmits pain.”

The study was funded by Mayo Clinic.

(Source: sciencedaily.com)

Posted on February 21, 2012 at 12:28pm

Acupuncture for Pain Management

from Geriatrics and Aging. 2008;11(2):93-97. © 2008  1453987 Ontario, Ltd.

Acupuncture for Pain Management

Linda M. Rapson, MD, CAFCI; Robert Banner, MD, CCFP, FRCP(C)

Acupuncture, an ancient form of medicine that originated in China several thousand years ago, has been used by Canadian physicians since the 1970s. Research on the neurophysiology of acupuncture analgesia supports the theory that it is mediated primarily via the selective release in the central nervous system of neuropeptides.  Evidence of its anti-inflammatory effects is emerging. Meta-analyses of randomized controlled trials provide evidence for acupuncture’s effectiveness in treating back pain, neck pain, and osteoarthritis. Applications of electroacupuncture using transcutaneous electrical nerve stimulation can provide good pain relief via home treatment and make management of cancer pain using acupuncture knowledge realistic.

Neurophysiology of Acupuncture Analgesia

By 1987, through a series of animal experiments conducted by his team and others, Pomeranz had developed a theory of acupuncture analgesia using electroacupuncture (EA) that begins with needle activation of A delta and C afferent fibres in muscle sending signals to the spinal cord, where dynorphin and enkephalins are released (see Figure 1). The afferent pathways continue to the midbrain, triggering excitatory and inhibitory mediators in the spinal cord. The ensuing release of neurotransmitters serotonin and norepinephrine onto the spinal cord leads to pain transmission being inhibited both pre- and postsynaptically in the spinothalamic tract. Finally, these signals reach the hypothalamus and pituitary, triggering the release of adrenocorticotropic hormones and beta-endorphin. These effects are dependent on the rate of stimulation: low-frequency stimulation at 4 Hz releases enkephalin and beta-endorphin, and high-frequency stimulation at 100 Hz releases serotonin and norepinephrine.[2,3]

Click to zoom  Figure 1.

Neurophysiology of Acupuncture Analgesia

Figure 1.

Neurophysiology of Acupuncture Analgesia

Pomeranz’s theory has been confirmed and refined by experiments in his laboratory and by other investigators.[4,5] In recent years, basic research has included positron emission tomography, single-photon emission computed tomography, and functional magnetic resonance imaging studies to observe the effects on the brain of acupuncture needling. The effects are widespread and open to interpretation, but there is evidence that the limbic system plays a significant role in acupuncture-induced analgesia. A study comparing true and sham EA at a single acupuncture point used for analgesia showed that both activated central pain pathway regions but only true EA activated the primary somatosensory cortex, the motor cortex, and the hypothalamus while deactivating the rostral segment of the anterior cingulate cortex. This implies that EA stimulation modulates the hypothalamus-limbic system.[6-9]

Acupuncture needles are designed to be atraumatic, to slip through tissues. The tip is sharp but rounded, with no cutting edge that can slice tissue, and the needle’s fineness of calibre (a commonly used size is 0.25 mm or 31 gauge) makes it difficult to puncture some tissues (Figure 2).  When considering acupuncture as a potential treatment, there is no contraindication based on risk if the therapist knows the anatomy and a clean needle technique is used (using single-use needles). An analysis by White of 12 prospective studies that surveyed more than a million treatments showed the estimated risk of a serious adverse event with acupuncture to be 0.05 per 10,000 treatments, and 0.55 per 10,000 individual patients.[10] 

The most common adverse effects are occasional bruising, very minor bleeding (particularly among individuals taking acetylsalicylic acid), syncope, and temporary exacerbation of symptoms.

Clinical Indications

The clinical indications for acupuncture are extensive, including internal medicine conditions, neurological dysfunctions, mood disorders, addictions, and urological problems such as urinary incontinence. However, the best-known indication for acupuncture is the management of pain.

Musculoskeletal Aches and Pains

Before using acupuncture to treat musculoskeletal aches and pains, screening for hypovitaminosis D should be done. Chronic nonspecific musculoskeletal pain is linked to low levels of 25-OH-vitamin D3.[12,13] The level that reduces fracture risk is now generally accepted as 75 nmol/L (30 ng/mL),[8,14] and the optimal range is considered by some experts to be 130-170 nmol/L (52–68 ng/mL), the level that the body maintains when most vitamin D comes from sun exposure.[15]

Muscle weakness, often a concomitant finding when 25-OH-vitamin D3 is very low (<30 nmol/L), can itself be a cause of nonspecific low back pain,[16] particularly among older adults; this may respond well to adequate supplementation with vitamin D3. Monitoring of 25-OH-vitamin D3 after 3 months’ supplementation with 2,000 IU of vitamin D3 taken daily with food containing a little fat to enhance absorption assists in dose adjustment and is safe.[17]

Myofascial Pain

Myofascial pain is common and is often confused with other causes of pain.[18] It arises from hyperirritable loci within taut bands of skeletal muscle referred to as trigger points. When a muscle is injured, rather than healing in response to injury, it may learn to avoid pain. Developing protective habits that restrict movement and prevent the muscle from stretching to its full length may avoid pain in the short term but can result in muscular pain, stiffness, and dysfunction that can persist for years. The precipitating event may, for example, be a simple slip and near fall causing a sudden contraction of the gluteus minimus.[19] Pain thereafter that refers to the buttock and down the ipsilateral leg may persist and confound the diagnosis.[20] That this is myofascial pain rather than true sciatica is suggested when the patient moves around without pain and does not have pain on straight leg raising. Tender trigger points are palpable in the gluteus minimus on examination.

This type of pain can be treated with acupuncture aimed at releasing the tightness either by inserting an acupuncture needle at a point that is adjacent to the peripheral nerve that supplies the muscle (the superior gluteal nerve for the gluteus minimus) or by dry-needling trigger points directly with an acupuncture needle, usually giving quick relief that is cumulative with several treatments. There is some evidence that the latter technique may produce better outcomes than traditional acupuncture approaches.[21]

Back and Neck Pain

Chronic back and neck pain are among the most common complaints of those who seek acupuncture treatment. A high percentage of individuals respond to acupuncture treatment for both conditions, usually beginning within the first few treatments. Whether there is complete resolution of symptoms depends on the underlying cause, whether there is the opportunity to treat the person enough times, and the extent to which one integrates acupuncture treatment with nutritional and lifestyle changes, exercise, good physiotherapy, attention to perpetuating factors, and ergonomic adjustments. Key nutritional issues include hypovitaminosis D and magnesium deficiency, which may actually be an imbalance of the calcium-magnesium ratio in favour of calcium, leading to tight muscles and the perpetuation of myofascial pain. Magnesium depletion may cause neuromuscular symptoms, one of which is chronic pain.[22]

There is evidence from meta-analyses of randomized controlled trials (RCTs) to support the fact that acupuncture relieves chronic low back[23,24] and neck[25] pain.

Osteoarthritis

Acupuncture has anti-inflammatory effects in addition to analgesic effects; the autonomic nervous system may be involved.[26,27] Treating a swollen arthritic knee joint usually results in decreased swelling and increased range of motion, not just pain relief, providing objective evidence that inflammation has been reduced.[28]

Osteoarthritis of the knee responded well to acupuncture under the rigour of a randomized placebo-controlled trial.[29] Berman et al.’s landmark 2004 study included 570 subjects in a three-arm study that involved real acupuncture (n = 190), sham acupuncture (n = 191), and an education-attention control (n = 189). Both acupuncture groups, true and sham, received 25 treatments over 6 months, starting with twice-weekly treatments. Primary outcome measurements were the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) pain and function scores. There was a 40% decrease from baseline in the WOMAC pain score (-3.6 units) for the true acupuncture group compared with -2.7 for the sham group (p = .02) by week 14. These differences remained at 26 weeks (p = .003). By week 14, improvement in function in the true acupuncture group had changed more than 12 units, indicating an almost 40% improvement from baseline. The differences between the true and sham groups were significant at weeks 8 (p = .01), 14 (p = .04), and 26 (p = .009). There were no adverse effects attributable to either true or sham acupuncture.

Osteoarthritis of the hip responds well to acupuncture in a significant percentage of cases, but evidence for its effectiveness based on RCTs, while encouraging, does not yet include a placebo study.[30]

Neuropathic Pain

Acupuncture is used for neuropathic pain of various etiologies. An area in which it shows promise is below-level generalized burning pain following spinal cord injury. An acupuncture protocol developed at Toronto Rehabilitation Institute Lyndhurst Centre (TRI-LC) in 1992 is known as the Lyndhurst Centre Central Neuropathic Pain Acupuncture Protocol (LCCNPAP). This protocol involves three needles inserted into the scalp along the midline at points on the occiput and near the vertex, and one between the eyebrows. This protocol evolved at TRI-LC from a treatment for burning pain learned from Chinese surgeons visiting from the China Rehabilitation Research Center in Beijing. In a retrospective case series in which the LCCNPAP was the first acupuncture intervention used for burning below-level pain, 24 of 36 individuals responded, 18 of them after the first treatment.[31]

This acupuncture protocol can be used for neuropathic pain such as postherpetic neuralgia, postnerve injury pain, burning mouth syndrome, and perineal burning pain. It dramatically relieved severe neuropathic pain due to a spinal metastasis in a U.K. hospice patient and managed his pain for several months prior to his death.

While there are no published studies, our personal experience is that diabetic neuropathy responds less reliably to acupuncture than do other types of neuropathic pain. The neuropathy associated with medications for human immunodeficiency virus that we saw in the early days of antiretroviral drugs, such as stavudine and didanosine, in contrast, has responded reliably to acupuncture.

Cancer Pain

Acupuncture can play a role in the management of cancer pain and symptoms both related to the condition itself and caused by treatment.[32,33] A comprehensive document, Guidelines for Providing Acupuncture Treatment for Cancer Patients–a Peer-Reviewed Sample Policy Document,[34] prepared by Dr. J. Filshie, Royal Marsden Hospital, and Dr. J. Hester, Kings College Hospital, in London, U.K., is available free from the National Health Service at www.library.nhs.uk/ cam/ViewResource.aspx?resID=260469.

Since the early 1990s, chemotherapy-induced nausea and vomiting have been treated with acupuncture, and several controlled studies made this application of acupuncture one of the first indications accepted by the U.S. Food and Drug Administration, in 1997. Ezzo reviewed 11 trials on acupuncture for chemotherapy-induced nausea and vomiting (N = 1,247) and pooled the results for the Cochrane Database of Systematic Reviews.[35] All trials used concomitant pharmacological antiemetics, and all except the EA trials used state-of-the-art antiemetics. Overall, acupuncture-point stimulation by all methods combined reduced the incidence of acute vomiting (relative risk [RR] = 0.82; 95% confidence interval [CI] 0.69–0.99; p = .04) but not acute or delayed nausea severity. Stimulation with needles reduced the proportion of acute vomiting (RR = 0.74; 95% CI 0.58-0.94; p = .01) but not acute nausea severity. EA reduced the proportion of acute vomiting (RR = 0.76; 95% CI 0.60-0.97; p = .02), but manual acupuncture did not. Note that the EA group did not receive state-of-the-art antiemetics, which makes the outcome more significant.

Conclusion

Acupuncture has a sound physiological basis and is safe and effective for the management of musculoskeletal, inflammatory, and neuropathic pain.

References

  1. Pomeranz B, Chiu D. Naloxone blockade of acupuncture analgesia: endorphin implicated. Life Sci 1976;19:1757-62.
  2. Cheng RS, Pomeranz B. Electroacupuncture analgesia is mediated by sterospecific opiate receptors and is reversed by antagonists of type I receptors. Life Sci 1980;26:631-8.
  3. Pomeranz B. Scientific basis of acupuncture. In: Stux G, Pomeranz B, eds. Acupuncture Textbook and Atlas. Heidelberg: Springer-Verlag; 1987:1-18.
  4. Han JS, Terenius L. Neurochemical basis of acupuncture analgesia. Annu Rev Pharmacol Toxicol 1982;22:193-220.
  5. Han JS. Acupuncture and endorphins. Neurosci Lett 2004;361:258-61.
  6. Lewith GT, White PJ, Pariente J. Investigating acupuncture using brain imaging techniques: the current state of play. Evid Based Complement Alternat Med 2005;2:315-9.
  7. Hui KKS, Liu J, Makris N, et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain: evidence from fMRI studies in normal subjects. Hum Brain Mapp 2000;9:13-25.
  8. Hui KKS, Liu J, Marina O, et al. The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI. Neuroimage 2005;27:479-96.
  9. Wu MT, Sheen JM, Chuang KH, et al. Neuronal specificity of acupuncture response: an fMRI study with electroacupuncture. Neuroimage 2002;16:1028-37.
  10. White A. A cumulative review of the range and incidence of significant adverse events associated with acupuncture. Acupunct Med 2004;22:122-33.
  11. Tang P, Walsh S, Murray C, et al. Outbreak of acupuncture-associated cutaneous Mycobacterium abscessus infections. J Cutan Med Surg 2006;10:166-9.
  12. Plotnikoff GA, Quigley JM. Prevalence of severe hypovitaminosis D in patients with persistent, nonspecific musculoskeletal pain. Mayo Clin Proc 2003;78:1463-70.
  13. Holick MF. Vitamin D deficiency: what a pain it is. Mayo Clin Proc 2003;78:1457-9.
  14. Dawson-Hughes B, Heaney RP, Holick MF, et al. Estimates of optimal vitamin D status. Osteoporos Int 2005;16:713-6.
  15. Hollis BW, Wagner CL, Drezner MK, et al. Circulating vitamin D3 and 25-hydroxy-vitamin D in humans: an important tool to define adequate nutritional vitamin D status. J Steroid Biochem Mol Biol 2007;103:631-4.
  16. Pfeifer M, Begerow B, Minne HW. Vitamin D and muscle function. Osteoporos Int 2002;13:187-94.
  17. Hathcock JN, Shao A, Vieth R, et al. Risk assessment for vitamin D. Am J Clin Nutr 2007;85:6-18.
  18. Cannon DE, Dillingham TR, Miao H, et al. Musculoskeletal disorders in referrals for suspected cervical radiculopathy. Arch Phys Med Rehabil 2007;88:1256-9.
  19. Travell JG, Simons DG. Myofascial Pain and Dysfunction: The Trigger Point Manual. Williams and Wilkins: Baltimore; 1983.
  20. Travell JG, Simons DG. Myofascial Pain and Dysfunction: The Trigger Point Manual, Volume 2. Media (PA): Williams and Wilkins: Baltimore; 1992.
  21. Itoh K, Katsumi Y, Hirota S, et al. Randomised trial of trigger point acupuncture compared with other acupuncture for treatment of chronic neck pain. Complement Ther Med 2007;15:172-9.
  22. Nadler JL, Rude RK. Disorders of magnesium metabolism. Endocrin Metabol Clin North Am 1995;24:623-41.
  23. Manheimer E, White A, Berman B, et al. Meta-analysis: acupuncture for low back pain. Ann Intern Med 2005;142:651-63.
  24. Furlan AD, van Tulder M, Cherkin D, et al. Acupuncture and dry-needling for low back pain: an updated systematic review within the framework of the Cochrane Collaboration. Spine 2005;30:944-63.
  25. Guzman J, Haldeman S, Carroll LJ, et al. Clinical practice implications of the Bone and Joint Decade 2000-2010 Task Force on Neck Pain and Its Associated Disorders: from concepts and findings to recommendations. Spine 2008;33(4 Suppl):S199-213.
  26. Kim HW, Kang SY, Yoon SY. Low-frequency electroacupuncture suppresses zymosan-induced peripheral inflammation via activation of sympathetic post-ganglionic neurons. Brain Res 2007;1148:69-75.
  27. Kim HW, Kang SY, Yoon SY. Low-frequency electroacupuncture suppresses zymosan-induced peripheral inflammation via activation of sympathetic post-ganglionic neurons. Brain Res 2007;1148:69-75.
  28. Li A, Zhang R-X, Wang Y. Corticosterone mediates electroacupuncture-produced anti-edema in a rat model of inflammation. BMC Complement Altern Med 2007;7:27.
  29. Berman BM, Lao L, Langenberg P, et al. Effectiveness of acupuncture as adjunctive therapy in osteoarthritis of the knee: a randomized, controlled trial. Ann Intern Med 2004;141:901-10.
  30. Kwon YD, Pittler MH, Ernst E. Acupuncture for peripheral joint osteoarthritis: a systematic review and meta-analysis. Rheumatology 2006;45:1331-7.
  31. Rapson LM, Wells N, Pepper J, et al. Acupuncture as a promising treatment for below-level central neuropathic pain: a retrospective study. J Spinal Cord Med 2003;26:21-6.
  32. Bardia A, Barton DL, Prokop LJ, et al. Efficacy of complementary and alternative medicine therapies in relieving cancer pain: a systematic review. J Clin Oncol 2006;24:5457-64.
  33. Alimi D, Rubino C, Pichard-Le´andri E, et al. Analgesic effect of auricular acupuncture for cancer pain: a randomized, blinded, controlled trial. J Clin Oncol 2003;21:4120-6.
  34. Filshie J, Hester J. Guidelines for providing acupuncture treatment for cancer patients—a peer-reviewed sample policy document. Acupunct Med 2006;24:172-82.
  35. Ezzo J, Richardson M, Vickers A, et al. Acupuncture-point stimulation for chemotherapy-induced nausea or vomiting. J Clin Oncol 2005;23:7188-98.
Posted on June 3, 2010 at 10:34pm