生物力學對眼前房的病生理影響：從臨床到實驗室

周建志; Chien-Chih Chou

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/91888

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王一中	zh_TW
dc.contributor.advisor	I-Jong Wang	en
dc.contributor.author	周建志	zh_TW
dc.contributor.author	Chien-Chih Chou	en
dc.date.accessioned	2024-02-26T16:18:12Z	-
dc.date.available	2024-02-27	-
dc.date.copyright	2024-02-26	-
dc.date.issued	2024	-
dc.date.submitted	2024-01-23	-
dc.identifier.citation	Aliancy, J., W. D. Stamer, and B. Wirostko. 2017. ''A Review of Nitric Oxide for the Treatment of Glaucomatous Disease'', Ophthalmol Ther, 6: 221-32. Alm, A., and S. F. Nilsson. 2009. ''Uveoscleral outflow--a review'', Exp Eye Res, 88: 760-8. Ambrosio, R., Jr., R. S. Alonso, A. Luz, and L. G. Coca Velarde. 2006. ''Corneal-thickness spatial profile and corneal-volume distribution: tomographic indices to detect keratoconus'', J Cataract Refract Surg, 32: 1851-9. Ambrosio, R., Jr., B. T. Lopes, F. Faria-Correia, M. Q. Salomao, J. Buhren, C. J. Roberts, A. Elsheikh, R. Vinciguerra, and P. Vinciguerra. 2017. ''Integration of Scheimpflug-Based Corneal Tomography and Biomechanical Assessments for Enhancing Ectasia Detection'', J Refract Surg, 33: 434-43. Ashpole, N. E., D. R. Overby, C. R. Ethier, and W. D. Stamer. 2014. ''Shear stress-triggered nitric oxide release from Schlemm''s canal cells'', Invest Ophthalmol Vis Sci, 55: 8067-76. Aung, T., W. P. Nolan, D. Machin, S. K. Seah, J. Baasanhu, P. T. Khaw, G. J. Johnson, and P. J. Foster. 2005. ''Anterior chamber depth and the risk of primary angle closure in 2 East Asian populations'', Arch Ophthalmol, 123: 527-32. Belin, M. W., H. S. Jang, and M. Borgstrom. 2022. ''Keratoconus: Diagnosis and Staging'', Cornea, 41: 1-11. Borisova, M. E., A. Voigt, M. A. X. Tollenaere, S. K. Sahu, T. Juretschke, N. Kreim, N. Mailand, C. Choudhary, S. Bekker-Jensen, M. Akutsu, S. A. Wagner, and P. Beli. 2018. ''p38-MK2 signaling axis regulates RNA metabolism after UV-light-induced DNA damage'', Nat Commun, 9: 1017. Buffault, J., A. Labbe, P. Hamard, F. Brignole-Baudouin, and C. Baudouin. 2020. ''The trabecular meshwork: Structure, function and clinical implications. A review of the literature'', J Fr Ophtalmol, 43: e217-e30. Callaghan, B., K. Lester, B. Lane, X. Fan, K. Goljanek-Whysall, D. A. Simpson, C. Sheridan, and C. E. Willoughby. 2022. ''Genome-wide transcriptome profiling of human trabecular meshwork cells treated with TGF-beta2'', Sci Rep, 12: 9564. Canto, A., T. Olivar, F. J. Romero, and M. Miranda. 2019. ''Nitrosative Stress in Retinal Pathologies: Review'', Antioxidants (Basel), 8. Chang, J. Y., W. D. Stamer, J. Bertrand, A. T. Read, C. M. Marando, C. R. Ethier, and D. R. Overby. 2015. ''Role of nitric oxide in murine conventional outflow physiology'', Am J Physiol Cell Physiol, 309: C205-14. Chaudhuri, S., and P. G. Smith. 2008. ''Cyclic strain-induced HSP27 phosphorylation modulates actin filaments in airway smooth muscle cells'', Am J Respir Cell Mol Biol, 39: 270-8. Chen, Y., W. Yang, X. Zhang, S. Yang, G. Peng, T. Wu, Y. Zhou, C. Huang, P. S. Reinach, W. Li, and Z. Liu. 2016. ''MK2 inhibitor reduces alkali burn-induced inflammation in rat cornea'', Sci Rep, 6: 28145. Chou, C. C., P. J. Shih, T. S. Jou, M. Y. Hsu, J. P. Chen, R. H. Hsu, N. C. Lee, Y. H. Chien, W. L. Hwu, and I. J. Wang. 2023. ''Corneal Biomechanical Characteristics in Osteogenesis Imperfecta With Collagen Defect'', Transl Vis Sci Technol, 12: 14. Chou, C. C., P. J. Shih, C. Y. Wang, T. S. Jou, J. P. Chen, and I. J. Wang. 2022. ''Corvis Biomechanical Factor Facilitates the Detection of Primary Angle Closure Glaucoma'', Transl Vis Sci Technol, 11: 7. Chu, Z., Q. Ren, M. Chen, L. Cheng, H. Cheng, W. Cui, W. Bi, and J. Wu. 2022. ''The relationship between axial length/corneal radius of curvature ratio and stress-strain index in myopic eyeballs: Using Corvis ST tonometry'', Front Bioeng Biotechnol, 10: 939129. Chua, J., L. F. Seet, Y. Jiang, R. Su, H. M. Htoon, A. Charlton, T. Aung, and T. T. Wong. 2008. ''Increased SPARC expression in primary angle closure glaucoma iris'', Mol Vis, 14: 1886-92. Cox, T. R., and J. T. Erler. 2011. ''Remodeling and homeostasis of the extracellular matrix: implications for fibrotic diseases and cancer'', Dis Model Mech, 4: 165-78. Cuadrado, A., and A. R. Nebreda. 2010. ''Mechanisms and functions of p38 MAPK signalling'', Biochem J, 429: 403-17. Cui, X., Y. Yang, Y. Li, F. Huang, Y. Zhao, H. Chen, J. Xu, A. Mashaghi, and J. Hong. 2019. ''Correlation Between Anterior Chamber Volume and Corneal Biomechanical Properties in Human Eyes'', Front Bioeng Biotechnol, 7: 379. D''Souza, S., A. P. Nair, G. R. Sahu, T. Vaidya, R. Shetty, P. Khamar, R. Mullick, S. Gupta, M. M. Dickman, Rmma Nuijts, R. R. Mohan, A. Ghosh, and S. Sethu. 2021. ''Keratoconus patients exhibit a distinct ocular surface immune cell and inflammatory profile'', Sci Rep, 11: 20891. Dismuke, W. M., J. Liang, D. R. Overby, and W. D. Stamer. 2014. ''Concentration-related effects of nitric oxide and endothelin-1 on human trabecular meshwork cell contractility'', Exp Eye Res, 120: 28-35. Dismuke, W. M., C. C. Mbadugha, and D. Z. Ellis. 2008. ''NO-induced regulation of human trabecular meshwork cell volume and aqueous humor outflow facility involve the BKCa ion channel'', Am J Physiol Cell Physiol, 294: C1378-86. Doganay, S., C. Evereklioglu, Y. Turkoz, and H. Er. 2002. ''Decreased nitric oxide production in primary open-angle glaucoma'', Eur J Ophthalmol, 12: 44-8. Doolan, E., and C. O''Brien. 2021. ''Abnormal corneal properties in osteogenesis imperfecta and glaucoma: a case series'', BMJ Open Ophthalmol, 6: e000684. Dupps, W. J., Jr. 2007. ''Hysteresis: new mechanospeak for the ophthalmologist'', J Cataract Refract Surg, 33: 1499-501. Eliasy, A., K. J. Chen, R. Vinciguerra, B. T. Lopes, A. Abass, P. Vinciguerra, R. Ambrosio, Jr., C. J. Roberts, and A. Elsheikh. 2019. ''Determination of Corneal Biomechanical Behavior in-vivo for Healthy Eyes Using CorVis ST Tonometry: Stress-Strain Index'', Front Bioeng Biotechnol, 7: 105. Eliasy, A., K. J. Chen, R. Vinciguerra, O. Maklad, P. Vinciguerra, R. Ambrosio, Jr., C. J. Roberts, and A. Elsheikh. 2018. ''Ex-vivo experimental validation of biomechanically-corrected intraocular pressure measurements on human eyes using the CorVis ST'', Exp Eye Res, 175: 98-102. Esporcatte, L. P. G., M. Q. Salomao, B. T. Lopes, P. Vinciguerra, R. Vinciguerra, C. Roberts, A. Elsheikh, D. G. Dawson, and R. Ambrosio, Jr. 2020. ''Biomechanical diagnostics of the cornea'', Eye Vis (Lond), 7: 9. Fearing, B. V., L. Jing, M. N. Barcellona, S. E. Witte, J. M. Buchowski, L. P. Zebala, M. P. Kelly, S. Luhmann, M. C. Gupta, A. Pathak, and L. A. Setton. 2019. ''Mechanosensitive transcriptional coactivators MRTF-A and YAP/TAZ regulate nucleus pulposus cell phenotype through cell shape'', FASEB J, 33: 14022-35. Ferreira-Mendes, J., B. T. Lopes, F. Faria-Correia, M. Q. Salomao, S. Rodrigues-Barros, and R. Ambrosio, Jr. 2019. ''Enhanced Ectasia Detection Using Corneal Tomography and Biomechanics'', Am J Ophthalmol, 197: 7-16. Finch-Edmondson, M., and M. Sudol. 2016. ''Framework to function: mechanosensitive regulators of gene transcription'', Cell Mol Biol Lett, 21: 28. Flockerzi, E., R. Vinciguerra, M. W. Belin, P. Vinciguerra, R. Ambrosio, Jr., and B. Seitz. 2022a. ''Combined biomechanical and tomographic keratoconus staging: Adding a biomechanical parameter to the ABCD keratoconus staging system'', Acta Ophthalmol, 100: e1135-e42. ———. 2022b. ''Correlation of the Corvis Biomechanical Factor with tomographic parameters in keratoconus'', J Cataract Refract Surg, 48: 215-21. Fontes, B. M., R. Ambrosio, Jr., D. Jardim, G. C. Velarde, and W. Nose. 2010. ''Corneal biomechanical metrics and anterior segment parameters in mild keratoconus'', Ophthalmology, 117: 673-9. Forbes, M., G. Pico, Jr., and B. Grolman. 1974. ''A noncontact applanation tonometer. Description and clinical evaluation'', Arch Ophthalmol, 91: 134-40. Forlino, A., W. A. Cabral, A. M. Barnes, and J. C. Marini. 2011. ''New perspectives on osteogenesis imperfecta'', Nat Rev Endocrinol, 7: 540-57. Forlino, A., and J. C. Marini. 2016. ''Osteogenesis imperfecta'', Lancet (London, England), 387: 1657-71. Foster, P. J., R. Buhrmann, H. A. Quigley, and G. J. Johnson. 2002. ''The definition and classification of glaucoma in prevalence surveys'', Br J Ophthalmol, 86: 238-42. Friedman, D. S., P. J. Foster, T. Aung, and M. He. 2012. ''Angle closure and angle-closure glaucoma: what we are doing now and what we will be doing in the future'', Clin Exp Ophthalmol, 40: 381-7. Gilbert, H. T. J., V. Mallikarjun, O. Dobre, M. R. Jackson, R. Pedley, A. P. Gilmore, S. M. Richardson, and J. Swift. 2019. ''Nuclear decoupling is part of a rapid protein-level cellular response to high-intensity mechanical loading'', Nat Commun, 10: 4149. Grewal, D. S., G. S. Brar, R. Jain, and S. P. Grewal. 2011. ''Comparison of Scheimpflug imaging and spectral domain anterior segment optical coherence tomography for detection of narrow anterior chamber angles'', Eye (Lond), 25: 603-11. Gutierrez-Prat, N., M. Cubillos-Rojas, B. Canovas, A. Kuzmanic, J. Gupta, A. Igea, E. Llonch, M. Gaestel, and A. R. Nebreda. 2021. ''MK2 degradation as a sensor of signal intensity that controls stress-induced cell fate'', Proc Natl Acad Sci U S A, 118: e2024562118. Hallahan, K. M., A. Sinha Roy, R. Ambrosio, Jr., M. Salomao, and W. J. Dupps, Jr. 2014. ''Discriminant value of custom ocular response analyzer waveform derivatives in keratoconus'', Ophthalmology, 121: 459-68. Heyne, G. W., J. A. Kiland, P. L. Kaufman, and B. T. Gabelt. 2013. ''Effect of nitric oxide on anterior segment physiology in monkeys'', Invest Ophthalmol Vis Sci, 54: 5103-10. Hirt, J., and P. B. Liton. 2017. ''Autophagy and mechanotransduction in outflow pathway cells'', Exp Eye Res, 158: 146-53. Hodapp, Elizabeth, Richard K Parrish, and Douglas R Anderson. 1993. Clinical decisions in glaucoma (Mosby Incorporated). Hoffman, L., C. C. Jensen, M. Yoshigi, and M. Beckerle. 2017. ''Mechanical signals activate p38 MAPK pathway-dependent reinforcement of actin via mechanosensitive HspB1'', Mol Biol Cell, 28: 2661-75. Hoffman, L. M., M. A. Smith, C. C. Jensen, M. Yoshigi, E. Blankman, K. S. Ullman, and M. C. Beckerle. 2020. ''Mechanical stress triggers nuclear remodeling and the formation of transmembrane actin nuclear lines with associated nuclear pore complexes'', Mol Biol Cell, 31: 1774-87. Jasien, J. V., D. C. Turner, C. A. Girkin, and J. C. Downs. 2019. ''Cyclic Pattern of Intraocular Pressure (IOP) and Transient IOP Fluctuations in Nonhuman Primates Measured with Continuous Wireless Telemetry'', Curr Eye Res, 44: 1244-52. Jindal, A., I. Ctori, G. Virgili, E. Lucenteforte, and J. G. Lawrenson. 2020. ''Non-contact tests for identifying people at risk of primary angle closure glaucoma'', Cochrane Database Syst Rev, 5: CD012947. Joda, A. A., M. M. Shervin, D. Kook, and A. Elsheikh. 2016. ''Development and validation of a correction equation for Corvis tonometry'', Comput Methods Biomech Biomed Engin, 19: 943-53. Jung, Y., H. Y. Park, and C. K. Park. 2016. ''Association between Corneal Deformation Amplitude and Posterior Pole Profiles in Primary Open-Angle Glaucoma'', Ophthalmology, 123: 959-64. Kalukula, Y., A. D. Stephens, J. Lammerding, and S. Gabriele. 2022. ''Mechanics and functional consequences of nuclear deformations'', Nat Rev Mol Cell Biol, 23: 583-602. Kang, M. H., D. J. Oh, J. H. Kang, and D. J. Rhee. 2013. ''Regulation of SPARC by transforming growth factor beta2 in human trabecular meshwork'', Invest Ophthalmol Vis Sci, 54: 2523-32. Kathirvel, K., R. Haribalaganesh, R. Krishnadas, V. Muthukkaruppan, C. E. Willoughby, D. Bharanidharan, and S. Senthilkumari. 2022. ''A Comparative Genome-Wide Transcriptome Analysis of Glucocorticoid Responder and Non-Responder Primary Human Trabecular Meshwork Cells'', Genes (Basel), 13. Keles, A., S. Doguizi, N. M. Sahin, M. Koc, and Z. Aycan. 2020. ''Anterior Segment Findings in Patients With Osteogenesis Imperfecta: A Case-Control Study'', Cornea, 39: 935-39. Keller, K. E., S. K. Bhattacharya, T. Borras, T. M. Brunner, S. Chansangpetch, A. F. Clark, W. M. Dismuke, Y. Du, M. H. Elliott, C. R. Ethier, J. A. Faralli, T. F. Freddo, R. Fuchshofer, M. Giovingo, H. Gong, P. Gonzalez, A. Huang, M. A. Johnstone, P. L. Kaufman, M. J. Kelley, P. A. Knepper, C. C. Kopczynski, J. G. Kuchtey, R. W. Kuchtey, M. H. Kuehn, R. L. Lieberman, S. C. Lin, P. Liton, Y. Liu, E. Lutjen-Drecoll, W. Mao, M. Masis-Solano, F. McDonnell, C. M. McDowell, D. R. Overby, P. P. Pattabiraman, V. K. Raghunathan, P. V. Rao, D. J. Rhee, U. R. Chowdhury, P. Russell, J. R. Samples, D. Schwartz, E. B. Stubbs, E. R. Tamm, J. C. Tan, C. B. Toris, K. Y. Torrejon, J. A. Vranka, M. K. Wirtz, T. Yorio, J. Zhang, G. S. Zode, M. P. Fautsch, D. M. Peters, T. S. Acott, and W. D. Stamer. 2018. ''Consensus recommendations for trabecular meshwork cell isolation, characterization and culture'', Exp Eye Res, 171: 164-73. Khatau, S. B., C. M. Hale, P. J. Stewart-Hutchinson, M. S. Patel, C. L. Stewart, P. C. Searson, D. Hodzic, and D. Wirtz. 2009. ''A perinuclear actin cap regulates nuclear shape'', Proc Natl Acad Sci U S A, 106: 19017-22. Khor, C. C., T. Do, H. Jia, M. Nakano, R. George, K. Abu-Amero, R. Duvesh, L. J. Chen, Z. Li, M. E. Nongpiur, S. A. Perera, C. Qiao, H. T. Wong, H. Sakai, M. Barbosa de Melo, M. C. Lee, A. S. Chan, Y. Azhany, T. L. Dao, Y. Ikeda, R. A. Perez-Grossmann, T. Zarnowski, A. C. Day, J. B. Jonas, P. O. Tam, T. A. Tran, H. Ayub, F. Akhtar, S. Micheal, P. T. Chew, L. A. Aljasim, T. Dada, T. T. Luu, M. S. Awadalla, N. Kitnarong, B. Wanichwecharungruang, Y. Y. Aung, J. Mohamed-Noor, S. Vijayan, S. Sarangapani, R. Husain, A. Jap, M. Baskaran, D. Goh, D. H. Su, H. Wang, V. K. Yong, L. W. Yip, T. B. Trinh, M. Makornwattana, T. T. Nguyen, E. U. Leuenberger, K. H. Park, W. A. Wiyogo, R. S. Kumar, C. Tello, Y. Kurimoto, S. S. Thapa, K. Pathanapitoon, J. F. Salmon, Y. H. Sohn, A. Fea, M. Ozaki, J. S. Lai, V. Tantisevi, C. C. Khaing, T. Mizoguchi, S. Nakano, C. Y. Kim, G. Tang, S. Fan, R. Wu, H. Meng, T. T. Nguyen, T. D. Tran, M. Ueno, J. M. Martinez, N. Ramli, Y. M. Aung, R. D. Reyes, S. A. Vernon, S. K. Fang, Z. Xie, X. Y. Chen, J. N. Foo, K. S. Sim, T. T. Wong, D. T. Quek, R. Venkatesh, S. Kavitha, S. R. Krishnadas, N. Soumittra, B. Shantha, B. A. Lim, J. Ogle, J. P. de Vasconcellos, V. P. Costa, R. Y. Abe, B. B. de Souza, C. C. Sng, M. C. Aquino, E. Kosior-Jarecka, G. B. Fong, V. C. Tamanaja, R. Fujita, Y. Jiang, N. Waseem, S. Low, H. N. Pham, S. Al-Shahwan, E. R. Craven, M. I. Khan, R. Dada, K. Mohanty, M. A. Faiq, A. W. Hewitt, K. P. Burdon, E. H. Gan, A. Prutthipongsit, T. Patthanathamrongkasem, M. A. Catacutan, I. R. Felarca, C. S. Liao, E. Rusmayani, V. W. Istiantoro, G. Consolandi, G. Pignata, C. Lavia, P. Rojanapongpun, L. Mangkornkanokpong, S. Chansangpetch, J. C. Chan, B. N. Choy, J. W. Shum, H. M. Than, K. T. Oo, A. T. Han, V. H. Yong, X. Y. Ng, S. R. Goh, Y. F. Chong, M. L. Hibberd, M. Seielstad, E. Png, S. J. Dunstan, N. V. Chau, J. Bei, Y. X. Zeng, A. Karkey, B. Basnyat, F. Pasutto, D. Paoli, P. Frezzotti, J. J. Wang, P. Mitchell, J. H. Fingert, R. R. Allingham, M. A. Hauser, S. T. Lim, S. H. Chew, R. P. Ebstein, A. Sakuntabhai, K. H. Park, J. Ahn, G. Boland, H. Snippe, R. Stead, R. Quino, S. N. Zaw, U. Lukasik, R. Shetty, M. Zahari, H. W. Bae, N. L. Oo, T. Kubota, A. Manassakorn, W. L. Ho, L. Dallorto, Y. H. Hwang, C. A. Kiire, M. Kuroda, Z. E. Djamal, J. I. Peregrino, A. Ghosh, J. W. Jeoung, T. S. Hoan, N. Srisamran, T. Sandragasu, S. H. Set, V. H. Doan, S. S. Bhattacharya, C. L. Ho, D. T. Tan, R. Sihota, S. C. Loon, K. Mori, S. Kinoshita, A. I. Hollander, R. Qamar, Y. X. Wang, Y. Y. Teo, E. S. Tai, C. Hartleben-Matkin, D. Lozano-Giral, S. M. Saw, C. Y. Cheng, J. C. Zenteno, C. P. Pang, H. T. Bui, O. Hee, J. E. Craig, D. P. Edward, M. Yonahara, J. M. Neto, M. L. Guevara-Fujita, L. Xu, R. Ritch, A. T. Liza-Sharmini, T. Y. Wong, S. Al-Obeidan, N. H. Do, P. Sundaresan, C. C. Tham, P. J. Foster, L. Vijaya, K. Tashiro, E. N. Vithana, N. Wang, and T. Aung. 2016. ''Genome-wide association study identifies five new susceptibility loci for primary angle closure glaucoma'', Nat Genet, 48: 556-62. Kim, J. K., A. Louhghalam, G. Lee, B. W. Schafer, D. Wirtz, and D. H. Kim. 2017. ''Nuclear lamin A/C harnesses the perinuclear apical actin cables to protect nuclear morphology'', Nat Commun, 8: 2123. Kong, M., Y. Zhang, M. Song, W. Cong, C. Gao, J. Zhang, S. Han, Q. Tu, and X. Ma. 2021. ''Myocardin‑related transcription factor A nuclear translocation contributes to mechanical overload‑induced nucleus pulposus fibrosis in rats with intervertebral disc degeneration'', Int J Mol Med, 48. Kotecha, A. 2007. ''What biomechanical properties of the cornea are relevant for the clinician?'', Surv Ophthalmol, 52 Suppl 2: S109-14. Koushki, N., A. Ghagre, L. K. Srivastava, C. Molter, and A. J. Ehrlicher. 2023. ''Nuclear compression regulates YAP spatiotemporal fluctuations in living cells'', Proc Natl Acad Sci U S A, 120: e2301285120. Kurita, N., C. Mayama, A. Tomidokoro, M. Aihara, and M. Araie. 2009. ''Potential of the pentacam in screening for primary angle closure and primary angle closure suspect'', J Glaucoma, 18: 506-12. Lagrou, L. M., J. Gilbert, M. Hannibal, M. S. Caird, I. Thomas, S. E. Moroi, and B. L. Bohnsack. 2018. ''Altered corneal biomechanical properties in children with osteogenesis imperfecta'', J aapos, 22: 183-87 e1. Lakk, M., and D. Krizaj. 2021. ''TRPV4-Rho signaling drives cytoskeletal and focal adhesion remodeling in trabecular meshwork cells'', Am J Physiol Cell Physiol, 320: C1013-C30. Lammerding, J., and C. R. Hsia. 2020. ''Feeling Stressed? Piezo1-Mediated Loss of Heterochromatin Buys Time for Long-Term Adaptation'', Cell, 181: 760-62. Last, J. A., T. Pan, Y. Ding, C. M. Reilly, K. Keller, T. S. Acott, M. P. Fautsch, C. J. Murphy, and P. Russell. 2011. ''Elastic modulus determination of normal and glaucomatous human trabecular meshwork'', Invest Ophthalmol Vis Sci, 52: 2147-52. Lee, H., C. J. Roberts, T. I. Kim, R. Ambrosio, Jr., A. Elsheikh, and D. S. Yong Kang. 2017. ''Changes in biomechanically corrected intraocular pressure and dynamic corneal response parameters before and after transepithelial photorefractive keratectomy and femtosecond laser-assisted laser in situ keratomileusis'', J Cataract Refract Surg, 43: 1495-503. Lele, T. P., R. B. Dickinson, and G. G. Gundersen. 2018. ''Mechanical principles of nuclear shaping and positioning'', J Cell Biol, 217: 3330-42. Liang, Y., D. S. Friedman, Q. Zhou, X. H. Yang, L. P. Sun, L. Guo, D. S. Chang, L. Lian, N. L. Wang, and Group Handan Eye Study. 2011. ''Prevalence and characteristics of primary angle-closure diseases in a rural adult Chinese population: the Handan Eye Study'', Invest Ophthalmol Vis Sci, 52: 8672-9. Lin, C. H., Y. H. Chien, S. F. Peng, W. Y. Tsai, Y. C. Tung, C. T. Lee, C. C. Chien, W. L. Hwu, and N. C. Lee. 2014. ''Cyclic pamidronate infusion for neonatal-onset osteogenesis imperfecta'', Pediatr Neonatol, 55: 306-11. Liton, P. B., and P. Gonzalez. 2008. ''Stress response of the trabecular meshwork'', J Glaucoma, 17: 378-85. Liton, P. B., X. Liu, P. Challa, D. L. Epstein, and P. Gonzalez. 2005. ''Induction of TGF-beta1 in the trabecular meshwork under cyclic mechanical stress'', J Cell Physiol, 205: 364-71. Liu, C., M. E. Nongpiur, C. Y. Cheng, C. C. Khor, M. Yu, R. Husain, C. L. Ho, T. T. Wong, P. Y. Boey, S. Perera, T. Y. Wong, E. N. Vithana, and T. Aung. 2021. ''Evaluation of Primary Angle-Closure Glaucoma Susceptibility Loci for Estimating Angle Closure Disease Severity'', Ophthalmology, 128: 403-09. Lopes, Bernardo T., FangJun Bao, JunJie Wang, XiaoYu Liu, LiZhen Wang, Ahmed Abass, Ashkan Eliasy, and Ahmed Elsheikh. 2021. ''Review of in-vivo characterisation of corneal biomechanics'', Medicine in Novel Technology and Devices, 11: 100073. Luna, C., G. Li, P. B. Liton, D. L. Epstein, and P. Gonzalez. 2009. ''Alterations in gene expression induced by cyclic mechanical stress in trabecular meshwork cells'', Mol Vis, 15: 534-44. Luxton, G. W., E. R. Gomes, E. S. Folker, E. Vintinner, and G. G. Gundersen. 2010. ''Linear arrays of nuclear envelope proteins harness retrograde actin flow for nuclear movement'', Science, 329: 956-9. Luz, A., B. Lopes, M. Salomao, and R. Ambrosio. 2016. ''Application of corneal tomography before keratorefractive procedure for laser vision correction'', J Biophotonics, 9: 445-53. Luz, Allan, Fernando Faria-Correia, Marcela Q Salomão, Bernardo T Lopes, and Renato Ambrósio Jr. 2016. ''Corneal biomechanics: Where are we?'', Journal of current ophthalmology, 28: 97. Ma, J., Y. Wang, P. Wei, and V. Jhanji. 2018. ''Biomechanics and structure of the cornea: implications and association with corneal disorders'', Surv Ophthalmol, 63: 851-61. Madekurozwa, M., W. D. Stamer, E. Reina-Torres, J. M. Sherwood, and D. R. Overby. 2021. ''The ocular pulse decreases aqueous humor outflow resistance by stimulating nitric oxide production'', Am J Physiol Cell Physiol, 320: C652-C65. Magalhaes, O. A., H. C. Rohenkohl, L. T. de Souza, L. Schuler-Faccini, and T. M. Felix. 2018. ''Collagen I Defect Corneal Profiles in Osteogenesis Imperfecta'', Cornea, 37: 1561-65. Mak, H., G. Xu, and C. K. Leung. 2013. ''Imaging the iris with swept-source optical coherence tomography: relationship between iris volume and primary angle closure'', Ophthalmology, 120: 2517-24. Marini, J. C., and A. R. Blissett. 2013. ''New genes in bone development: what''s new in osteogenesis imperfecta'', J Clin Endocrinol Metab, 98: 3095-103. Marini, J. C., A. Forlino, W. A. Cabral, A. M. Barnes, J. D. San Antonio, S. Milgrom, J. C. Hyland, J. Korkko, D. J. Prockop, A. De Paepe, P. Coucke, S. Symoens, F. H. Glorieux, P. J. Roughley, A. M. Lund, K. Kuurila-Svahn, H. Hartikka, D. H. Cohn, D. Krakow, M. Mottes, U. Schwarze, D. Chen, K. Yang, C. Kuslich, J. Troendle, R. Dalgleish, and P. H. Byers. 2007. ''Consortium for osteogenesis imperfecta mutations in the helical domain of type I collagen: regions rich in lethal mutations align with collagen binding sites for integrins and proteoglycans'', Hum Mutat, 28: 209-21. Marshall, G. E., A. G. Konstas, and W. R. Lee. 1993. ''Collagens in ocular tissues'', Br J Ophthalmol, 77: 515-24. Matsuo, T. 2000. ''Basal nitric oxide production is enhanced by hydraulic pressure in cultured human trabecular cells'', Br J Ophthalmol, 84: 631-5. Michelessi, M., A. Azuara-Blanco, and G. Virgili. 2022. ''Cochrane Corner: evidence on the management of primary angle closure glaucoma'', Eye (Lond), 36: 684-85. Miroshnikova, Y. A., and S. A. Wickstrom. 2022. ''Mechanical Forces in Nuclear Organization'', Cold Spring Harb Perspect Biol, 14: a039685. Moustardas, Petros, Daniel Aberdam, and Neil Lagali. 2023. "MAPK Pathways in Ocular Pathophysiology: Potential Therapeutic Drugs and Challenges." In Cells. Murphy, R., M. Irnaten, A. Hopkins, J. O''Callaghan, W. D. Stamer, A. F. Clark, D. Wallace, and C. J. O''Brien. 2022. ''Matrix Mechanotransduction via Yes-Associated Protein in Human Lamina Cribrosa Cells in Glaucoma'', Invest Ophthalmol Vis Sci, 63: 16. Narayanaswamy, A., D. H. Su, M. Baskaran, A. C. Tan, M. E. Nongpiur, H. M. Htoon, T. Y. Wong, and T. Aung. 2011. ''Comparison of ocular response analyzer parameters in chinese subjects with primary angle-closure and primary open-angle glaucoma'', Arch Ophthalmol, 129: 429-34. Nava, M. M., Y. A. Miroshnikova, L. C. Biggs, D. B. Whitefield, F. Metge, J. Boucas, H. Vihinen, E. Jokitalo, X. Li, J. M. Garcia Arcos, B. Hoffmann, R. Merkel, C. M. Niessen, K. N. Dahl, and S. A. Wickstrom. 2020. ''Heterochromatin-Driven Nuclear Softening Protects the Genome against Mechanical Stress-Induced Damage'', Cell, 181: 800-17 e22. Nguyen, B. A., M. A. Reilly, and C. J. Roberts. 2020. ''Biomechanical contribution of the sclera to dynamic corneal response in air-puff induced deformation in human donor eyes'', Exp Eye Res, 191: 107904. Nolan, W. P., J. L. See, P. T. Chew, D. S. Friedman, S. D. Smith, S. Radhakrishnan, C. Zheng, P. J. Foster, and T. Aung. 2007. ''Detection of primary angle closure using anterior segment optical coherence tomography in Asian eyes'', Ophthalmology, 114: 33-9. Nongpiur, M. E., C. Y. Cheng, R. Duvesh, S. Vijayan, M. Baskaran, C. C. Khor, J. Allen, S. Kavitha, R. Venkatesh, D. Goh, R. Husain, P. Y. Boey, D. Quek, C. L. Ho, T. T. Wong, S. Perera, T. Y. Wong, S. R. Krishnadas, P. Sundaresan, T. Aung, and E. N. Vithana. 2018. ''Evaluation of Primary Angle-Closure Glaucoma Susceptibility Loci in Patients with Early Stages of Angle-Closure Disease'', Ophthalmology, 125: 664-70. Nongpiur, M. E., M. He, N. Amerasinghe, D. S. Friedman, W. T. Tay, M. Baskaran, S. D. Smith, T. Y. Wong, and T. Aung. 2011. ''Lens vault, thickness, and position in Chinese subjects with angle closure'', Ophthalmology, 118: 474-9. Nongpiur, M. E., C. C. Khor, C. Y. Cheng, R. Husain, P. Y. Boey, A. Chew, C. L. Ho, T. T. Wong, S. Perera, T. Y. Wong, E. N. Vithana, and T. Aung. 2019. ''Integration of Genetic and Biometric Risk Factors for Detection of Primary Angle Closure Glaucoma'', Am J Ophthalmol, 208: 160-65. Nongpiur, M. E., O. Png, J. W. Chiew, K. R. Fan, M. J. Girard, T. Wong, D. Goh, S. A. Perera, and T. Aung. 2015. ''Lack of Association Between Corneal Hysteresis and Corneal Resistance Factor With Glaucoma Severity in Primary Angle Closure Glaucoma'', Invest Ophthalmol Vis Sci, 56: 6879-85. Patel, P. D., Y. L. Chen, R. B. Kasetti, P. Maddineni, W. Mayhew, J. C. Millar, D. Z. Ellis, S. K. Sonkusare, and G. S. Zode. 2021. ''Impaired TRPV4-eNOS signaling in trabecular meshwork elevates intraocular pressure in glaucoma'', Proc Natl Acad Sci U S A, 118: e2022461118. Pavlin, C. J., R. Ritch, and F. S. Foster. 1992. ''Ultrasound biomicroscopy in plateau iris syndrome'', Am J Ophthalmol, 113: 390-5. Peng, P. H., H. Nguyen, H. S. Lin, N. Nguyen, and S. Lin. 2011. ''Long-term outcomes of laser iridotomy in Vietnamese patients with primary angle closure'', Br J Ophthalmol, 95: 1207-11. Qassim, A., S. Mullany, F. Abedi, H. Marshall, M. M. Hassall, A. Kolovos, L. S. W. Knight, T. Nguyen, M. S. Awadalla, A. Chappell, A. M. Schulz, A. Galanopoulos, A. Agar, P. R. Healey, A. W. Hewitt, S. L. Graham, J. Landers, R. J. Casson, O. M. Siggs, and J. E. Craig. 2021. ''Corneal Stiffness Parameters Are Predictive of Structural and Functional Progression in Glaucoma Suspect Eyes'', Ophthalmology, 128: 993-1004. Quigley, H. A., and A. T. Broman. 2006. ''The number of people with glaucoma worldwide in 2010 and 2020'', Br J Ophthalmol, 90: 262-7. Ramos, R. F., and W. D. Stamer. 2008. ''Effects of cyclic intraocular pressure on conventional outflow facility'', Invest Ophthalmol Vis Sci, 49: 275-81. Reina-Torres, E., M. L. De Ieso, L. R. Pasquale, M. Madekurozwa, J. van Batenburg-Sherwood, D. R. Overby, and W. D. Stamer. 2021. ''The vital role for nitric oxide in intraocular pressure homeostasis'', Prog Retin Eye Res, 83: 100922. Roberts, C. J., A. Mahmoud, G. Fleming, M. Ohr, and P. Weber. 2020. ''Comparisons of Novel Stress-Strain Index and Other Clinical Measures of Corneal and Ocular Stiffness in Normal and Pathologic Cohorts'', Investigative Ophthalmology & Visual Science, 61: 5213-13. Roberts, C. J., A. M. Mahmoud, J. P. Bons, A. Hossain, A. Elsheikh, R. Vinciguerra, P. Vinciguerra, and R. Ambrosio, Jr. 2017. ''Introduction of Two Novel Stiffness Parameters and Interpretation of Air Puff-Induced Biomechanical Deformation Parameters With a Dynamic Scheimpflug Analyzer'', J Refract Surg, 33: 266-73. Rohrbach, M., and C. Giunta. 2012. ''Recessive osteogenesis imperfecta: clinical, radiological, and molecular findings'', Am J Med Genet C Semin Med Genet, 160C: 175-89. Ronkina, N., and M. Gaestel. 2022. ''MAPK-Activated Protein Kinases: Servant or Partner?'', Annu Rev Biochem, 91: 505-40. Rossi, G. C., L. Scudeller, A. Delfino, M. Raimondi, S. Pezzotta, M. Maccarone, E. Antoniazzi, G. M. Pasinetti, and P. E. Bianchi. 2012. ''Pentacam sensitivity and specificity in detecting occludable angles'', Eur J Ophthalmol, 22: 701-8. Scarcelli, G., S. Besner, R. Pineda, and S. H. Yun. 2014. ''Biomechanical characterization of keratoconus corneas ex vivo with Brillouin microscopy'', Invest Ophthalmol Vis Sci, 55: 4490-5. Schneemann, A., B. G. Dijkstra, T. J. van den Berg, W. Kamphuis, and P. F. Hoyng. 2002. ''Nitric oxide/guanylate cyclase pathways and flow in anterior segment perfusion'', Graefes Arch Clin Exp Ophthalmol, 240: 936-41. Schneemann, A., A. Leusink-Muis, T. van den Berg, P. F. Hoyng, and W. Kamphuis. 2003. ''Elevation of nitric oxide production in human trabecular meshwork by increased pressure'', Graefes Arch Clin Exp Ophthalmol, 241: 321-6. Scollo, P., M. P. Snead, A. J. Richards, R. Pollitt, and C. DeVile. 2018. ''Bilateral giant retinal tears in Osteogenesis Imperfecta'', BMC Med Genet, 19: 8. Sherwood, J. M., W. D. Stamer, and D. R. Overby. 2019. ''A model of the oscillatory mechanical forces in the conventional outflow pathway'', J R Soc Interface, 16: 20180652. Shields, M. B. 1980. ''The non-contact tonometer. Its value and limitations'', Surv Ophthalmol, 24: 211-9. Shim, M. S., and P. B. Liton. 2022. ''The physiological and pathophysiological roles of the autophagy lysosomal system in the conventional aqueous humor outflow pathway: More than cellular clean up'', Prog Retin Eye Res, 90: 101064. Shim, M. S., A. Nettesheim, A. Dixon, and P. B. Liton. 2021. ''Primary cilia and the reciprocal activation of AKT and SMAD2/3 regulate stretch-induced autophagy in trabecular meshwork cells'', Proc Natl Acad Sci U S A, 118. Soiberman, U., J. W. Foster, A. S. Jun, and S. Chakravarti. 2017. ''Pathophysiology of Keratoconus: What Do We Know Today'', Open Ophthalmol J, 11: 252-61. Sorushanova, A., L. M. Delgado, Z. Wu, N. Shologu, A. Kshirsagar, R. Raghunath, A. M. Mullen, Y. Bayon, A. Pandit, M. Raghunath, and D. I. Zeugolis. 2019. ''The Collagen Suprafamily: From Biosynthesis to Advanced Biomaterial Development'', Adv Mater, 31: e1801651. Stamer, W. D., and T. S. Acott. 2012. ''Current understanding of conventional outflow dysfunction in glaucoma'', Curr Opin Ophthalmol, 23: 135-43. Stamer, W. D., and A. F. Clark. 2017. ''The many faces of the trabecular meshwork cell'', Exp Eye Res, 158: 112-23. Stamer, W. D., Y. Lei, A. Boussommier-Calleja, D. R. Overby, and C. R. Ethier. 2011. ''eNOS, a pressure-dependent regulator of intraocular pressure'', Invest Ophthalmol Vis Sci, 52: 9438-44. Stamer, W. Daniel, and C. Ross Ethier. 2022. ''Cellular Mechanisms Regulating Conventional Outflow of Aqueous Humor.'' in Daniel M. Albert, Joan W. Miller, Dimitri T. Azar and Lucy H. Young (eds.), Albert and Jakobiec''s Principles and Practice of Ophthalmology (Springer International Publishing: Cham). Sun, L., M. Shen, J. Wang, A. Fang, A. Xu, H. Fang, and F. Lu. 2009. ''Recovery of corneal hysteresis after reduction of intraocular pressure in chronic primary angle-closure glaucoma'', Am J Ophthalmol, 147: 1061-6, 66 e1-2. Sun, X., Y. Dai, Y. Chen, D. Y. Yu, S. J. Cringle, J. Chen, X. Kong, X. Wang, and C. Jiang. 2017. ''Primary angle closure glaucoma: What we know and what we don''t know'', Prog Retin Eye Res, 57: 26-45. Tellios, N., M. Feng, N. Chen, H. Liu, V. Tellios, M. Wang, X. Li, C. A. Chang, and C. Hutnik. 2019. ''Mechanical stretch upregulates connexin43 in human trabecular meshwork cells'', Clin Exp Ophthalmol, 47: 787-94. Tham, Y. C., X. Li, T. Y. Wong, H. A. Quigley, T. Aung, and C. Y. Cheng. 2014. ''Global prevalence of glaucoma and projections of glaucoma burden through 2040: a systematic review and meta-analysis'', Ophthalmology, 121: 2081-90. Thomas, R., R. Parikh, J. Muliyil, and R. S. Kumar. 2003. ''Five-year risk of progression of primary angle closure to primary angle closure glaucoma: a population-based study'', Acta Ophthalmol Scand, 81: 480-5. Toris, C. B., G. L. Zhan, Y. L. Wang, J. Zhao, M. A. McLaughlin, C. B. Camras, and M. E. Yablonski. 2000. ''Aqueous humor dynamics in monkeys with laser-induced glaucoma'', J Ocul Pharmacol Ther, 16: 19-27. Tran, Q. T. N., P. X. L. Gan, W. Liao, Y. K. Mok, C. L. L. Chai, and W. S. F. Wong. 2023. ''Degradation of MK2 with natural compound andrographolide: A new modality for anti-inflammatory therapy'', Pharmacol Res, 194: 106861. Treurniet, S., P. Burger, E. A. E. Ghyczy, F. D. Verbraak, K. R. Curro-Tafili, D. Micha, N. Bravenboer, S. H. Ralston, R. de Vries, A. C. Moll, and E. M. W. Eekhoff. 2022. ''Ocular characteristics and complications in patients with osteogenesis imperfecta: a systematic review'', Acta Ophthalmol, 100: e16-e28. Vinciguerra, R., R. Ambrosio, Jr., A. Elsheikh, C. J. Roberts, B. Lopes, E. Morenghi, C. Azzolini, and P. Vinciguerra. 2016. ''Detection of Keratoconus With a New Biomechanical Index'', J Refract Surg, 32: 803-10. Vinciguerra, R., R. Ambrosio, Jr., C. J. Roberts, C. Azzolini, and P. Vinciguerra. 2017. ''Biomechanical Characterization of Subclinical Keratoconus Without Topographic or Tomographic Abnormalities'', J Refract Surg, 33: 399-407. Vinciguerra, R., A. Elsheikh, C. J. Roberts, R. Ambrosio, Jr., D. S. Kang, B. T. Lopes, E. Morenghi, C. Azzolini, and P. Vinciguerra. 2016. ''Influence of Pachymetry and Intraocular Pressure on Dynamic Corneal Response Parameters in Healthy Patients'', J Refract Surg, 32: 550-61. Vinciguerra, R., S. Rehman, N. A. Vallabh, M. Batterbury, G. Czanner, A. Choudhary, R. Cheeseman, A. Elsheikh, and C. E. Willoughby. 2020. ''Corneal biomechanics and biomechanically corrected intraocular pressure in primary open-angle glaucoma, ocular hypertension and controls'', Br J Ophthalmol, 104: 121-26. Vithana, E. N., C. C. Khor, C. Qiao, M. E. Nongpiur, R. George, L. J. Chen, T. Do, K. Abu-Amero, C. K. Huang, S. Low, L. A. Tajudin, S. A. Perera, C. Y. Cheng, L. Xu, H. Jia, C. L. Ho, K. S. Sim, R. Y. Wu, C. C. Y. Tham, P. T. K. Chew, D. H. Su, F. T. Oen, S. Sarangapani, N. Soumittra, E. A. Osman, H. T. Wong, G. Tang, S. Fan, H. Meng, D. T. L. Huong, H. Wang, B. Feng, M. Baskaran, B. Shantha, V. L. Ramprasad, G. Kumaramanickavel, S. K. Iyengar, A. C. How, K. Y. Lee, T. A. Sivakumaran, V. H. K. Yong, S. M. L. Ting, Y. Li, Y. X. Wang, W. T. Tay, X. Sim, R. Lavanya, B. K. Cornes, Y. F. Zheng, T. T. Wong, S. C. Loon, V. K. Y. Yong, N. Waseem, A. Yaakub, K. S. Chia, R. R. Allingham, M. A. Hauser, D. S. C. Lam, M. L. Hibberd, S. S. Bhattacharya, M. Zhang, Y. Y. Teo, D. T. Tan, J. B. Jonas, E. S. Tai, S. M. Saw, D. N. Hon, S. A. Al-Obeidan, J. Liu, T. N. B. Chau, C. P. Simmons, J. X. Bei, Y. X. Zeng, P. J. Foster, L. Vijaya, T. Y. Wong, C. P. Pang, N. Wang, and T. Aung. 2012. ''Genome-wide association analyses identify three new susceptibility loci for primary angle closure glaucoma'', Nat Genet, 44: 1142-46. Wang, I. J., T. H. Chiang, Y. F. Shih, S. C. Lu, L. L. Lin, J. W. Shieh, T. H. Wang, J. R. Samples, and P. T. Hung. 2006. ''The association of single nucleotide polymorphisms in the MMP-9 genes with susceptibility to acute primary angle closure glaucoma in Taiwanese patients'', Mol Vis, 12: 1223-32. Wang, J., J. Fan, C. Laschinger, P. D. Arora, A. Kapus, A. Seth, and C. A. McCulloch. 2005. ''Smooth muscle actin determines mechanical force-induced p38 activation'', J Biol Chem, 280: 7273-84. Wojciechowski, R., N. Congdon, W. Anninger, and A. Teo Broman. 2003. ''Age, gender, biometry, refractive error, and the anterior chamber angle among Alaskan Eskimos'', Ophthalmology, 110: 365-75. Wu, R. Y., M. E. Nongpiur, M. G. He, L. M. Sakata, D. S. Friedman, Y. H. Chan, R. Lavanya, T. Y. Wong, and T. Aung. 2011. ''Association of narrow angles with anterior chamber area and volume measured with anterior-segment optical coherence tomography'', Arch Ophthalmol, 129: 569-74. Xin, Y., K. Li, M. Huang, C. Liang, D. Siemann, L. Wu, Y. Tan, and X. Tang. 2023. ''Biophysics in tumor growth and progression: from single mechano-sensitive molecules to mechanomedicine'', Oncogene. Xu, P., B. Zhang, B. Deng, Q. Luo, and G. Song. 2023. ''Mechanical stretch facilitates tenomodulin expression to induce tenocyte migration via MAPK signaling pathway'', Arch Biochem Biophys, 734: 109486. Ying, G. S., M. G. Maguire, R. J. Glynn, and B. Rosner. 2020. ''Calculating Sensitivity, Specificity, and Predictive Values for Correlated Eye Data'', Invest Ophthalmol Vis Sci, 61: 29. Zhang, H., A. Eliasy, B. Lopes, A. Abass, R. Vinciguerra, P. Vinciguerra, R. Ambrosio, Jr., C. J. Roberts, and A. Elsheikh. 2021. ''Stress-Strain Index Map: A New Way to Represent Corneal Material Stiffness'', Front Bioeng Biotechnol, 9: 640434. Zhang, X., A. Schroeder, E. M. Callahan, B. M. Coyle, N. Wang, K. A. Erickson, J. S. Schuman, and M. E. Fini. 2006. ''Constitutive signalling pathway activity in trabecular meshwork cells from glaucomatous eyes'', Exp Eye Res, 82: 968-73.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/91888	-
dc.description.abstract	我們的研究旨在探討生物力學對前房病理生理的影響。首先，我們發現osteogenesis imperfecta患者在Corvis biomechanical index (CBI) 和tomographic and biomechanical index (TBI)較正常人更高，而Corvis biomechanical factor (CBiF)則較低。這些結果表明，角膜膠原缺陷對角膜的穩定性有很大影響。因為前房的力學穩定性降低可能導致擁擠的前房內虹膜和小樑網的接觸增加，我們進一步研究前房的力學穩定性是否與房角閉塞的發生有關。我們發現原發性閉角型青光眼患者的CBiF較正常人低。多變量邏輯回歸分析顯示CBiF較低與原發性閉角型青光眼的發生機率增加有關。與僅使用前房體積(ACV)相比，ACV和CBiF的結合在檢測原發性閉角型青光眼方面具有更好的診斷性能。根據這些臨床研究的結果，我們認識到有必要進一步研究前房生物力學對眼內壓的調節作用。小樑網透過控制房水排出在眼內壓調節中起著關鍵作用，然而，小樑網細胞對機械力的反應機制尚未完全理解。我們發現拉伸會引發感應機械力的轉錄因子YAP/TAZ和MRTF-A的核轉位，暗示基因表達的改變。此外，拉伸顯著增強了p38和MK2的磷酸化，表明p38-MK2信號通路被激活。值得注意的是，使用SB203580抑制p38可以抑制拉伸引起的一氧化氮生成。綜上所述，這些發現表明p38信號通路作為感應器，將拉伸的機械信號傳遞到小樑網細胞中，以調節一氧化氮的生成。這項研究為我們對眼內壓調節中拉伸誘導的分子機制提供了新的見解。進一步研究p38誘導的下游反應和轉錄活性可能揭示創新的青光眼治療方法的分子標靶。	zh_TW
dc.description.abstract	We aimed to investigate the impact of biomechanics on the pathophysiology of the anterior chamber. Firstly, we revealed that OI patients exhibited higher Corvis biomechanical index (CBI) and tomographic and biomechanical index (TBI), and lower Corvis Biomechanical Factor (CBiF) compared to healthy controls. These findings suggest that corneal collagen defect greatly affects the stability of the cornea. Consequently, we investigated whether the stability of anterior chamber could be associated with the occurrence of angle closure, as the impaired biomechanical stability of the anterior chamber may lead to iridotrabecular contact in crowded anterior chamber. We demonstrated that primary angle closure glaucoma (PACG) patients had lower CBiF compared to normal controls. Multivariable logistic regression analysis revealed that a lower CBiF was associated with higher odds of PACG. The combination of anterior chamber volume (ACV) and CBiF exhibited superior diagnostic performance in detecting PACG compared to ACV alone. Based on the above clinical study findings, we recognized the need for additional research into the biomechanics of anterior chamber in regulating intraocular pressure. The trabecular meshwork plays a critical role in intraocular pressure regulation through aqueous humor drainage, yet the mechanisms underlying trabecular meshwork cell response to mechanical forces remain incompletely understood. We revealed that stretch stress activated nuclear translocation of mechanosensitive transcription cofactors YAP/TAZ and MRTF-A, indicating functional nuclear remodeling. Moreover, uniaxial cyclic stretch significantly enhanced p38 and MK2 phosphorylation, suggesting activation of the p38-MK2 signaling pathway. Notably, pharmacological inhibition of p38 using SB203580 mitigated stretch-induced nitric oxide production. Collectively, these findings indicate that the p38 pathway acts as a mechanosensor, transducing mechanical cues from stretch stress to modulate nitric oxide generation in TM cells. This study provides novel insights into the role of p38 signaling in intraocular pressure regulation. Further research on downstream signaling events and transcriptional networks elicited by stretch induced p38 activation will likely unveil additional molecular targets for innovative glaucoma treatments.	en
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dc.description.tableofcontents	口試委員會審定書 I 誌謝 II 中文摘要 III ABSTRACT V TABLE OF CONTENTS VII LIST OF FIGURES X LIST OF TABLES XI SCHEMA 1 ABBREVIATION 2 CHAPTER 1 INTRODUCTION 3 1.1 CORNEAL BIOMECHANICS AND CORNEAL ECTASIA 3 1.2 CORNEAL BIOMECHANICS IN OSTEOGENESIS IMPERFECTA (OI) 4 1.3 CORNEAL BIOMECHANICS IN PRIMARY ANGLE CLOSURE GLAUCOMA (PACG) 6 1.4 TRABECULAR MESHWORK AND INTRAOCULAR PRESSURE HOMEOSTASIS 9 1.5 BIOMECHANICAL PROPERTIES OF THE TRABECULAR MESHWORK 10 1.6 TRABECULAR MESHWORK IN TREATMENT OF GLAUCOMA 10 1.7 TRABECULAR MESHWORK CELLS 11 1.8 MECHANICAL STRESS ON TRABECULAR MESHWORK CELLS 12 1.9 STATIC AND DYNAMIC STRETCH 13 1.10 CYCLIC STRETCHED CELL MODEL 14 1.11 NITRIC OXIDE AND INTRAOCULAR PRESSURE 15 1.12 MAPK SIGNAL PATHWAY 16 1.13 AIM OF OUR STUDY 17 CHAPTER 2 MATERIALS AND METHODS 20 2.1 PARTICIPANTS WITH OI, KERATOCONUS, AND HEALTHY CONTROLS 20 2.2 PARTICIPANTS WITH PACG AND HEALTHY CONTROLS 20 2.3 CORVIS ST FOR IN VIVO CORNEAL BIOMECHANICAL EVALUATION 22 2.4 PENTACAM FOR ANTERIOR CHAMBER TOMOGRAPHIC EVALUATION 26 2.5 STATISTICAL ANALYSIS 27 2.6 HUMAN TRABECULAR MESHWORK CELL CULTURE AND VALIDATION 28 2.7 ATMS STRETCH SYSTEM 30 2.8 RNA EXTRACTION AND REAL-TIME PCR 31 2.9 RNA SEQUENCING AND BIOINFORMATICS ANALYSIS 32 2.10 IMMUNOFLUORESCENCE MICROSCOPY 33 2.11 WESTERN BLOTTING ANALYSIS 34 2.12 NUCLEAR/CYTOSOL FRACTIONATION 35 2.13 LIVE/DEAD CELL VIABILITY ASSAY 36 2.14 NITRIC OXIDE DETECTION 36 CHAPTER 3 RESULTS 40 3.1 DEMOGRAPHIC AND OCULAR DATA OF THE SUBJECTS WITH OI, KERATOCONUS, AND HEALTHY CONTROLS 40 3.2 CORNEAL BIOMECHANICAL AND TOMOGRAPHIC DATA OF THE SUBJECTS WITH OI, KERATOCONUS, AND HEALTHY CONTROLS 41 3.3 DEMOGRAPHIC AND OCULAR DATA OF THE SUBJECTS WITH PACG AND NORMAL CONTROLS 44 3.4 CORNEAL BIOMECHANICAL DATA OF SUBJECTS WITH PACG AND NORMAL CONTROLS 45 3.5 MODEL FOR DISCRIMINATING BETWEEN SUBJECTS WITH PACG AND HEALTHY CONTROLS. 45 3.6 VALIDATION OF PRIMARY HUMAN TRABECULAR MESHWORK CELLS 46 3.7 ASSESSMENT OF CELL VIABILITY IN TRABECULAR MESHWORK CELLS FOLLOWING UNIAXIAL CYCLIC STRETCH USING LIVE/DEAD® CELL VIABILITY ASSAY 47 3.8 UNIAXIAL CYCLIC STRETCH PROMOTES YAP/TAZ AND MRTF-A NUCLEAR ACCUMULATION IN TRABECULAR MESHWORK CELLS 48 3.9 INFLUENCE OF UNIAXIAL CYCLIC STRETCH ON NUCLEAR SHAPE AND ASSEMBLY OF LINC (LINKER OF NUCLEOSKELETON AND CYTOSKELETON) COMPLEXES INTO NUCLEAR LINES 49 3.10 UNIAXIAL CYCLIC STRETCH ACTIVATES P38-MK2 PATHWAY 51 3.11 UNIAXIAL CYCLIC STRETCH ACTIVATES PRODUCTION OF NITRIC OXIDE 52 3.12 INHIBITION OF THE P38 PATHWAY ABROGATES STRETCH INDUCED PRODUCTION OF NITRIC OXIDE 52 CHAPTER 4 DISCUSSION 54 4.1 DISTINCT BIOMECHANICAL FEATURES IN OI CORNEAS 54 4.2 THE RELATIONSHIP BETWEEN CORNEAL BIOMECHANICAL AND TOPOGRAPHIC PROPERTIES IN OI 56 4.3 CORNEAL BIOMECHANICAL PROPERTY SERVES AS INDEPENDENT PREDICTORS FOR PACG 58 4.4 THE UTILIZATION OF CBIF AND ACV TOGETHER ENHANCED THE DISCRIMINATION OF PACG 60 4.5 CELL VIABILITY AFTER UNIAXIAL CYCLIC STRETCH 62 4.6 YAP/TAZ NUCLEAR TRANSLOCATION IN RESPONSE TO STRETCH STRESS 64 4.7 MRTF-A NUCLEAR TRANSLOCATION IN RESPONSE TO STRETCH STRESS 64 4.8 NUCLEAR DEFORMATION FOLLOWING UNIAXIAL CYCLIC STRETCH 65 4.9 FORMATION OF NUCLEAR LINES FOLLOWING STRETCH STRESS 66 4.10 MAPK SIGNAL PATHWAY FOLLOWING STRETCH STRESS 67 4.11 P38-MK2 SIGNAL PATHWAY FOLLOWING UNIAXIAL CYCLIC STRETCH 69 4.12 NITRIC OXIDE PRODUCTION FOLLOWING STRETCH STRESS 70 4.13 ROLE OF P38 SIGNAL PATHWAY IN STRETCH INDUCED NITRIC OXIDE PRODUCTION 71 CHAPTER 5 PERSPECTIVES 72 5.1 THE ROLE OF ENOS IN CYCLIC STRETCH-INDUCED NITRIC OXIDE PRODUCTION. 72 5.2 THE ROLE OF MK2 IN STRETCH INDUCED NITRIC OXIDE PRODUCTION 73 5.3 THE ROLE OF P38-MK2 PATHWAY IN REGULATING OUTFLOW FACILITY IN MICE. 75 5.4 CONTRIBUTIONS 76 REFERENCES 78 FIGURES 93 TABLES 109 APPENDIX 121	-
dc.language.iso	en	-
dc.subject	生物力學	zh_TW
dc.subject	MK2	zh_TW
dc.subject	一氧化氮	zh_TW
dc.subject	p38	zh_TW
dc.subject	小樑網	zh_TW
dc.subject	眼壓	zh_TW
dc.subject	青光眼	zh_TW
dc.subject	動態拉伸	zh_TW
dc.subject	Trabecular meshwork	en
dc.subject	p38	en
dc.subject	MK2	en
dc.subject	Nitric oxide	en
dc.subject	Intraocular pressure	en
dc.subject	Glaucoma	en
dc.subject	Dynamic stretch	en
dc.subject	Biomechanics	en
dc.title	生物力學對眼前房的病生理影響：從臨床到實驗室	zh_TW
dc.title	The impact of biomechanics on the pathophysiology of the anterior chamber: From bedside to bench	en
dc.type	Thesis	-
dc.date.schoolyear	112-1	-
dc.description.degree	博士	-
dc.contributor.coadvisor	周祖述	zh_TW
dc.contributor.coadvisor	Tzuu-Shuh Jou	en
dc.contributor.oralexamcommittee	林慧茹;王宗仁;施博仁	zh_TW
dc.contributor.oralexamcommittee	Hui-Ju Lin;Tsung-Jen Wang;Po-Jen Shih	en
dc.subject.keyword	生物力學,動態拉伸,青光眼,眼壓,小樑網,p38,MK2,一氧化氮,	zh_TW
dc.subject.keyword	Biomechanics,Dynamic stretch,Glaucoma,Intraocular pressure,Trabecular meshwork,p38,MK2,Nitric oxide,	en
dc.relation.page	121	-
dc.identifier.doi	10.6342/NTU202400193	-
dc.rights.note	未授權	-
dc.date.accepted	2024-01-23	-
dc.contributor.author-college	醫學院	-
dc.contributor.author-dept	臨床醫學研究所	-
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