Journal of Acupuncture Research

  • 제17권2호
  • /
  • Pages.95-117
  • /
  • 2000
  • /
  • 2586-288X(pISSN)
  • /
  • 2586-2898(eISSN)
대한침구의학회 (Korean Acupuncture & Moxibustion Medicine Society)
권호 표지

대장(大腸)과 관련(關聯)된 경혈(經穴)들의 신경해부학적(神經解剖學的) 연구(硏究)

Neuroanatomical Studies on the Acupoints Related to the Large Intestine

  • 강창수 (우석대학교 한의과대학 경혈학교실) ;
  • 이상룡 (우석대학교 한의과대학 경혈학교실) ;
  • 이창현 (우석대학교 한의과대학 해부학교실) ;
  • 남용재 (우석대학교 한의과대학 한방병리학교실) ;
  • 이광규 (우석대학교 한의과대학 한방병리학교실)
  • Kang, Chang-Soo (Department of Meridianology college of Oriental Medicine, Woosuk University) ;
  • Lee, sang-ryoung (Department of Meridianology college of Oriental Medicine, Woosuk University) ;
  • Lee, Chang-Hyun (Department of Anatomy college of Oriental Medicine, Woosuk University) ;
  • Nam, Yong-Jae (Department of Oriental pathology college of Oriental Medicine, Woosuk University) ;
  • Lee, Kwang-Gyu (Department of Oriental pathology college of Oriental Medicine, Woosuk University)
  • 발행 : 2000.06.20
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

The purpose of this morphological studies was to investigate the relation between the meridian, acupoints and viscera using neuroanatomical tracers. The common locations of the spinal ganglia, sympathetic chain ganglia, spinal cord and brain projecting to the large intestine meridian were observed following injection of transganglionic tracer, WGA-HRP and transsynaptic neurotropic virus, pseudorabies virus(PRV), Bartha strain(Ba) and PRV-Ba-Gal (Galactosidase)) into the the large intestine(cecum, colon and rectum), ST37 and LI4. After survival times of 96 hours following injection into the thirty rats with WGA-HRP, PRV-Ba and PRV-Ba-Gal. They were perfused, and their spinal ganglia, sympathetic chain ganglia, spinal cord and brain were frozen sectioned($30{\mu}m$). These sections were stained by HRP and X-gal histochemical and PRV immunohistochemical staining method, and observed with a light microscope. The results were as follows : 1. WGA-HRP labeled neurons innervating the large intestine were observed bilaterally within the T13-L4 sympathetic chain ganglia, and T9-11 spinal ganglia. WGA-HRP labeled neurons innervating ST37 were observed within the L3-5 sympathetic chain ganglia, and L2-4 spinal ganglia. WGA-HRP labeled neurons innervating LI4 were observed in the middle cervical ganglion and stellate ganglion, and C5-8 spinal ganglia. 2. In spinal cord, PRV-Ba labeled neurons projecting to the large intestine, ST37 and LI4 were found in thoracic, lumbar and sacral spinal segments. Densely labeled areas of each spinal cord segment were founded in lamina N, V, VII(intermediolateral nucleus), Ⅸ, X and dorsal nucleus. 3. In medulla oblongata, PRV-Ba and PRV-Ba-Gal labeled neurons projecting to the large intestine, ST37 and LI4 were commonly found in the A1 noradrenalin cells/C1 adrenalin cells/caudoventrolateral reticular nucleus, dorsal motor nucleus of vagus nerve, nucleus tractus solitarius, raphe obscurus nucleus, raphe pallidus nucleus, raphe magnus nucleus and gigantocellular nucleus. 4. In pons, PRV-Ba and PRV-Ba-Gal labeled neurons were commonly found in locus coeruleus, Kolliker-Fuse nucieus and A5 cell group. 5. In midbrain, PRV-Ba and PRV-Ba-Gal labeled neurons were commonly found in central gray matter. 6. In diencephalon, PRV-Ba and PRV-Ba-Gal labeled neurons were commonly found in paraventricular hypothalamic nucleus. These results suggest that PRV-Ba and PRV-Ba-Gal labeled common areas projecting to the large intestine may be correlated to that of the large intestine meridian, ST37 and LI4. Especially, These morphological results provide that interrelationship of meridian-acupoints -viscera may be related to the central autonomic pathways.

키워드

과제정보

연구 과제 주관 기관 : 우석대학교

참고문헌

  1. 韓醫學 原論 金完熙
  2. 問答式 韓醫學 槪論 申天浩
  3. Am J Chin Med v.4 no.2 Acupuncture loci Gunn GC
  4. Am J Chin Med v.8 no.2 Anatomical findings at acupuncture loci Plummer JC
  5. 鍼灸學(上) 全國韓醫科大學 鍼灸學校室
  6. Clincical neuroanatomy for medical students. Snell RS
  7. Brain Res v.8 The central distribution of the cervical vagus nerve and gastric afferent and efferent projectons in the rat. Leslie RS;Gwyn DG;Hopkins DA
  8. J Comp Neurol v.234 The central neural connections of the area postrema of the rat. Shapiro RE;Miselis RR
  9. J Comp Neurol v.238 The central organization of the vagus nerve innervating the stomach of the rat. Shapiro RE;Miselis RR
  10. J Neurosci v.9 no.6 Ultrastructural demonstration of a gastric monosynaptic vagal circuit in the nucleus of the solitary tract in rat. Rinaman L;Card JP;SChwaber JS;Miselis RR
  11. Brain Res v.365 The medial frontal cortex and gastric motility:microstimulation results and their possible signification for the overall pattern of organization of rat frontal and parietal cortex. Hurley-Gius KM;Neafsey EJ
  12. Brain Res v.486 Nucleus raphe obscurus(nRO) influences vagal control of gastric motility in rats McCann MJ;Hermann GE;Rogers RC
  13. J Autonomic Nerv Sys v.30 Activation of the bed nucleus of the striaterminalis increases gastric motility in the rat. Hermannn GE;McCann MJ;Rogers RC
  14. J Neurosci v.10 no.6 Neurotuopic properties of pseudorabies virus:Uptake and transneuronal passage in the rat central nervous system. Card JP;Rinaman L;Schwaber JS;Miselis RR;Whealy ME;Robbins AK;Enquist LW
  15. Brain Res v.491 CNS cell groups regulating the sympathetic outflow of the adrenal gland as revealed by transneuronal cell body labeling with pseudorabies virus. Strack AM:Loewy AD
  16. 대한해부학회지 v.26 no.3 Pseudorabies 바이러스를 이용한 흰쥐 자궁의 신경지배에 관한 연구 이봉희;최완성;조경제;권해영;배지홍;송준경;이홍식;백상호
  17. 석사학위논문 足少陽擔經에서 투사되는 신경원의 표지부위에 대한 연구 김정영
  18. 석사학위논문 足太陽膀胱經에서 투사되는 신경원의 표지부위에 대한 연구 전홍재
  19. J Histochem Cytochem v.26 Tetramethyl Benzidine for horseradish peroxidase neurohistochemistry:A non-carcinogenic blue reaction product with superior sensityivity for visualizing ,neural afferents and efferents. Mesulam MM
  20. Gene v.47 Vaccina virus vectors utilizing the B-galactosidase assay for rapid selection of recombinant viruss and measurement of gene expression, gene expression Panicali D;Grazelecki A;Huang C;
  21. 問答式 韓醫學 槪論 申天浩
  22. 中醫臟象學 王 琦
  23. 中醫基礎理論 印會河;張白訥
  24. 東醫生理學講義 류도곤
  25. 동의병리학 전국한의학대학 한방병리학교실
  26. 장부증상감별진단 이광규
  27. 生理學 성호경;이종흔;김기환;조경우;엄융의;엄대용;김중수;김전
  28. J Physiol v.337 Somatic and visceral inputs to the thoracic spinal cord of the cat:Effects of noxious stimulation of the biliary system Cervero F
  29. J Physiol v.322 Two group of spinal interneurons that respond to stimulation of the abdominal viscera of the cat MaMahon SB;Morrison JFB
  30. Q J Exp Physiol v.50 Reflex effects of slow bladder filling on the blood pressure in cats. Taylor DFM
  31. J Physiol v.290 Vesicosympathetic reflexes mediated by hypogastric nerve afferents in the cat Hick VE
  32. J Physiol v.243 The internal anal sphincter in the cat: a study of nervous mechanics affecting tone and reflex activity Garrett JR;Howard ER;Jones W
  33. J Physiol v.140 The effects of stimulation of visceral afferent nerve fibers on somatic reflexes Evans MH;$M_C$pherson A
  34. J Neurosci v.4 Tonic vasonmotor control by the rostral ventrolateral medulla:Effect of electrical or chemical stimulation of Cl adrenaline containing neurons on arterial pressure, heart rate and plasma catecholamines and vasopressin Ross Ca;Ruggiero DA:Park DH;Joh TH;Sved AF;Fernandez-Pardol J;Saavedra JN;Reis DJ
  35. J Neurophysiol v.53 Axonal projection patterns ventrolateral medullospinal sympatheticatory neurons Barman SM;Gebber GL
  36. Brain Res v.83 Ascending axon degeneration following anterolateral cordotomy:An exlperimental study in the monkey. Mehler WR;Feferman ME;Nauta WJH
  37. Brain Res v.117 Direct hypothalamo-autonomic connections. Saper CB;Loewey AD;Swanson LW;Cowan WM
  38. Brain Res v.460 Anatomical evidence that hypertension associated with the defence reaction in the cat is mediated by a direct lprojenction from a restricted portion of the midbrain periaqueductal grey to the subretrofacial nucleus of the medulla Carrive P;Bandler R;Dampney RAL
  39. Brain Res v.303 Baroreceptor mediated inhibition of A5 noradrenergic neurons Guyenet PG
  40. J comp Neurol v.259 Organization of central adrenergic pathway. I. Relaitonships of ventrolateral medullary profections to the hypothalamus and spinal cord. Tucker DC;Saper CB;Ruggiero DA;Reis DJ
  41. J Comp Neurol v.242 Projections from the nucleus tractus solitarii the rostral ventrolateral meulla Ross CA;Ruggiero DA;Reis DJ
  42. AM J Physiol v.258 Inhibition of rostral VLM By baroreceptor activation os relayed through caudal VLM. Agarwal SK;Gelsema AJ;Calaresu FR
  43. Brain Res v.555 Momosynaptic connection from caudal to rostral ventrolateral medulla in baroreceptor reflex pathway. Agarwal SK;Calaresu FR
  44. J Comp Neurol v.181 Nuclei of the solitary tract:Efferents projections to the lover brain stem and spinal cord. Loewy AD;Burton H
  45. Brain Res v.153 Anatomical evidence of direct projections fromthe nucleus of the solitary tract to the hypothalamus, amygdala and other forebrain structures in the rat. Ricardo JA;Koh ET
  46. Neuroscience v.3 Projections from the nucleus of the solitary tract in the rat. Norgren R
  47. J Comp Neurol v.283 Viscerotopic representation of the upper alimentary tract in the rat:Sensory ganglia and nuclei of the solitary and spinal trigeminal tracts. Altschuler SM;Bao X;Bieger D;Hopkins DA;Miselis RR
  48. J Comp Neurol v.255 Spinal and trigeminal projections the mucleus of the solitary tract:A possible substrate for somatovisceral and viscerovisceral reflex activation. Menetrey D;Basbaum AI
  49. Brain Res v.3 Efferent connections of the ventral medulla ohongata in the rat. Loewy AD;Wallach JH;Mckellar S
  50. Eur J Pharmacol v.346 Tonic GABA receptor-mediated neurotransmission in the dorsal vagal complex regulates intestinal motility in rats. Greenwood B;Barron KW
  51. Science v.203 Raphe inhibition of sympathetic preganglionic neurons. Cabot JB;Wild JM;Cohen DH
  52. Brain Res v.226 Inhibition of sympathetic activity by stimulating in the raphe nuclei and the role of 5-hydroxytryptamine in the effect Gilbey MP; Coote JH;MacLeod VH;Peterson DF
  53. J Physiol(Paris) v.77 Implication des systems serotoninergeques dans l`analgesie induite par stimulation electrique de certaines structures du tronc cerebral. Oliveras JL;Sierralta F;Fardin V;Besson JM
  54. Pflugers Arch v.391 Inhibition of thermogemesis by electrical stimulation of the nucleus raphe magnus Cristine L;Hinckel P;Bruck K
  55. Annu Rev Pharmacol Toxicol v.22 Neurochemical basis of acupuncture analgesia Han JS;Terenius L
  56. Pharmacol Ther v.17 Thermoafferent systems and their adaptive midifications. Bruck K;Hinkel P
  57. Peptides v.3 Pineal mediation of the thermoregulatory and behavioral activity effects of $\beta$-endorphin. Kavaliers M
  58. Science v.191 Antagonism of stimulation produced analgesia by naloxone, a narcotic antagonist. Akil H;Mayer DJ;Liebeskind JC
  59. Science v.150 Pain mechanism: A new theory Melzack R, Wall PD
  60. Brain Res v.197 Efferent connections of the parabrachial nucleus on the rat Saper CB;Loewy AD
  61. Brain Res v.513 BRainstem connections of the rostral ventral respiratory group of the rat. Ellenberger HH;Feldman JL
  62. Brain Res v.174 Direct projections from the A5 catecholamine cell group the intermediolateral cell column. Loewy AD;Mckeller S;Saper CB
  63. Brain Res v.491 A general pattern of CNS innervation of the symphathetic outflow demonstrated by transmeuronal pseudorabies viral infections Stract AM;Sawyer WB;Hughes JH;Platt KB;Loewy AD
  64. Brain Res v.491 CNS cell groups regulating the sympathetic outflow to adrenal gland a revealed by transneuronal cell body labeling with pseudorabies virus. Strack AM;Sawyer WB;Platt KB;Loewy AD
  65. Brain Res v.241 Decreases in blood pressure in response to L-glutamate microinjections into the A5 catecholamine cell group Neil JJ; Loewy AD
  66. Am J Physiol v.246 Changes in regional blood flow and cardiac output after L-glutamate stimulation of A5 cell group. Stanek KA;Neil JJ;Sawyer WB;Loewy AD
  67. Brain Res v.528 Organization of tyrosin hydroxylase-immunoreactive and serotonin-immunoreactive brainstem neurons with axon collaterals to the periaqueductal gray and spinal cord in the rat. Kwiat GC;Basbaum AI
  68. Am J Physiol v.237 Facilitation of female reproductive behavior from mesemcephalic central gray in the rat Sakumra Y;Pfaff DW
  69. Brain Res v.128 Immunohistochemical evidence for a neurophysin-containing autonomic pathway arising in the paraventricular nucleus of the hypothalamus. Swanson LW
  70. Am J Physiol v.254 Contribution of paraventricular nucleus to afferent renal nerve pressor response. Caverson MM;Ciriello J
  71. Am J Physiol v.248 Activation of the hypothalamic dorsomedial nucleus stimulates intestinal motility in rats Greenwood B;Dimicco JA
  72. Exp Neurol v.94 Sympathetic effects of manual and electrical acupuncture of the Tsusanli knee point :Comparison with the Hoku Hand point sympathetic effects. Ernst M.Lee MHM