參考文獻
1. Lundborg G, Kanje M. Bioartufucial nerve grafts. A prototype. 1996.
30(2):105-10.
2. Nicoli jAN, Perego G, Cella GD, Maltarello MC, Fini M, Rocca M, et al. Effectiveness of a bioabsorbable conduit in the repair of
peripheral nerves. Biomaterials. 1996;17(10):959-62.
3. Rodriguez FJ, Gomez N, Perego G, Navarro X. Highly permeable polylactide-caprolactone nerve guides enhance peripheral nerve regeneration through long gaps. Biomaterials.
1999;20(16):1489-500.
4. Fields RD, Le Beau JM, Longo FM, Ellisman MH. Nerve regeneration through artificial tubular implants. [Review] [506 refs]. Prog
Neurobiol. 1989;33(2):87-134.
5. Ohbayashi K, Inoue HK, Awaya A, Kobayashi S, Kohga H, Nakamura M, et al. Peripheral nerve regeneration in a silicone tube: effect of collagen sponge prosthesis, laminin, and pyrimidine compound administration. Neurol Med. 1996;36(7):428-33.
6. Urabe T, Zhao Q, Danielsen N, Lundborg G. Regeneration across a partial defect in rat sciatic nerve encased in a silicone chamber.
Scandinavian Journal of Plastic & Reconstructive Surgery & Hand Surgery. 1996;30(1):7-15.
7. 胡正利:針刺及電針對經矽膠管修護之截斷大鼠坐骨神經再生影 響之評估。中國醫藥學院,碩士論文,台中,1998.
8. Chen, Yueh-Sheng. Development of a multiple-lumen nerve cuff utilizing growth stimulant patterns for controlled regeneration. Iowa State University, PHD dissertation 1998.
9. 邵景范、羅永湘:白芨膠載神經生長因子促周圍神經再生的實驗 研究。中華手外科雜志 1995;11(1):42-4.
10. 劉俊賓、夏仁云:聚乳酸管注入白芨膠和史旺細胞修復周圍神經
缺損的實驗研究。汕頭大學醫學院學報。2002;15(3):149-52 11. 邵景范、羅永湘:白芨膠載神經生長因子促周圍神經再生的實驗
研究。同濟醫科大學學報.1995;24(5):365.
12. Robert M, Berne, Matthew N, Levy. Principles of Physiology. Wolfe Publishing Ltd.: international student edition; 1990.
13. Marieb EN. Human Anatomy & Physiology. 4th edition ed. The Benjamin/Cummings Science Publishing; 1998.
14. Kingsley RE. Concise text of neuroscience. 2nd edition ed. Lippincott Williams & Wilkins.; 1999.
15. Haines DE. Fundamental Neuroscience. Churchill Livingstone Inc.;
1997.
16. Sung HW, Huang RN, Huang LL, Tsai CC. In vitro evaluation of cytotoxicity of a naturally occurring cross-linking reagent for biological tissue fixation. J Biomater Sci Polym Ed.
1999;10(1):63-78.
17. Sung HW, Huang RN, Huang LL, Tsai CC, Chiu CT. Feasibility study of a natural crosslinking reagent for biological tissue fixation. J Biomed Mater Res. 1998;42(4):560-7.
18. Huang LL, Sung HW, Tsai CC, Huang DM. Biocompatibility study of a biological tissue fixed with a naturally occurring crosslinking reagent. J Biomed Mater Res. 1998;42(4):568-76.
19. Sung HW, Huang DM, Chang WH, Huang RN, Hsu JC. Evaluation of gelatin hydrogel crosslinked with various crosslinking agents as bioadhesives: in vitro study. J Biomed Mater Res.
1999;46(4):520-30.
20. Sung HW, Chang Y, Chiu CT, Chen CN, Liang HC. Crosslinking characteristics and mechanical properties of a bovine pericardium fixed with a naturally occurring crosslinking agent. J Biomed Mater Res. 1999;47(2):116-26.
21. Sung HW, Huang DM, Chang WH, Huang LL, Tsai CC, Liang IL.
Gelatin-derived bioadhesives for closing skin wounds: an in vivo
study. J Biomater Sci Polym Ed. 1999;10(7):751-71.
22. Yamazaki M, Chiba K, Mohri T. Neuritogenic effect of natural iridoid compounds on PC12h cells and its possible relation to signaling protein kinases. Biol Pharm Bull. 1996;19(6):791-5.
23. Junqueira LC CJ. Basic Histology. 3rd edition ed. Merve Tissue.
24. Lundborg G. Nerve injury and repair. Chruchill Livingstone Inc.;
1988.
25. Lodish H, Berk A, Zipursky SL, Matsudaira P, Balrimore D, Darnell J.
Molecular Cell Biology. 4th edition ed. W.H.Freeman and Company;
1999.
26. Cotran RS, Kumar V, Collins T. Robbins Pathologic Basis of Disease.
6th edition ed. W.B. Saunders Company.; 1999.
27. Cotran RS, Kumar V, Collins T. Robbins Pathologic Basis of Disease.
6th edition ed. W.B. Saunders Company.; 1999.
28. Pansky B, Allen DJ, Budd GC. Review of Neuroscience. 2nd edition ed. Macmillan Publishing Company; 1988.
29. Liveson JA. Peripheral Neurology: case studies in electrodiagnosis.
2nd edition ed. Info Access & Distribution Pte Ltd.; 1992.
30. Seddon H. Three type of nerve injury. Brain. 1943;66:237-88.
31. Seddon HJ. Peripheral nerve injures. Her Majesty's Stationery Office, London: Medical Research Council Special Report Series 282; 1954.
32. Seddon H Surgical disorders of the peripheral nerves. Edinburgh:
Churchill Livingstone; 1972.
33. Sunderland S. A classification of peripheral nerve injuries producing loss of function. Brain; 1951.
34. Sunderland S. Nerves and nerve injuries. 2nd edn. ed. Rdinburgh:
Churchill Linvingstone; 1978.
35. Ide C. Peripheral nerve regeneration. [Review] [250 refs]. Neurosci Res. 1996;25(2):101-21.
36. Wilgis EF, Maxwell GP. Distal digital nerve grafts: clinical and anatomical studies. J Hand Surg [Am]. 1979;4(5):439-43.
37. Edshage S. Peripheral nerve suture. Acta Chirurgica Scandinavica Supplement. 1964;331:1-104.
38. Kutz JE, Shealy G, Lubbers L. Interfascicular nerve repair. Orthop Clin North Am. 1981;12(2):277-86.
39. Millesi H. Interfascicular nerve grafting. Orthop Clin North Am.
1981;12(2):287-301.
40. Kuderna H. Die fibrinklebung peripherer nerven. Bibliothek fur Handchirurgie: Nigst H(ed) Nervenwiderherstellung nach traumatischen Lasionen; 1985.
41. Millesi H. Nerve grafts: indications, technisques and prognosis. Omer G. Spinner M(ed) Management of peripheral nerve problems; 1980.
42. Matson DD, Alexander E, Weiss P. Experiments on the bridging of gaps in severed peripheral nerves of monkeys. J Neurosurg.
1948;:230-48.
43. White JC, Hamlin H. New uses of tantalum in nerve suture, control of neuroma formation and prevention of regeneration after thoracic sympathectomy. Illustration of technical procedures. Journal of Neurosurgery. 1945;2:402-13.
44. Azzam NA, Brightman MW. Regeneration of central nervous system axons into an acellular tube in the absence of distal tissue. Exp Neurol. 1985;89(3):634-44.
45. Campbell J.B, Bassett C.A.L, Girado J.M, Seymour R.J, Rossi J.P.
Application of monomolecular filter tubes in bridging gaps in peripheral nerves and for prevention of neuroma formation. J Neurosurg. 1956;13:635-7.
46. Nyilas E, Chiu TH, Sidman RL, Henry EW, Brushart TM, Dikkes P, et al. Peripheral nerve repair with bioresorbable prosthesis. Trans Am Soc Artif Intern Organs. 1983;29:307-13.
47. Rosen JM, Padilla JA, Nguyen KD, Siedman J, Pham HN. Artificial nerve graft using glycolide trimethylene carbonate as a nerve conduit filled with collagen compared to sutured autograft in a rat model. J
Rehabil Res Dev. 1992;29(2):1-12.
48. Den Dunnen WF, Van der Lei B, Schakenraad JM, Blaauw EH, Stokroos I, Pennings AJ, et al. Long-term evaluation of nerve regeneration in a biodegradable nerve guide. Microsurgery.
1993;14(8):508-15.
49. Valentini RF, Aebischer P, Winn SR, Galletti PM. Collagen- and laminin-containing gels impede peripheral nerve regeneration through semipermeable nerve guidance channels. Exp Neurol.
1987;98(2):350-6.
50. Le Beau JM, Ellisman MH, Powell HC. Ultrastructural and
morphometric analysis of long-term peripheral nerve regeneration through silicone tubes. J Neurocytol. 1988;17(2):161-72.
51. Williams LR, Longo FM, Powell HC, Lundborg G, Varon S.
Spatial-temporal progress of peripheral nerve regeneration within a silicone chamber: parameters for a bioassay. J Comp Neurol.
1983;218(4):460-70.
52. 林玲:神經細胞培養理論與實踐。科學出版社,北京 2002.
53. Campenot RB. Development of sympathetic neurons in
compartmentalized cultures. II. Local control of neurite survival by nerve growth factor. Dev Biol. 1982;93(1):13-21.
54. Heumann R, Korsching S, Bandtlow C, Thoenen H. Changes of nerve growth factor synthesis in nonneuronal cells in response to sciatic nerve transection. J Cell Biol. 1987;104(6):1623-31.
55. Nja A, Purves D. The effects of nerve growth factor and its antiserum on synapses in the superior cervical ganglion of the guinea-pig. J Physiol (Lond). 1978;277:55-75.
56. Nja A, Purves D. The effects of nerve growth factor and its antiserum on synapses in the superior cervical ganglion of the guinea-pig. J Physiol (Lond). 1978;277:55-75.
57. Levi-Montalcini R. The nerve growth factor: its role in growth, differentiation and function of the sympathetic adrenergic neuron.
Prog Brain Res. 1976;45:235-58.
58. Bu S, Li J, Hu C. The influence of nerve growth factor on inferior alveolar nerves regeneration in the silicone tubes. [Chinese]. Chung Hua Kou Chiang Hsueh Tsa Chih. 1999;34(4):217-9.
59. 吳俊賢:內填人參皂 Rb1 與神經生長因子混合物之矽膠管對截 斷大鼠坐骨神經再生的影響。中國醫藥學院,碩士論文,台中 1999.
60. Madison RD, Da Silva CF, Dikkes P. Entubulation repair with protein additives increases the maximum nerve gap distance successfully bridged with tubular prostheses. Brain Res. 1988;447(2):325-34.
61. Yannas IV, Orgill DP, Silver J, Norregaard TV, Zervas NT, Schoene WC. Polymeric template facilitates regeneration of sciatic nerve across 15 mm gap. Transactions of the 5th European Conference of Biomaterials.
62. Chen YS, Hsieh CL, Tsai CC, Chen TH, Cheng WC, Hu CL, et al.
Peripheral nerve regeneration using silicone rubber chambers filled with collagen, laminin and fibronectin. Biomaterials.
2000;21(15):1541-7.
63. Davis GE, Manthorpe M, Varon S. Parameters of neuritic growth from ciliary ganglion neurons in vitro: influence of laminin, schwannoma polyornithine-binding neurite promoting factor and ciliary neuronotrophic factor. Brain Res. 1985;349(1-2):75-84.
64. Manthorpe M, Varon S, Adler R. Neurite-promoting factor in conditioned medium from RN22 Schwannoma cultures: bioassay, fractionation, and properties. J Neurochem. 1981;37(3):759-67.
65. Bailey SB, Eichler ME, Villadiego A, Rich KM. The influence of fibronectin and laminin during Schwann cell migration and peripheral nerve regeneration through silicon chambers. J Neurocytol. 1993;22(3):176-84.
66. 劉朝貴:內含龜鹿膠及三鈣磷酸鹽之交聯明膠骨科複合材料之評 估. 中國醫藥學院,碩士論文,台中 2001.
67. Brown RE, Erdmann D, Lyons SF, Suchy H. The use of cultured Schwann cells in nerve repair in a rabbit hind-limb model. J Reconstr Microsurg. 1996;12(3):149-52.
68. Ansselin AD, Fink T, Davey DF. Peripheral nerve regeneration
through nerve guides seeded with adult Schwann cells. Neuropathol Appl Neurobiol. 1997;23(5):387-98.
69. Bryan DJ, Wang KK, Chakalis-Haley DP. Effect of Schwann cells in the enhancement of peripheral-nerve regeneration. J Reconstr
Microsurg. 1996;12(7):439-46.
70. Gondre M, Burrola P, Weinstein DE. Accelerated nerve regeneration mediated by Schwann cells expressing a mutant form of the POU protein SCIP. J Cell Biol. 1998;141(2):493-501.
71. Raymond J, Desfaits AC, Roy D. Fibrinogen and vascular smooth muscle cell grafts promote healing of experimental aneurysms treated by embolization. Stroke. 1999;30(8):1657-64.
72. Rusovan A, Kanje M, Mild KH. The stimulatory effect of magnetic fields on regeneration of the rat sciatic nerve is frequency dependent.
Exp Neurol. 1992;117(1):81-4.
73. Rochkind S, Nissan M, Barr-Nea L, Razon N, Schwartz M, Bartal A.
Response of peripheral nerve to He-Ne laser: experimental studies.
Lasers Surg Med. 1987;7(5):441-3.
74. Kerns JM, Lucchinetti C. Electrical field effects on crushed nerve regeneration. Exp Neurol. 1992;117(1):71-80.
75. Kanje M, Rusovan A, Sisken B, Lundborg G. Pretreatment of rats with pulsed electromagnetic fields enhances regeneration of the sciatic nerve. Bioelectromagnetics. 1993;14(4):353-9.
76. Aebischer P, Valentini RF, Dario P, Domenici C, Galletti PM.
Piezoelectric guidance channels enhance regeneration in the mouse sciatic nerve after axotomy. Brain Res. 1987;436(1):165-8.
77. Jenq CB, Coggeshall RE. The effects of an autologous transplant on patterns of regeneration in rat sciatic nerve. Brain Res.
1986;364(1):45-56.
78. Longo FM, Hayman EG, Davis GE, Ruoslahti E, Engvall E, Manthorpe M, et al. Neurite-promoting factors and extracellular matrix components accumulating in vivo within nerve regeneration chambers. Brain Res. 1984;309(1):105-17.
79. Danielsen N, Muller H, Pettmann B, Williams LR, Davis GE, Engvall E, et al. Rat amnion membrane matrix as a substratum for
regenerating axons from peripheral and central neurons: effects in a silicone chamber model. Brain Res. 1988;467(1):39-50.
80. Morris JH, Hudson AR, Weddell G. A study of degeneration and regeneration in the divided rat sciatic nerve based on electron
microscopy. IV. Changes in fascicular microtopography, perineurium and endoneurial fibroblasts. Z Zellforsch Mikrosk Anat.
1972;124(2):165-203.
81. Fields RD, Ellisman MH. Axons regenerated through silicone tube splices. I. Conduction properties. Exp Neurol. 1986;92(1):48-60.
82. Fields RD, Ellisman MH. Axons regenerated through silicone tube splices. II. Functional morphology. Exp Neurol. 1986;92(1):61-74.
83. Guest JD, Rao A, Olson L, Bunge MB, Bunge RP. The ability of human Schwann cell grafts to promote regeneration in the transected nude rat spinal cord. Exp Neurol. 1997;148(2):502-22.
84. 莊宏達:黃帝內經,弘祥出版社,台中 1999.
91. Westerga J, Gramsbergen A. Development of locomotion in the rat.
DEV Brain Res. 1990;57:163-74.
92. De Koning P, Brakkee JH, Gispen WH. Methods for reproducible
crush in the sciatic and return of sensory function. J Neurol sci.
1986;74:237-46.
93. Jeroen R. Dijkstra, Marcel F. Meek, Peter H. Robinson, Albert Gramsbergen. Methods to evaluate functional nerve recovery in adult rats:walking track analysis, video analysis and the withdrawal reflex.J Neurosci Methods. 2000;96:89-96.
94. Zeng L, Worseg A, Albrecht G, Grisold W, Hopf R, Redl H, et al. A.
noninvasive functional evaluation following peripheral nerve repair with electromyography in a rat model. Plast Reconstr Surg.
1994;94(1):146-51.
95. Rochester JR, Clarke KA. Gait analysis in the rat as a model for the study of peripheral vascular disease. Physiol Behav.
1994;55(4):723-6.
96. Clarke KA, Heitmeyer SA, Smith AG, Taiwo YO. Gait analysis in a rat model of osteoarthrosis. Physiol Behav. 1997;62(5):951-4.
97. Hamers FP, Lankhorst AJ, van Laar TJ, Veldhuis WB, Gispen WH.
Automated quantitative gait analysis during overground locomotion in the rat: its application to spinal cord contusion and transection injuries. J Neurotrauma. 2001;18(2):187-201.
98. Varejao AS, Cabrita AM, Patricio JA, Bulas-Cruz J, Gabriel RC, Melo-Pinto P, et al. Functional assessment of peripheral nerve
recovery in the rat: gait kinematics. Microsurgery. 2001;21(8):383-8.
99. Walker JL, Evans JM, Meade P, Resig P, Sisken BF. Gait-stance duration as a measrue of injury and recovery in the rat sciatic nerve model. J Neurosci Methods. 1994;52:47-52.
100. Lin FM, Pan YC, Hom C, Sabbahi M, Shenaq S. Ankle stance angle:A functional index for the evalution of sciatic nerve recovery after complete transection. J Reconstr Microsurg. 1996;12:173-7.
101. De Medinaceli L, Freed WJ, Wyatt RJ. An index of the functional condition of rat sciatic nerve based on measurements made from walking tracks. Exp Neurol. 1982;77:634-43.
102. Carlton JM, Goldberg NH. Quantitating integrated muscle function following reinnervation. Surg Forum. 1986;37:611-2.
103. Ellen Kunkel-Bagden, Hai-Ning Dai, and Barbara S. Bregman.
Methods to assess the development and recovery of locomotor function after spinal cord injury in rats. Exp Neurol.
1993;119:153-64.
104. Bain JR, Mackinnon SE, Hudson AR, Falk RE, Falk JA, Hunter DA.
The peripheral nerve allografe:An assessment of regeneration across nerve allografts in rats immunosuppressed with cyclosporin A. Plast Reconstr Surg. 1988;82:1052-66.
105. Bain JR, Mackinnon SE, Hunter DA. Functional evaluation of
complete sciatic, peroneal and posterior ribial nerve lesions in the rat.
Plast Reconstr Srug. 1989;83:129-36.
106. Meek MF, Koning MA, Nicolai JP, Gramsbergen A. Rehabilitation strategy using enhanced housing environment during neural
regeneration. J Neurosci Methods. 2004;136(2):179-85.
107. Mendonca AC, Barbieri CH, Mazzer N. Directly applied low intensity direct electric current enhances peripheral nerve regeneration in rats. J Neurosci Methods. 2003;129(2):183-90.
108. Weber RA, Proctor WH, Warner MR, Verheyden CN. Autotomy and the sciatic functional index. Microsurgery. 1993;14(5):323-7.
109. 明․繆希雍:神農本草經疏,中國中醫藥出版社,北京 1997.
110. 明․李時珍:本草綱目,中國中醫藥出版社,北京 1998.
111. 清․汪昂:本草備要,中國中醫藥出版社,北京 1998.
112. 明․張志聰:本草崇原,中國中醫藥出版社,北京 1992.
113. 明․陳嘉謨:本草蒙全,上海中醫藥大學出版社,上海 1997.
114. Morita H, Koyama K, Sugimoto Y, Kobayashi J. Antimitotic activity and reversal of breast cancer resistance protein-mediated drug
resistance by stilbenoids from bletilla striata. Bioorg Med Chem Lett.
2005;15(4):1051-4.
115. Shuzo Takafi, Masae Yamaki, Keiko Inoue. Antimicrobial agents
from bletilla striata. Phytochemistry. 1983;22(4):1011-5.
116. Shuzo Takafi, Masae Yamaki, Keiko Inoue. Blestrin a and b,
bis(dihydrophenanthrene)ethers from bletilla striata. Phytochemistry.
1990;29(4):1259-60.
117. Shuzo Takafi, Masae Yamaki, Keiko Inoue. Benzylphenanthrenes from bletilla striata. Phytochemistry. 1990;29(7):2285-7.
118. Masae Yamaki, Tomoko Kato, Li Bai, Keiko Inoue ,Shuzo Takagi.
Methylated stilbenoids from bletilla sriata. Phytochemistry.
1991;30(8):1759-60.
119. Masae Yamaki, Tomoko Kato, Li Bai, Keiko Inoue ,Shuzo Takagi.
Bisphenanthrene ethers from bletilla striata. Phytochemistry.
1992;31(11):3985-7.
120. Masae Yamaki, Tomoko Kato, Li Bai, Keiko Inoue ,Shuzo Takagi.
Three dihydrophenanthropyrans from bletilla striata. Phytochemistry.
1993;32(2):427-30.
121. Masae Yamaki, Tomoko Kato, Li Bai, Keiko Inoue ,Shuzo Takagi.
Blespirol, a phenanthrene with a spirolactone ring from bletilla striata. Phytochemistry. 1993;33(6):1497-8.
122. Masae Yamaki, Tomoko Kato, Li Bai, Keiko Inoue ,Shuzo Takagi.
Phenanthrene glucosides from bletilla striata. Phytochemistry.
1993;34(2):535-7.
123. Thorsten Reinecke, Helmut Kindl. Characterization of bibenzyl synthase catalysing the biosynthesis of phytoalexins of orchids.
Phytochemistry. 1994;35(1):63-6.
Effect of silicone rubber chamber filled with Bletilla
striata on regenerating rat sciatic nerve
Li-Ju Lin
Major professor:Yueh-Sheng Chen
Institute of Chinese Medical Science, China Medical University
Application of combining herbal medicine and biomedical material science to nerve regeneration is a new approach. In this report, we
describe a novel use of extraction of hyacinth bletilla, as an extracellular matrix for peripheral nerve regeneration. In the in-vitro test, PC 12 cells were cultured to test the extraction’s growth-promoting capability. In the in-vivo test, a 15-mm gap of rat sciatic nerve was created between the proximal and distal nerve stumps, which were sutured into silicone rubber tubes filled with the hyacinth bletilla gel. As a result, we found that the extraction of hyacinth bletilla could promote the growth and extension of neurites of the PC 12 cells. However, this growth-promoting effect was not seen in the in-vivo test. In addition, we found the recovery of the motor function was slower than that of the sensory function in the regenerated nerve fibers.
Key word: , nerve regeneration, silicon rubber tube, matrix
致謝
本論文由衷地感謝陳悅生老師的細心耐心指導與指正。感謝徐 媛曼老師提供寶貴意見,李采娟老師於統計學上指導。另外,謝謝彰 化基督教醫院神經外科鄭均洹醫師於神經外科技術上協助、台灣養猪 科學研究所游碧蓮小姐於神經切片上的協助、實驗室杜寧漪小姐於細 胞實驗上指正及協助、向士偉醫師於動物實驗上協助。
最後,僅以此論文獻給一直在精神上支持我的家人。