Evidence-based Complementary and Alternative Medicine

eCAM Advance Access originally published online on August 17, 2006
eCAM 2007 4(1):125-130; doi:10.1093/ecam/nel053

This Article Abstract Full Text (PDF) OA All Versions of this Article: 4/1/125    most recent nel053v1 E-letters: Submit a response Alert me when this article is cited Alert me when E-letters are posted Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Add to My Personal Archive Download to citation manager Google Scholar Articles by Qu, F. Articles by Zhou, J. Search for Related Content PubMed PubMed Citation Articles by Qu, F. Articles by Zhou, J. Social Bookmarking          What's this?

© 2006 The Author(s).
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commerical use, distribution, and reproduction in any medium, provided the original work is properly cited.

Electro-Acupuncture in Relieving Labor Pain

Fan Qu and Jue Zhou

Heilongjiang University of Chinese Medicine Harbin China

	Abstract

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
To study the efficacy of electro-acupuncture for the relief of labor pain, and to build a better understanding of how electro-acupuncture might influence the neuroendocrine system, 36 primiparas were randomly divided into an electro-acupuncture group and a control group. Assessments of pain intensity and degree of relaxation during labor were analyzed. The differences between the electro-acupuncture group and the control group on the concentration of ß-endorphin (ß-EP) and 5-hydroxytryptamine (5-HT) in the peripheral blood were compared. The electro-acupuncture group was found to exhibit a lower pain intensity and a better degree of relaxation than the control group (p = 0.018; p = 0.031). There existed a significant difference in the concentration of ß-EP and 5-HT in the peripheral blood between the two groups at the end of the first stage (p = 0.037; p = 0.030). Electro-acupuncture was found to be an effective alternative or complementary therapy in the relief of pain during labor. The benefit of electro-acupuncture for relieving labor pain may be based on the mechanism of producing a synergism of the central nervous system (CNS) with a direct impact on the uterus through increasing the release of ß-EP and 5-HT into the peripheral blood.

Keywords: electro-acupuncture – labor pain – ß-endorphin (ß-EP) – 5-hydroxytryptamine(5-HT)

	Background

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
Pain relief during labor is an essential aspect of obstetrical care. Presently, there is no standard method available that delivers excellent pain control without having adverse side effects on the mother or the fetus. Labor pain may cause anxiety and exhaustion to mothers in labor and can have a negative influence on the progress of labor. If more oxygen is administered then a high level of catecholamines may be observed in the placenta.

In recent years, there has been an increasing demand among parturients, especially with primiparas, for non-pharmacological analgesia during childbirth and many have expressed a willingness to receive electro-acupuncture treatment during childbirth. Although numerous positive descriptive and retrospective reports on acupuncture for reducing pain and suffering during labor have been published over the previous decades[1,2], it was not until 2002[3,4] and 2003[5] that the first 3 randomized controlled trials of acupuncture for pain relief in labor were published. The aim of this study was to investigate how electro-acupuncture affected labor pain and determine its possible mechanisms. That is, does electro-acupuncture affect labor pain and produce any mechanism of synergism within the central nervous system (CNS) through the increase of the release of ß-endorphin (ß-EP) and 5-hydroxytryptamine (5-HT) into the peripheral blood [6]. In addition, does electro-acupuncture have a direct impact on the uterus?

	Subjects and Methods

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
Subjects

The study was carried out during a 10-month period, between August 2004 and May 2005, in the first affiliated hospital of Heilongjiang University of Chinese Medicine. This auxiliary hospital has an average of 300 deliveries per year, although the main system has many-fold more. Ethical approval and permission to conduct the study were obtained from the Local Ethical Committee and the administration based on international guidelines. The aim and methodology of the study were explained to the patients. Voluntary participation was requested and informed consent was obtained. The inclusion criteria were a normal single pregnancy with a spontaneous onset of labor, cephalic presentation, a cervical dilatation <6 cm at admission, and gestational age ranging from 37–42 completed weeks. Exclusion criteria were diagnoses of diabetes, pre-eclampsia, hypertension, kidney disease, thrombocytopenia, psychological distress or anorexia, infectious blood disease, atopic eczema or psoriasis. Group selection of individual cases was randomized based on protocol assignments being given to the electro-acupuncture group or to the control group through a simplified numerical probability from manual selection. Cases were randomized and neither the doctors, midwives, nor the primiparas could predict the group allocation. The study was completed after 39 women were asked and all those asked were recruited. In the statistical analysis, 36 women were included. Three subjects were considered as missing cases, due to the inclusion criteria not being fulfilled, e.g. not spontaneous onset of labor, and no assessment made of pain intensity or degree of relaxation (Fig. 1).

View larger version (19K): [in this window] [in a new window] [Download PowerPoint slide]   Figure 1. Study design

 
Group and administration

1. Electro-acupuncture group: The acupuncture points used were Hegu (LI-4) and Sanyinjiao (SP-6) bilaterally. Treatment was started at the beginning of the active phase in the first stage of labor. Stainless steel filiform needles (gauge: 0.25mm diameter by 50mm long) were inserted into the acupoints to depth of 15 mm (Hegu), and 20 mm (Sanyinjiao). When the patients underwent a sore and distending sensation, the needles were retained for 2 mins. Then, the handles of the needles were respectively connected to the electro-acupuncture stimulation apparatus (Model G6805, Shanghai Medical Electronic Apparatus Co, China) at a frequency of 2–100 Hz and electric current of 14–30 mA (tolerable strength) with a dense-and-disperse wave form. The stimulation strength was increased gradually. The needles were removed after 20 minutes. When 7 cms to 8 cms of cervical dilatation was present, the procedure above was performed again.

2. Control group: The patients in the group were under natural vaginal delivery without pain-relief intervention.

A protocol was constructed to assess pain intensity and degree of relaxation throughout the labor. The assessments were consistently obtained every hour. The assessment was numerically based on an 11-point scale. Painless and well relaxed experiences were defined as 0, worst pain imaginable and very tense states were defined as 10. All data were collected and recorded by the midwife in charge of the delivery. At the beginning of the active phase and the end of the first stage, 3ml of blood was removed from the vena cubiti. After 30 minutes static rest, the blood samples were centrifuged at 3000 RPM for 10 minutes, and the resultant sera were kept under –80°C condition.

Detection index and method

A radioimmunoassay (RIA) method was used to detect 5-HT and ß-EP. 5-HT and ß-EP reagents were provided by Haikerui Biological Technology Company (Beijing, China) and Lianxing Biological Technology Company (Tianjin, China).

Data analysis

Results were analyzed by an independent university-based statistician. Data were analyzed using the computer software, Statistical Package for Social Sciences (SPSS 10.0 for Windows). To compare the differences of pain and relaxation score between electro-acupuncture group and control group, Mann-Whitney Test, (a kind of Two-Independent-Samples Tests of Nonparametric Test) was used. Comparison of serum ß-EP and 5-HT in the peripheral blood were calculated with Student's t test. For all hypothesis tests a 5% significance level (p < 0.05) and two-tailed tests were used. Ninety-five percent (95%) Mann-Whitney confidence intervals (CI) for the median difference between electro-acupuncture group and control group were determined.

	Results

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
Patient characteristics

The Patient characteristics prior to any intervention are listed in Table 1 and 2. No significant difference existed in the patient characteristics between the two groups prior to any intervention. The degree of the pain/relaxed is from 0–10.0 defined as no pain/quite relaxed; 10 defined as worst pain imaginable/extremely tensed. The randomization in the study was successful due to the similarity of the sample data (p = 0.767; p = 0.791).

View this table: [in this window] [in a new window]   Table 1. Characteristics of the primiparas participating in the study

 

View this table: [in this window] [in a new window]   Table 2. Ranks:Pain assessment and degree of relaxation at admission (prior to any intervention)

 
Ratings of in-labor pain and relaxation

Ratings of in-labor pain and relaxation in the two groups are shown in Table 3. During labour, the electro-acupuncture group assessed a lower pain intensity and a better degree of relaxation than the control group as there existed significant difference between them (p = 0.018; p = 0.031).

View this table: [in this window] [in a new window]   Table 3. Ranks: Rating of in-labor pain and relaxation in the two groups

 
Serum ß-EP

Comparison of serum ß-EP between the two groups is shown in Table 4. No significant difference was found between electro-acupuncture group and control group in ß-EP concentration in the peripheral blood at the beginning of the active phase (p = 0.695). However, at the end of the first stage, there existed significant difference in the concentration of ß-EP in the peripheral blood between the two groups (p = 0.037).

View this table: [in this window] [in a new window]   Table 4. Group Comparison: ß-EP (ng/ml)

 
Serum 5-HT

Comparison of serum 5-HT between the two groups is shown in Table 5. No significant difference was found between electro-acupuncture group and control group in 5-HT concentration in the peripheral blood at the beginning of the active phase (p = 0.474). However, at the end of the first stage there existed significant difference in the concentration of 5-HT in the peripheral blood between the two groups (p = 0.030).

View this table: [in this window] [in a new window]   Table 5. Group Comparison: 5-HT (ng/ml)

 

	DISCUSSION

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
Pain during labor is usually defined as an unpleasant sensory and emotional experience. Electro-acupuncture is a method which now is increasingly being used in China and some other countries. No undesirable side-effect has been observed and it is thought that electro-acupuncture could be an alternative to other methods of pain relief during labor.

Selection of acupoints

In ancient acupuncture practice, Hegu (LI-4) and Sanyinjiao (SP-6) were listed as forbidden acupoints for pregnant women due to their oxytocic effects[7]. The forbidden acupoints for pregnant women were indicated even in the most ancient extant book on acupuncture[7], the Su Wen (Essential Questions) of the Huang Di Nei Jing (The Yellow emperor's Internal Medicine) in which an entire chapter is devoted to this topic. Huang Fu Mi's Zhen Jiu Jia Yi Jing (The systematic Canon of Acupuncture and Moxibustion), 3rd century AD lists 24 points of forbidden to acupuncture and moxibustion, and Yang Ji-Zhou's Zhen Jiu Da Chen (The Great Compendium of Acupuncture and moxibustion) [7] was published in 1602 AD. Yang Ji-Zhou summarized the forbidden points in two odes[7]. :Jin Jiu Xue Ge (Ode to the Forbidden Points for Moxibustion) which lists 45 points, and Jin Zhen Xue Ge (Ode to the Forbidden Points for Needling) which lists 32 points. Modern experiments[8-10] have shown that Hegu (LI-4) has a dual effect on the uterine smooth muscle through the regulation of the CNS. Acupuncture on Sanyinjiao (SP-6) which lies within the innervation of L4, can excite the spinal central nerves by stimulating the somatic sensory nerve fibers and by exciting the pelvic neuroplex through sympathetic nerves, resulting in contraction of uterus [9,10]. The pain during labor is mainly caused by uterine contractions. Both Hegu (LI-4) and Sanyinjiao (SP-6) have an effect on the contraction of uterus. Needling the two points can produce the rhythmic coordination of the uterus muscles during the oxytocic process and neuroendocrine alteration[9–15].

Optimal conditions for eliciting maximal electro-acupuncture analgesia with dense-and- disperse wave form

According to the thousand years of experience in acupuncture practice, it is known that different manners of needle manipulation may produce different therapeutic effects, though the scientific mechanisms remain unknown [7]. Some studies[16–25] have indicated that analgesia produced by electro-acupuncture of different frequencies are mediated by different varieties of opioids in the spinal cord: low frequency (2Hz) electro-acupuncture analgesia is mediated by enkephalin and high frequency (100Hz) electro-acupuncture analgesia by dynorphin. Enkephalin and ß-EP were mixed µ and opioid receptor agonists as the endomorphin was considered as the pure µ opioid receptor agonist [17] and dynorphin the relatively pure opioid agonist [18]. Study [19] has suggested that the analgesia induced by 2 Hz electro-acupuncture was mediated by the µ receptor and that of 100 Hz electro-acupuncture by opioid receptors. This conclusion was verified later by the use of subtype specific opioid receptor antagonists[20]. The direct evidence [21]was obtained by measuring the neuropeptide release in the CNS triggered by electro-acupuncture of different frequencies. Results have shown that 2 Hz electro-acupuncture produced a 7 fold increase in enkephalin but not dynorphin. In contrast, 100 Hz electro-acupuncture produced a 2 fold increase in the release of dynorphin but not enkephalin. Further studies have shown that ß-EP [22] and endomorphin [23] share similar characteristics of a stimulation-induced release profile as enkephalin, i.e. preferable to 2 Hz stimulation, leaving dynorphin as the only opioid peptide responsive to high-frequency stimulation and there was a general consensus that µ and opioid receptor agonists possess an analgesic effect [24,25]. These results were primarily obtained in animals and recently verified in humans. One could thus anticipate that if low-frequency stimulation appears alternately with high-frequency stimulation, both enkephalin and dynorphin will be released successively or simultaneously to produce a more potent analgesic effect via a synergistic interaction between the opioid peptides.

ß-EP, 5-HT and the mechanism of electroacupuncture for relieving labour pain

ß-EP and 5-HT are both neurotransmitters of CNS, which interact with each other and have relationship with the transmission of peripheral pain and contraction of the uterus. Selection of them is based on observed indexes.

ß-EP is derived from proopiocortin, in the anterior pituitary gland and is released into the circulation under conditions of pain and stress. The concentration of this increases during unmedicated labor. Abboud et al. [26] measured concentrations of ß-EP in non-pregnant healthy women, and among two groups of women in established labor: one prior to and after epidural analgesia, and the other before and after saline. ß-EP concentration decreased by 50% in those who received epidural analgesia whereas there was no significant change in those who received saline. The finding suggests that labor pain is an important factor in causing ß-EP release during labor. Thomas [27] et al also found that serum ß-EP concentration increased during labor and the increase was significantly greater among women who received nitrous oxide than those who received intramuscular pethidine or epidural analgesia.

Studies have demonstrated that acupuncture-mediated analgesia is modulated through a central mechanism involving neurohumoral pathways. The stimulation of the acupuncture point by needling, selectively activates myelinated nerve fibers [28–30]. This subsequently results in the activation of certain neurons in the spinal cord and supraspinal regions, including neurons in the deep layers of spinal dorsal horn, [31–33] the nucleus raphe magnus in the brain stem,[34] and the hypothalamus and thalamus [35,36]. These neurons modulate pain by inhibiting neurons located at the superficial layer of the dorsal horn and small unmyelinated fibers [31,33,37] as well as releasing neurotransmitters, such as ß-EP and 5-HT [38-48].

Opioid peptides bind to their receptors on central neurons and produce analgesic effects [49]. However, whether, and to what extent, the peripheral release of opioids plays a role in acupuncture analgesia has not been investigated. Two lines of evidence suggest that acupuncture-induced peripheral opioid release is possible. First, acupuncture has been shown to modulate immunological activities,[50–58] and immune cells are a key component of the peripheral opioid system. Second, central opioid mechanisms do not explain why needling an acupuncture point adjacent to a painful area, a common clinical practice, is generally more effective in relieving pain than needling remote areas, a phenomenon that is consonant with the presence of a localized analgesic mechanism. Endogenous morphine release has been described as a possible mechanism of acupuncture-mediated analgesia [59]. This is confirmed by our data.

Electro-acupuncture relieves pain through regulation of CNS and contraction of the uterus

Clinical research has shown that after electro-acupuncture, the release of ß-EP into the peripheral blood improved and patients' labor pain was alleviated. The release of ß-EP represents a natural mechanism for the modulation of stress. ß-EP can antagonize and coordinate contraction of uterus caused by oxytocin. The increased release of ß-EP into the peripheral blood after electro-acupuncture, which is greater than natural vaginal delivery, activates an endogenous analgesia system and lessens the afferent sign of labor pain and increases the tolerance to labor pain. One might then believe that increasing the release of ß-EP into the peripheral blood is one mechanism of the electro-acupuncture in relieving labor pain. It is through regulating the CNS and the contraction of uterus that ß-EP plays a significant role in relieving labor pain with electro-acupuncture.

5-HT functions through the CNS to relieve labor pain with electro-acupuncture

Prior to the discovery of endogenous opioids, Han [60] focused on various candidate neurotransmitters including monoamines, and found that 5-HT was most important among classical neurotransmitters for the mediation of acupuncture analgesia. 5-HT is released from platelets due to tissue damage or ischemia and participates in pain mediation via the 5-HT₃ receptor. A previous study [61] has shown that high levels of 5-HT in the masseter muscle was associated with pain and allodynia/hyperalgesia in patients with chronic myalgia. It also seems that circulating 5-HT may be involved in determining the mechanical pain threshold over healthy muscles, since a high level of 5-HT was associated with a low pressure pain threshold (PPT) in healthy subjects [62]. Electro-acupuncture can increase the concentration of 5-HT in peripheral blood and the CNS, as electro-acupuncture can improve the concentration of tryptophane in blood which is a necessary precursor to combine 5-HT. As a consequence, this improves the permeability of blood-brain barrier [63]. The study has shown that it is through the CNS that 5-HT functions in relieving labor pain with electro-acupuncture.

	Conclusions

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 
The electro-acupuncture group was found to exhibit a lower pain intensity and a better degree of relaxation than the control group and electro-acupuncture can improve the concentration of ß-EP and 5-HT in the peripheral blood. The effect of electro-acupuncture for relieving labor pain may be produced by the synergism of CNS through increasing the release of ß-EP and 5-HT into the peripheral blood, and that there is a direct impact of electro-acupuncture on the uterus.

Electro-acupuncture may provide an effective alternative to pharmacological as well as non- pharmacological labor pain relief. It may be useful for those women who want to avoid or delay pain medications or in settings where pain medications are not available or cost prohibitive.

	Footnotes

 
For reprints and all correspondence: Fan Qu, Jue Zhou, Heilongjiang Institute of Water Resources and Hydropower No.78-1 in Yanxing Road, Nangang District, Harbin, Heilongjiang Province, 150080 China. Tel: +86-13796069683; Email: qufan43{at}yahoo.com.cn

	Acknowledgments

 
The authors wish to thank the midwives and the primiparas included in the research, as well as the assisting staff of the first affiliated hospital of Heilongjiang University of Chinese Medicine.

The authors would like to give their deep thanks to R. PAUL FETHERSTON, M.S.O.M (Midwest College of Oriental Medicine, Racine, Wisconsin, U.S.A) and RUI NAN, M.D. (Denver College of Traditional Chinese medicine, Denver, Colorado, U.S.A) for their reviews of this paper.

FAN QU and JUE ZHOU are respectively funded by the Innovation Research Foundation for Ph.D. by the government of Heilongjiang Province, China.

	References

Top Abstract Background Subjects and Methods Results DISCUSSION Conclusions References

 

1. Ayman A and Olah K. ( 2002;) The sharp end of medical practice: the use of acupuncture in obstetrics: Acupuncture and gynaecology. Br J Obstet Gynaecol 109:: 1–4.
2. Ternov N, Buchhave P, Svensson G, Akeson J. ( 1998;) Acupuncture during childbirth reduces use of conventional analgesia without major side effects: A retrospective study. Am J Acupuncture 26:: 233–9.
3. Skilnand E, Fossen D, Heiburg E. ( 2002;) Acupuncture in the management of pain in labor. Acta Obstet Gynecol Scand 81:: 943–8.[CrossRef][ISI][Medline]
4. Ramnero A, Hanson U, Kihlgren M. ( 2002;) Acupuncture treatment during labour—a randomized controlled trial. Br J Obstet Gynaecol 109:: 637–44.
5. Nesheim B, Kinge R, Berg B, Alfredsson B, Allgot E, Hove E, et al. ( 2003;) Acupuncture during labor can reduce the use of meperidine: A controlled clinical study. Clin J Pain 9:: 187–91.
6. Ma SX. ( 2004;) Review:Neurobiology of Acupuncture: Toward CAM,Evidence-based Complementary and Alternative Medicine. 1::1 41–47.
7. Huang LX. ( 1997;) Series of ancient classics on Acu-moxibustion Science. (Hua-xia press, Beijing, China).
8. Liu JY, Bian DL, Han Y, et al. ( 2005;) Progress of acupuncturing Hegu (LI 4) during labour Chinese Journal of Information on TCM. 12::5 108–110 Yang ZX Treatment with acupuncturing at Hegu and Sanyinjiao, Zejiang Journal of Chinese Medicine, 2004, (10):445–446.
9. Yang ZX. ( 2004;) Treatment with acupuncturing at Hegu and Sanyinjiao, Zejiang Journal of Chinese Medicine. 10:: 445–446.
10. Yang ZX. ( 2002;) Clinical experience in treating diseases with acupuncturing at Hegu and Sanyinjiao Zejiang Journal of Sichuan of Traditional Chinese Medicine. 20::7 75–76.
11. Jin CL and Zhu J. ( 2005;) On the prohibition of acupuncture of Hegu (LI 4) and Sanyinjiao (SP 6) during pregnancy, Acupuncture Research. 30::3 187–190.
12. Zhu J, Wang MQ, Zhang LF, et al. ( 2003;) Effects on uterine contraction of electroacupuncturing Hegu and Sanyinjiao with electric needles in the rats in pregnancy at late stage. Journal of Beijing University of Chinese Medicine 26::2 73–75.
13. Zhong JY and Cui HS. ( 2005;) Review of clinical researches on acupuncturing Hegu (LI 4) and Sanyinjiao (SP 6) during labour Journal of Yunnan College of Traditional Chinese Medicine. 28::2 64–66.
14. Wang MQ, Zhu J, Zhang LF, et al. ( 2003;) Experimental study on the mechanism of electroacupuncture at LI 4 and SP 6 points for promoting labor China Acupuncture. 23::10 593–596.
15. Li XH, Ma WZ, Xu SY. ( 1996;) Clinical research on the effect of acupoints of Hegu, Sanyinjiao on the first labour stage. Journal of Beijing University of Chinese Medicine 11::9 38.
16. Chen XH, Guo SF, Chang Chung G, et al. ( 1994;) Optimal conditions for eliciting maximal electroacupuncture analgesia with dense-and disperse mode stimulation American Journal of Electroacupuncture. 22::1 47–53.
17. Zadina JE, Hackler L, Ge AJ, et al. ( 1997;) Kastin, A potent and selective endogenous agonist for the µ-opiate receptor, Nature. 386:: 499–501.
18. Chavkin LF and James A. ( 1982;) Goldstein, Dynorphin is a specific endogenous legend of the -opioid receptor, Science. 215:: 413–415.
19. Han JS, Ding XZ, Fan SG. ( 1986;) The frequency as the cardinal determinant for electroacupuncture analgesia to be reversed by opioid antagonists, Acta Physiol. Sin 38:: 475–482.
20. Chen XH and Han JS. ( 1992;) All three types of opioid receptors in the spinal cord are important for 2/15 Hz electroacupuncture analgesia, Eur. J Pharmacol 211:: 203–210.
21. Fei H, Xie GX, Han JS. ( 1987;) Low, high frequency electroacupuncture stimulation release met-enkephalin and dynorphin A in rat spinal cord, Sci. Bull. China 32:: 1496–1501.
22. He CM and Han JS. ( 1990;) Attenuation of low rather than high frequency electroacupuncture analgesia following microinjection of beta-endorphin antiserum into the periaqueductal gray in rats, Acupunct. Sci Int J 1:: 19–27.
23. Han Z, Jiang YH, Wan Y, et al. ( 1999;) Endomorphin-1 mediates 2 Hz but not 100 Hz electroacupuncture analgesia in the rat, Neurosci. Lett 274:: 75–78.
24. Han JS and Xie CW. ( 1982;) Dynorphin: potent analgesic effect in spinal cord of the rat. Life Sci 31:: 1781–1784.[CrossRef][ISI][Medline]
25. Han JS and Xie GX. ( 1984;) Dynorphin: important mediator for electroacupuncture analgesia in the spinal cord of the rabbit, Pain. 18:: 367–376.
26. Abboud TK, Sarkis F, Hung TT, et al. ( 1983;) Effects of epidural anesthesia during labour on maternal plasma beta-endorphin level. Anesthesiology 59:: 1–5.[ISI][Medline]
27. Thomas TH, Fletcher JE, Hill RG. ( 1982;) Influence of medication, pain and progress in labour on plasma beta-endorphin-like immunoreactivity. Br J Anaesth 54:: 401–408.[Abstract/Free Full Text]
28. Pomeranz B. ( 2001;) Acupuncture analgesia-basic research. In Stux G and Hammerschlag R (Eds.). Clinical Acupuncture Scientific Basis (Springer-Verlag, Berlin, Heidelberg, New York).
29. Sim J. ( 1997;) The mechanism of acupuncture analgesia: a review. Com Ther Med 5:: 102–111.
30. Grant GZ, Yu CS, Lee WL, Ren LX. ( 2005;) Brian M.Involvement of peripheral opioid mechanisms in electroacupuncture analgesia Explore. 1::5 366–371.
31. Lao L, Zhang G, Wei F, Berman BM, Ren K. ( 2001;) Electroacupuncture attenuates hyperalgesia and modulates Fos protein expression in rats with unilateral persistent inflammation. J Pain 2:: 111–117.[CrossRef][ISI][Medline]
32. Lao L, Zhang RX, Zhang G, Wang X, Berman B, Ren K. ( 2004;) A parametric study of electroacupuncture on persistent hyperglasia and Fos protein expression in rats. Brain Res 1020:: 18–29.[CrossRef][ISI][Medline]
33. Zhang RX, Lao L, Wang L, et al. ( 2004;) Involvement of opioid receptors in electroacupuncture-produced antihyperalgesia in rats with peripheral inflammation. Brain Res 1020:: 12–17.[CrossRef][ISI][Medline]
34. Toda K. ( 1982;) Response of raphe neurons after acupuncture stimulation in rat. Brain Res 242:: 350–353.[CrossRef][ISI][Medline]
35. Takeshige C, Sato T, Mera T, Hisamitru T, Fang JQ. ( 1992;) Descending pain inhibitory system invovled in acupuncture analgesia. Brain Res Bull 29:: 617–634.[CrossRef][ISI][Medline]
36. Takeshige C, Oka K, Mizuno T, et al. ( 1993;) The acupuncture point and its connecting central pathway for producing acupuncture analgesia. Brain Res Bull 30:: 53–67.[CrossRef][ISI][Medline]
37. Liu X, Zhu B, Zhang SX. ( 1986;) Relationship between electroacupuncture analgesia and descending pain inhibitory mechanism of nucleus raphe magnus. Pain 24:: 383–396.[CrossRef][ISI][Medline]
38. Pomeranz B and Chiu D. ( 1976;) Naloxone blocks acupuncture analgesia and causes hyperalgesia: endorphin is implicated. Life Sci 19:: 1757–1762.[CrossRef][ISI][Medline]
39. Cheng RS, Pomeranz B, Yu G. ( 1979;) Dexamethaxone partially reduces and 2% saline treatment abolished electroacupuncture analgesia: these finding implicate pituitary endorphins. Life Sci 24:: 1481–1486.[CrossRef][ISI][Medline]
40. Cheng RS and Pomeranz B. ( 1979;) Electro-acupuncture analgesia could be mediated by at least two pain-relieving mechanisms: endorphin and non-endorphin systems. Life Sci 25:: 1957–1962.[CrossRef][ISI][Medline]
41. Han JS, Tang J, Ren MF, et al. ( 1980;) Central neurontrasmitters and acupuncture analgesia. Am J Chin Med 8:: 331–348.[CrossRef][ISI][Medline]
42. Han JS, Xie GX, Zhou ZF, Folkesson R, Terenius L. ( 1982;) Enkephalin and B-endorphin as mediators of electroacupuncture analgesia in rabbits: an antiserum microinjection study. Adv Biochem Pharmacol 33:: 369–377.
43. Han JS. ( 1987;) The Neurochemical Basis Of Pain Relief By Acupuncture. (Chinese Medical and Technology Press, Beijing).
44. Mayer JD, Price DD, Rafii A. ( 1977;) Antagonism of acupuncture analgesia in man by the narcotic antagonist naloxone. Brain Res 21:: 368–372.
45. Chen XH, Geller EB, Adler MW. ( 1996;) Electrical stimulation at traditional acupuncture sites in periphery produces brain opioid-receptor- mediated antinociception in rats. J Pharm Exp Ther 277:: 654–660.[Abstract/Free Full Text]
46. Ku YH and Zou CJ. ( 1993;) beta-Endorphinergic neurons in nucleus arcuatus, and nucleus tractus solitarii mediated depressor-bradycardia effect of "Tinggong" 2Hz-electroacupuncture. Acupuncture, Electro-Ther Res 18:: 175–84.[Medline]
47. Guo HF, Tian J, Wang X, et al. ( 1996;) Brain substrates activated by electroacupuncture of different frequencies (I): comparative study on the expression of oncogene c-fos and genes coding for three opioid peptides. Mol Brain Res 43:: 157–166.[Medline]
48. Sjflund BH, Terenius L, Ericksson M. ( 1977;) Increased cerebrospinal fluid levels of endorphins after electro-acupuncture. Acta Physiol Scand 100:: 382–384.[ISI][Medline]
49. Pasternak GW. ( 1993;) Pharmacological mechanisms of opioid analgesics. Clin Neuropharma 16:: 1–18.
50. Bianchi M, Jotti E, Sacerdote P, Panerai AE. ( 1991;) Traditional acupuncture increases the content of endorphin in immune cells and influences mitogen induced proliferation. Am J Chin Med 19:: 101–104.[CrossRef][ISI][Medline]
51. Chen XD, Wu GC, He QZ, et al. ( 1997;) Effect of continued electroacupuncture on induction of interleukin-2 production of spleen lymphocytes from the injured rats. Acup Electro-Ther Res 22:: 1–8.
52. Kasahara T, Wu Y, Sakurai Y, Oguchi K. ( 1992;) Suppressive effect of acupuncture on delayed type hypersensitivity to trinitrochlorobenzene and involvement of opiate receptors. Int J Immunophar 14:: 661–665.
53. Liu X, Sun L, Xiao J, et al. ( 1993;) Effect of acupuncture and point-injection treatment on immunologic function in rheumatoid arthritis. J Trad Chin Med 13:: 174–178.[Medline]
54. Yu Y, Kasahara T, Sato T, et al. ( 1997;) Enhancement of splenic interferongamma, interleukin-2, and NK cytotoxicity by S36 acupoint acupuncture in F344 rats. Jpn J Physiol 47:: 173–178.[CrossRef][ISI][Medline]
55. Yuan J and Zhou R. ( 1993;) Effect of acupuncture on T-lymphocyte and its subsets from the peripheral blood of patients with malignant neoplasm. Chen Tzu Yen Chiu Acupunct Res 18:: 174–177.
56. Zhao X. ( 1995;) Effect of HC-3 on electroacupuncture-induced immunoregulation. Chen Tzu Yen Chiu Acupunct Res 20:: 59–62.
57. Zhao J, Zhao X, Liu W, et al. ( 1995;) The role sympathetic mechanism in the effect of electroacupuncture on immunoregulation. Chen Tzu Yen Chiu Acupunct Res 20:: 40–43.
58. Zhao R, Ma C, Tan L, et al. ( 1994;) The effect of acupuncture on the function of macrophages in rats of immunodepression. Chen Tzu Yen Chiu Acupunct Res 19:: 66–68.
59. Sodipo JO, Gilly H, Pauser G. ( 1981;) Endorphins: Mechanism of acupuncture analgesia. Am J Chin Med 9:: 249–58.[CrossRef][Medline]
60. Han JS, Chou PH, Lu CH, et al. ( 1979;) The role of central 5-HT in acupuncture analgesia. Sci. Sin. 22 91–104.
61. Ernberg M, Hedenberg-Magnusson B, Alstergren P, Kopp S. ( 1999;) The level of serotonin in the superficial masseter muscle in relation to local pain and allodynia. Life Sci 65:: 313–25.[CrossRef][ISI][Medline]
62. Ernberg M, Alstergren P, Lundeberg T, Kopp S. ( 2000;) Plasma and serum serotonin levels and their relation to orofacial pain and anxiety in fibromyalgia. J Orofac Pain 14:: 37–46.[ISI][Medline]
63. Liu XN. ( 2002;) The effect of electroacupuncture on the BBB of rats with ischemia. Journal of Mudanjiang Medical University 23::2 1–4.

Received October 12, 2005; accepted July 5, 2006

CiteULike    Connotea    Del.icio.us    What's this?

This article has been cited by other articles:

				Y.-C. P Arai, T. Ushida, T. Matsubara, K. Shimo, H. Ito, Y. Sato, Y. Wakao, and T. Komatsu The Influence of Acupressure at Extra 1 Acupuncture Point on the Spectral Entropy of the EEG and the LF/HF Ratio of Heart Rate Variability Evid. Based Complement. Altern. Med., September 30, 2008; (2008) nen061v1. [Abstract] [Full Text] [PDF]

				K. Okada and K. Kawakita Analgesic Action of Acupuncture and Moxibustion: A Review of Unique Approaches in Japan Evid. Based Complement. Altern. Med., August 27, 2007; (2007) nem090v1. [Abstract] [Full Text] [PDF]

This Article Abstract Full Text (PDF) OA All Versions of this Article: 4/1/125    most recent nel053v1 E-letters: Submit a response Alert me when this article is cited Alert me when E-letters are posted Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Add to My Personal Archive Download to citation manager Google Scholar Articles by Qu, F. Articles by Zhou, J. Search for Related Content PubMed PubMed Citation Articles by Qu, F. Articles by Zhou, J. Social Bookmarking          What's this?

Online ISSN 1741-4288 - Print ISSN 1741-427X

Copyright © 2005 Oxford Journals

Oxford Journals Oxford University Press

• Site Map
• Privacy Policy
• Frequently Asked Questions

Other Oxford University Press sites: Oxford University Press Oxford Journals Japan American National Biography Booksellers' Information Service Children's Fiction and Poetry Children's Reference Corporate & Special Sales Dictionaries Dictionary of National Biography Digital Reference English Language Teaching Higher Education Textbooks Humanities International Education Unit Law Medicine Music Online Products Oxford English Dictionary Reference Rights and Permissions Science School Books Social Sciences Very Short Introductions World's Classics