Диссертация (Молекулярные и клеточные механизмы ультрафиолетового сшивания роговицы), страница 41
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Файл "Диссертация" внутри архива находится в папке "Молекулярные и клеточные механизмы ультрафиолетового сшивания роговицы". PDF-файл из архива "Молекулярные и клеточные механизмы ультрафиолетового сшивания роговицы", который расположен в категории "". Всё это находится в предмете "биология" из Аспирантура и докторантура, которые можно найти в файловом архиве РНИМУ им. Пирогова. Не смотря на прямую связь этого архива с РНИМУ им. Пирогова, его также можно найти и в других разделах. , а ещё этот архив представляет собой докторскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени доктора биологических наук.
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– Vol. 36, № 9. – P. 1106-1115.185. Comparison of the conventional Dresden protocol and accelerated protocol withhigher ultraviolet intensity in corneal collagen cross-linking for keratoconus / M.Choi, J. Kim, E.K. Kim [et al.] // Cornea. – 2017. – Vol. 36, № 5. – P. 523-529.253186. Conservative treatment of keratoconus by riboflavin-uva-induced cross-linking ofcorneal collagen: qualitative investigation / C. Mazzotta, C. Traversi, S. Baiocchi [etal.] // Eur. J. Ophthalmol.
– 2006. – Vol. 16, № 4. – P. 530-535.187. Contact lens-assisted collagen cross-linking (CACXL): A new technique for crosslinking thin corneas / S. Jacob, D.A. Kumar, A. Agarwal [et al.] // J. Refract. Surg. –2014. – Vol. 30, № 6. – P. 366-372.188. Conventional and iontophoresis corneal cross-linking for keratoconus: efficacy andassessment by optical coherence tomography and confocal microscopy / L. Jouve, V.Borderie, O.
Sandali [et al.] // Cornea. – 2017. – Vol. 36, № 2. – P. 153-162.189. Cornea collagen cross-linking for keratoconus: a comparison between accelerated andconventional methods / H. Razmjoo, A. Peyman, A. Rahimi, H.J. Modrek // Adv.Biomed. Res. – 2017. – Vol. 6. – P. 10.190. Corneal biomechanical changes after collagen cross-linking from porcine eye inflationexperiments / S. Kling, L. Remon, A.
Pérez-Escudero [et al.] // Invest. Ophthalmol.Vis. Sci. – 2010. – Vol. 51, № 8. – P. 3961-3968.191. Corneal biomechanics in iatrogenic ectasia and keratoconus: A review of the literature/ M. Moshirfar, J.N. Edmonds, N.L. Behunin, S.M. Christiansen // Oman J.Ophthalmol. – 2013. – Vol. 6, № 1. – P. 12-17.192. Corneal collagen cross-linking in paediatric patients affected by keratoconus / K.A.Knutsson, G. Paganoni, S. Matuska [et al.] // Br. J. Ophthalmol. – 2018. – Vol. 102, №2. – P. 248-252.193. Corneal collagen cross-linking with riboflavin and ultraviolet a irradiation forkeratoconus: long-term results / H. Hashemi, M.A. Seyedian, M.
Miraftab [et al.] //Ophthalmology. – 2013. – Vol. 120, № 8. – P. 1515-1520.194. Corneal collagen cross-linking with riboflavin and ultraviolet A light for pediatrickeratoconus: ten-year results / C. Mazzotta, C. Traversi, S. Baiocchi [et al.] // Cornea.– 2018.
– doi: 10.1097/ICO.0000000000001505.254195. Corneal collagen crosslinking with riboflavin and ultraviolet A to treat inducedkeratectasia after laser in situ keratomileusis / F. Hafezi, J. Kanellopoulos, R.Wiltfang, T. Seiler // J. Cataract Refract. Surg. – 2007. – Vol. 33, № 12. – P. 20352040.196. Corneal collagen fibril changes after ultraviolet a/riboflavin corneal crosslinking / Y.Xia, B. Liu, Z.
Fan, X. Peng // Cornea. – 2014. – Vol. 33, № 1. – P. 56-59.197. Corneal cross-linking and safety issues / E. Spoerl, A. Hoyer, L.E. Pillunat, F. Raiskup// Open Ophthalmol. J. – 2011. – Vol. 5. – P. 14-16.198. Corneal cross-linking with riboflavin and UV-A in the mouse cornea in vivo:morphological, biochemical, and physiological analysis / S. Kling, A. Hammer, A.Conti, F. Hafezi // Transl. Vis.
Sci. Technol. – 2017. – Vol. 6, № 1. – P. 1-15.199. Corneal endothelial cell apoptosis in patients with Fuchs' dystrophy / V.M. Borderie,M. Baudrimont, A. Vallée [et al.] // Invest. Ophthalmol. Vis. Sci. – 2000. – Vol. 41, №9. – P. 2501-2505.200. Corneal healing after riboflavin ultraviolet-A collagen cross-linking determined byconfocal laser scanning microscopy in vivo: early and late modifications / C.Mazzotta, C. Traversi, S. Baiocchi [et al.] // Am.
J. Ophthalmol. – 2008. – Vol. 146,№ 4. – P. 527-533.201. Corneal opacity in lumican-null mice: defects in collagen fibril structure and packingin the posterior stroma / S. Chakravarti, W.M. Petroll, J.R. Hassell [et al.] // Invest.Ophthalmol. Vis. Sci. – 2000. – Vol. 41, № 11. – P. 3365-3373.202. Corneal stromal elasticity and viscoelasticity assessed by atomic force microscopy afterdifferent cross linking protocols / J. Dias, V.F. Diakonis, M. Lorenzo [et al.] // Exp. EyeRes.
– 2015. – Vol. 138. – Р. 1-5.203. Corneal thickness changes after corneal collagen crosslinking for keratoconus andcorneal ectasia: one-year results / S.A. Greenstein, V.P. Shah, K.L. Fry, P.S. Hersh //J. Cataract Refract. Surg. – 2011. – Vol. 37, № 4. – P. 691-700.255204. Cross-linking with ultraviolet-a and riboflavin reduces corneal permeability / J.M.Stewart, O.T. Lee, F.F.
Wong [et al.] // Invest. Ophthalmol. Vis. Sci. – 2011. – Vol.52, № 12. – P. 9275-9278.205. Cummings, A.B. Newer protocols and future in collagen cross-linking / A.B.Cummings, R. McQuaid, M. Mrochen // Indian J. Ophthalmol. – 2013. – Vol. 61, №8. – P. 425-427.206. Dalton, M. Кросс-линкинг без удаления эпителия. Многообещающее начало / M.Dalton // Eye World-Russia. – 2012. – Vol. 5, № 2.
– P. 14.207. Dawson, D.G. Corneal endothelium; structure and function in health and disease /D.G. Dawson, D.H. Geroski, H.F. Edelhauser. - 4-th ed. – Elsevier Corneal surgery,2005. – Р. 57-70.208. Daxer, A. Collagen fibril orientation in the human corneal stroma and its implicationin keratoconus / A. Daxer, P. Fratzl // Invest. Ophthalmol. Vis.
Sci. – 1997. – Vol. 38,№ 1. – P. 121-129.209. Deng, Y. Immunohistochemistry research on keratoconus / Y. Deng, S. Liu, R. Cai //Yan Ke Xue Bao. – 2001. – Vol. 17, № 2. – P. 65-75.210. Differential expression of collagen types XVIII/endostatin and XV in normal,keratoconus, and scarred human corneas / M. Mааttа, R. Heljasvaara, R. Sormunen [etal.] // Cornea. – 2006а. – Vol. 25, № 3. – P.
341-349.211. Distribution of specific collagen types and fibronectin in normal and keratoconuscorneas / S. Tsuchiya, M. Tanaka, H. Konomi, T. Hayashi // Jpn. J. Ophthalmol. –1986. – Vol. 30, № 1. – P. 14-31.212. Distribution of types I, II, III, IV and V collagen in normal and keratoconus corneas /K. Nakayasu, M. Tanaka, H. Konomi, T. Hayashi // Ophthalmic Res. – 1986. – Vol. 8,№ 1.
– P. 1-10.213. Dynamic mechanical spectroscopy of the cornea for measurement of its viscoelasticproperties in vitro / F. Soergel, B. Jean, T. Seller [et al.] // German J. Ophthalmol. –1995. – Vol. 4, № 3. – P. 151-156.256214. Effect of corneal epithelium on ultraviolet-A and riboflavin absorption / K.M. Bottоs,P.
Schor, J.L. Dreyfuss [et al.] // Arq. Bras. Oftalmol. – 2011. – Vol. 74, № 5. – P.348-351.215. Effect of riboflavin-UVA-induced collagen cross-linking on intraocular pressuremeasurement / T. Romppainen, L.M. Bachmann, C. Kaufmann [et al.] // Invest.Ophthalmol. Vis. Sci. – 2007. – Vol. 48, № 12. – P. 5494-5498.216. Effects of riboflavin/UVA corneal cross-linking on keratocytes and collagen fibres inhuman cornea / R.
Mencucci, M. Marini, I. Paladini [et al.] // Clin. Exp. Ophthalmol. –2010. – Vol. 38, № 1. – P. 49-56.217. EMMPRIN and MMP-1 in keratoconus / H.P. Seppаlа, M. Mааttа, M. Rautia [et al.] //Cornea. – 2006. – Vol. 25, № 3. – P. 325-230.218. Enzymatic evidence of the depth dependence of stiffening on riboflavin/UVA treatedcorneas / T. Schilde, M. Kohlhaas, E. Spoerl, L.E. Pillunat // Ophthalmologe. – 2008.– Vol. 105, № 2. – P. 165-169.219. Epithelium-off corneal collagen cross-linking versus transepithelial cross-linking forpediatric keratoconus / A. Magli, R.
Forte, A. Tortori [et al.] // Cornea. – 2013. – Vol.32, № 5. – P. 597-601.220. Essential versus accessory aspects of cell death: recommendations of the NCCD 2015/ L. Galluzzi, J.M. Bravo-San Pedro, I. Vitale [et al.] // Cell Death Differ. – 2015. –Vol. 22, № 1. – P. 58-73.221. Evaluation of corneal microstructure in keratoconus: a confocal microscopy study /E.B. Ozgurhan, N. Kara, A. Yildirim [et al.] // Am. J.
Ophthalmol. – 2013. – Vol. 156,№ 5. – P. 885-893.222. Evidence of oxidative stress in human corneal diseases / R. Buddi, B. Lin, S.R.Atilano [et al.] // J. Histochem. Cytochem. – 2002. – Vol. 50, № 3. – P. 341-351.223. Expression of betaig-h3 is lower than normal in keratoconus corneas but increaseswith scarring / L. Takаcs, A. Csutak, E. Balаzs [et al.] // Cornea. – 1999. – Vol. 18, №5.
– P. 599-605.257224. Expression of degradative enzymes and protease inhibitors in corneas withkeratoconus / L. Zhou, S. Sawaguchi, S.S. Twining [et al.] // Invest. Ophthalmol. Vis.Sci. – 1998. – Vol. 39, № 7. – P. 1117-1124.225. Expression of HLA-G in human cornea, an immune-privileged tissue / M. LeDiscorde, P.
Moreau, P. Sabatier [et al.] // Hum. Immunol. – 2003. – Vol. 64, № 11. –P. 1039-1044.226. Expression of type XII collagen and hemidesmosome-associated proteins inkeratoconus corneas / E.L. Cheng, I. Maruyama, N. SundarRaj [et al.] // Curr. EyeRes. – 2001. – Vol. 22, № 5. – P. 333-340.227. Expression of wound healing and stress-related proteins in keratoconus corneas / L.Zhou, B.Y. Yue, S.S.
Twining [et al.] // Curr. Eye Res. – 1996. – Vol. 15, № 11. – P.1124-1131.228. Famose, F. Evaluation of accelerated collagen cross-linking for the treatment ofmelting keratitis in ten cats / F. Famose // Vet. Ophthalmol. – 2015. – Vol. 18, № 2. –P. 95-104.229. Fibrotic disorders in the eye: targets of gene therapy / S. Saika, O. Yamanaka, T.Sumioka [et al.] // Prog.