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| 題名: | 慢性中耳炎病人耳膜破孔邊緣的組織病理學研究 |
| 作者: | 黃鈞鼎 |
| 貢獻者: | 臨床醫學研究所 |
| 日期: | 2010 |
| 上傳時間: | 2010-10-20 10:59:38 (UTC+8) |
| 摘要: | 中文摘要
研究背景及動機
慢性中耳炎病人的耳膜破孔,大多不會自然癒合,其原因尚未完全被了解。一般認為是由於耳膜破孔邊緣的耳膜外層上皮及內層上皮形成連合(muco-epithelial junction, MEJ)所致。但在臨床的觀察,慢性中耳炎病人耳膜破孔除了反覆感染或耳漏之外,我們常會見到所謂永久性破孔,在不同的時間,會有不同的型態變化;有的形成新的肉芽組織,有的呈現角質上皮移行,有的破孔甚至會自行癒合。過去所知的「永久」的瘢痕性破孔,或是MEJ造成的的癒合作用停滯,似乎不足以解釋這些臨床變化。本研究希望藉觀察耳膜破孔邊緣的組織病理學,進一步探討影響耳膜癒合的因素。
研究材料與方法
本研究目前共收集43例慢性中耳炎合併中心型耳膜破孔的病人檢體,將鼓室成形術中耳膜破孔邊緣切除的組織標本,作成系列組織切片,以Hematoxylin、Eosin、cytokeratin 7及19免疫抗體染色,以及Collagen type I與III免疫抗體染色,觀察耳膜破孔邊緣MEJ的分布,組織形態的變化。並追蹤病人的手術後耳膜的表皮移行完整程度,再與臨床表現及病理組織觀察等變項互相印證。
結果
本研究的43個案例中,19例為男性,24例為女性,年齡介於到20歲到77歲之間,平均為45歲。其中年輕組有15例,年長組有28例。術後表皮移行完整的有36例,不完整的有7例。其中有28例的MEJ在檢體的系列切片觀察不到,有5例檢體具有連續的的MEJ,有10例檢體的MEJ在檢體的系列切片見到不連續的分布。Cytokeratin 7及19免疫抗體染色大多數的結果一致,染在切片中耳膜內側的mucosa層,但有10例檢體的Cytokeratin 19更出現在麟狀上皮的基底層;Collagen type I與III免疫抗體染色也顯示,在不同的傷口癒合狀態下,Collagen type I與III的分布多寡會有差異。各變項與術後表皮移行完整之間,年齡分組具有顯著差異( p=0.037),其餘有collagen type III/I ratio (p=0.02)及MEJ (p=0.047)達顯著差異,經多變項回歸檢視後,對術後表皮移行完整與否,也只有collagen III/I ratio及MEJ足以達到顯著差異(p=0.007)。與年齡分組呈顯著相關的有術後表皮移行完整與否( p=0.037)、collagen type III/I ratio (p=0.0)及wound healing stage等,而其餘各個變項未達顯著程度。
結論
本研究的結果顯示慢性中耳炎耳膜破孔邊緣MEJ的變化,即表皮在耳膜破孔邊緣的變化,和纖維層Collagen type III/I比例,會影響術後的表皮移行完整程度。而MEJ的位置,並非一成不變的存在於耳膜破孔邊緣,至少與先前的研究結果有所差異。同時本研究也發現有10個案例的複層麟狀上皮,在基底層對CK-19抗體呈濃染,這也是第一次在人類耳膜組織的研究中,證實耳膜破孔邊緣也有幹細胞的存在。這些結果應具有更進一步研究及應用的價值。
Abstract
Introduction
Eardrum perforation in patients with chronic otitis media results from failure in spontaneous healing process when it ruptured. The hypothesis of muco-epithelail junction (MEJ) formation over the perforation edge is widely accepted to explain the persistent pathophysiological state. However, clinically there are still dynamic changes noted in some chronic perforations. The aim of this study is to investigate the possible factors engaged in healing process of perforated eardrum from chronic otitis media through observation of the histopathological sections.
Material and Methods
In our study, 43 specimens from the eardrum of chronic otitis media were enrolled. Series section and immunohistochemical stain with Hemotoxylin, Eosin, Cytokeratin 7 and 19 antibody, and Collagen type I and III antibody were performed each case. Statistic analysis was done to compare these variables with the postoperative epithelial migration ability.
Result
There were 43 cases enrolled in this study. Nineteen cases were male and 24 cases were female. The age ranged from 20 to 77 years with average 45 years. Fifteen cases were in the young group; twenty-eight cases were in the aged group. Thirty-six cases showed complete postoperative re-epithelialization of squamous epithelium on the eardrum surface and others not. Histopathological examination revealed 28 cases without MEJ, 5 cases with continuous MEJ, and 8 cases with interrupted MEJ. The basal layer of squamous epithelium was positive stained with CK-19 in 10 cases. Collagen type I and III showed different in distribution with different wound healing stage. Statistically, age group ( p=0.037), collagen type III/I ratio (p=0.02) and MEJ (p=0.047) showed a significant correlation with the postoperative re-epithelialization of squamous epithelium. However, multiple linear regression model showed only the MEJ and collagen type III/I ratio significant correlated with the postoperative re-epithelialization of squamous epithelium (p=0.007). On the other hand, collagen type III/I ratio (p=0.0) and wound healing stage were also significant correlated with the age group.
Conclusions:
The result in this study showed a significant correlation between the MEJ distribution, collagen type III/I ratio and the postoperative re-epithelialization of squamous epithelium. And the MEJ distribution in our study is quite different from the previous studies. The 10 cases, with CK-19 positive stained basal layer of squamous epithelium, showed an evidence of stem cells in the perforated edge in patients with chronic otitis media in a very first time. These results may contribute to further investigations and studies in this field. |
| 關聯: | 60頁 |
| 描述: | 目錄
中文摘要 i
英文摘要(Abstract) iv
第一章 緒論 1
第二章 文獻探討 3
壹、慢性中耳炎 3
第一節 定義及流行病學 4
第二節 臨床症狀 5
第三節 病因學與發生機轉 7
第四節 常見併發症 10
第五節 診斷 11
第六節 治療及預後 12
第七節 修補耳膜破孔的主要手術方式 14
貳、耳膜破孔的癒合 15
第一節 耳膜的組織學 15
第二節 耳膜破孔癒合的機轉 17
第三節 永久性破孔的成因 20
參、細胞角蛋白 22
第一節 細胞角蛋白概論 22
第二節 細胞角蛋白在耳膜組織學的相關文獻 24
肆、細胞外間質與傷口復原性的關連性 25
第三章 研究動機與目的 26
第四章 研究方法 28
壹、研究對象及檢體採集 28
第一節 研究對象 28
第二節 手術方式與檢體採集 29
第三節 標本備製與切片方法 30
貳、實驗材料、儀器及實驗步驟 31
第一節、材料與染劑 31
第二節、Hematoxylin-Eosin染色 32
第三節、Cytokeratin antibody免疫組織化學染色 33
第四節、Collagen antibody免疫組織化學染色 35
第五節、觀察與記錄 37
參、檢體分組與結果判定 38
肆、統計方法 39
第五章 結果分析 40
壹、基本資料 40
貳、組織學觀察 42
第一節、HE染色與CK-7與CK-19抗體染色 42
第二節、Collagen type I、III免疫組織化學染色 46
參、統計分析結果 49
第六章 討論 53
第七章 結論 58
參考文獻 59
1. Somers, T., et al., Histology of the perforated tympanic membrane and its muco-epithelial junction. Clin Otolaryngol Allied Sci, 1997. 22(2): p. 162-6.
2. Boedts, D. and B. Ars, Histopathological research on eardrum perforations. Arch Otorhinolaryngol, 1977. 215(1): p. 55-9.
3. Berger, G., Nature of spontaneous tympanic membrane perforation in acute otitis media in children. J Laryngol Otol, 1989. 103(12): p. 1150-3.
4. Graham, M.D., A Longitudinal Study of Ear Disease and Hearing Loss in Patients with Cleft Lips and Palates. Ann Otol Rhinol Laryngol, 1964. 73: p. 34-47.
5. Soudijn, E.R. and A.J. Huffstadt, Cleft palates and middle ear effusions in babies. Cleft Palate J, 1975. 12: p. 229-33.
6. Karma, P., Middle ear epithelium and chronic ear disease. Acta Otolaryngol Suppl, 1972. 307: p. 1-107.
7. O'Neill, P., Acute otitis media. Clin Evid, 2002(8): p. 251-61.
8. Lim, D.J., Tympanic membrane. Electron microscopic observation. I: pars tensa. Acta Otolaryngol, 1968. 66(3): p. 181-98.
9. Broekaert, D., The tympanic membrane: a biochemical updating of structural components. Acta Otorhinolaryngol Belg, 1995. 49(2): p. 127-37.
10. Weinberger, J.M. and M. Hawke, Thickened patches of stratum corneum on the human tympanic membrane. J Otolaryngol, 1986. 15(6): p. 327-31.
11. Kakoi, H. and M. Anniko, Auditory epithelial migration. II: Morphological evidence for auditory epidermal cell migration in rat. Acta Otolaryngol, 1996. 116(6): p. 850-3.
12. Makino, K., et al., Epithelial migration in the healing process of tympanic membrane perforations. Eur Arch Otorhinolaryngol, 1990. 247(6): p. 352-5.
13. Schmidt, S.H. and S. Hellstrom, Late effects of local anesthetics on tympanic membrane structure. Am J Otolaryngol, 1986. 7(5): p. 346-52.
14. Johnson, A. and M. Hawke, The function of migratory epidermis in the healing of tympanic membrane perforations in guinea-pig. A photographic study. Acta Otolaryngol, 1987. 103(1-2): p. 81-6.
15. Spandow, O., S. Hellstrom, and M. Dahlstrom, Structural characterization of persistent tympanic membrane perforations in man. Laryngoscope, 1996. 106(3 Pt 1): p. 346-52.
16. Rizer, F.M., Overlay versus underlay tympanoplasty. Part I: historical review of the literature. Laryngoscope, 1997. 107(12 Pt 2): p. 1-25.
17. Vennix, P.P., et al., Epidermal differentiation in the human external auditory meatus. Laryngoscope, 1996. 106(4): p. 470-5.
18. Koba, R., Epidermal cell migration and healing of the tympanic membrane: an immunohistochemical study of cell proliferation using bromodeoxyuridine labeling. Ann Otol Rhinol Laryngol, 1995. 104(3): p. 218-25.
19. Govaerts, P.J., W.A. Jacob, and J. Marquet, Histological study of the thin replacement membrane of human tympanic membrane perforations. Acta Otolaryngol, 1988. 105(3-4): p. 297-302.
20. Ramalho, J.R. and R.F. Bento, Healing of subacute tympanic membrane perforations in chinchillas treated with epidermal growth factor and pentoxifylline. Otol Neurotol, 2006. 27(5): p. 720-7.
21. Ishibashi, T., et al., Induction of KGF, basic FGF, and TGFalpha mRNA expression during healing of experimental TM perforations. Acta Otolaryngol, 1998. 118(5): p. 701-4.
22. Bombardieri, E., et al., Evaluation of cytokeratin 19 serum fragments (CYFRA 21-1) in patients with lung cancer: results of a multicenter trial. Int J Biol Markers, 1994. 9(2): p. 89-95.
23. Welkoborsky, H.J., et al., Molecular biologic characteristics of seven new cell lines of squamous cell carcinomas of the head and neck and comparison to fresh tumor tissue. Oncology, 2003. 65(1): p. 60-71.
24. Broekaert, D., et al., Immunohistochemical analysis of the cytokeratin expression in middle ear cholesteatoma and related epithelial tissues. Ann Otol Rhinol Laryngol, 1992. 101(11): p. 931-8.
25. Lepercque, S., D. Broekaert, and P. Van Cauwenberge, Cytokeratin expression patterns in the human tympanic membrane and external ear canal. Eur Arch Otorhinolaryngol, 1993. 250(2): p. 78-81.
26. Kim, H.J., S.P. Tinling, and R.A. Chole, Expression patterns of cytokeratins in cholesteatomas: evidence of increased migration and proliferation. J Korean Med Sci, 2002. 17(3): p. 381-8.
27. Kasper, M., Patterns of cytokeratin and vimentin expression in the human eye. Histochemistry, 1988. 89: p. 9.
28. Wang, W.Q., Z.M. Wang, and J. Tian, [Epidermal stem cells in the tympanic membrane]. Zhonghua Er Bi Yan Hou Ke Za Zhi, 2004. 39(12): p. 712-6.
29. Byung-Moo, K.S.R.J.L.L.G.M., Electrospinning of collagen nanofibers : Effects on the behavior of normal human keratinocytesand earlysatge wound healing. Biomaterials, 2006. 27(8): p. 10.
30. Liang, J., L. Michaels, and A. Wright, Immunohistochemical characterization of the epidermoid formation in the middle ear. Laryngoscope, 2003. 113(6): p. 1007-14. |
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