Ординатура / Офтальмология / Английские материалы / Biomaterials and regenerative medicine in ophthalmology_Chirila_2010

HF (2005), ‘Ex vivo confocal microscopy of human LASIK corneas with histologic and ultrastructural correlation’, Ophthalmology, 112, 634–44.

Dawson DG, Grossniklaus HE, McCarey BE and Edelhauser HF (2008), ‘Biomechanical and wound healing characteristics of corneas after excimer laser keratorefractive surgery: is there a difference between advanced surface ablation and sub-Bowman’s keratomileusis?’, J Refract Surg, 24, S90–S96.

Daxer A (2008), ‘Corneal intrastromal implantation surgery for the treatment of moderate and high myopia’, J Cataract Refract Surg, 34, 194–98.

Deg JK and Binder PS (1988), ‘Histopathology and clinical behavior of polysulfone intracorneal implants in the baboon model. Polysulfone lens implants’, Ophthalmology,

95, 506–15.

Diehl KA, Foley JD, Nealey PF and Murphy CJ (2005), ‘Nanoscale topography modulates corneal epithelial cell migration’, J Biomed Mater Res A, 75, 603–11.

Dohlman CA, Refojo MF and Rose J (1967), ‘Synthetic polymers in corneal surgery. I.

Glycerol methacrylate’, Arch Ophthalmol, 77, 252–57.

Dohlman CH and Doane MG (1994), ‘Some factors influencing outcome after keratoprosthesis surgery’, Cornea, 13, 214–18.

Donate D, Albert O, Colliac JP, Tubelis P, Sabatier P, Mourou G, Burillon C, Pouliquen YM and Legeais J-M (2004), ‘Femtosecond laser: a micromachining system for corneal surgery’, J Fr Ophtalmol, 27, 783–89.

Dravida S, Gaddipati S, Griffith M, Merrett K, Lakshmi Madhira S, Sangwan VS and

Vemuganti GK (2008), ‘A biomimetic scaffold for culturing limbal stem cells: a promising alternative for clinical transplantation’, J Tissue Eng Regen Med, 2,

263–71.

Drubaix I, Legeais J-M, Malek-Chesire N, Savoldelli M, Menasche M, Robert L, Renard

G and Pouliquen Y (1996), ‘Collagen synthesised in fluorocarbon polymer implant in the rabbit cornea’, Exp Eye Res, 62, 367–76.

Du Y, Funderburgh ML, Mann MM, SundarRaj N and Funderburgh JL (2005), ‘Multipotent stem cells in human corneal stroma’, Stem Cells, 23, 1266–75.

Dua HS, Gomes JAP and Singh A (1994), ‘Corneal epithelial wound healing’, Br J Ophthalmol, 78, 401–08.

Dua HS and Azuara-Blanco A (2000), ‘Limbal stem cells of the corneal epithelium’,

Surv Ophthalmol, 44, 415–25.

Duan X and Sheardown H (2007), ‘Incorporation of cell-adhesion peptides into collagen scaffolds promotes corneal epithelial stratification’, J Biomater Sci Polym Ed, 18, 701–11.

Dudenhoefer EJ, Nouri M, Gipson IK, Baratz KH, Tisdale AS, Dryja TP, Abad JC and Dohlman CH (2003), ‘Histopathology of explanted collar and button keratoprostheses: a clinicopathologic correlation’, Cornea, 22, 424–28.

Dupont D, Gravagna P, Albinet P, Tayot J-L, Romanet J-P, Mouillon M and Eloy R (1989), ‘Biocompatability of human type IV intracorneal implants’, Cornea, 8, 251–58.

Dupps WJJ and Wilson SE (2006), ‘Biomechanics and wound healing in the cornea’,

Exp Eye Res, 83, 709–20.

Dupuy FP, Savoldelli M, Robert AM, Robert L, Legeais J-M and Renard G (2001), ‘Chemotactic penetration of keratocytes in ePTFE polymer in vitro’, J Biomed Mater Res, 56, 487–93.

Espana EM, Grueterich M, Mateo A, Romano AC, Yee SB, Yee RW and Tseng SC (2003), ‘Cleavage of corneal basement membrane components by ethanol exposure in laser-assisted subepithelial keratectomy’, J Cat Refract Surg, 26, 1192–97.

Esquenazi S, Bui V and Bibas O (2006), ‘Surgical correction of hyperopia’, Surv Ophthalmol, 51, 381–418.

120 Biomaterials and regenerative medicine in ophthalmology

Evans MDM and Steele JG (1997), ‘Multiple attachment mechanisms of corneal epithelial cells to a polymer – cells can attach in the absence of exogenous adhesion proteins through a mechanism that requires microtubules’, Exp Cell Res, 233, 88–98.

Evans MDM and Steele JG (1998), ‘The effect of polymer surface chemistry on cell attachment, growth and deposition of extracellular matrix components by corneal epithelial cells’, J Biomed Mater Res, 40, 621–30.

Evans MDM, Dalton BA and Steele JG (1999), ‘Persistent adhesion of epithelial tissue is sensitive to polymer topography’, J Biomed Mater Res, 45, 485–93.

Evans MDM, Xie RZ, Fabbri M, Madigan MC, Chaouk H, Beumer GJ, Meijs GF, Griesser H, Steele JG and Sweeney DF (2000), ‘Epithelialization of a synthetic polymer in the feline cornea – a preliminary study’, Invest Ophthalmol Vis Sci, 41, 1674–80.

Evans MDM, McLean KM, Hughes TC and Sweeney DF (2001a), ‘A review of the development of a synthetic corneal onlay for refractive correction’, Biomaterials, 22, 3319–28.

Evans MDM, McFarland GA, Taylor S, Johnson G and McLean KM (2001b), ‘The architecture of a collagen coating on a synthetic polymer influences epithelial adhesion’,

J Biomed Mater Res, 56, 461–68.

Evans MDM, Xie RZ, Fabbri M, Bojarski B, Chaouk H, Wilkie JS, McLean KM, Chen HY and Sweeney DF (2002), ‘Progress in the development of a synthetic corneal onlay’, Invest Ophthalmol Vis Sci, 43, 319–201.

Evans MDM, Taylor S, Dalton BA and Lohmann D (2003), ‘Polymer design for corneal epithelial tissue adhesion: Pore density’, J Biomed Mater Res A, 64, 357–64.

Fagerholm P, Lagali N and Griffith M (2009) ‘Biosynthetic corneas: Evaluation in humans’, European Society of Cataract and Refractive Surgeons (ESCRS), 13th Winter Meeting, Rome, February 2009, http://www.escrs.org/EVENTS/09rome/free paperlisting.asp?day=07102/2009.

Falcinelli G, Falsini B, Taloni M, Colliardo P and Falcinelli G (2005), ‘Modified osteo- odonto-keratoprosthesis for treatment of corneal blindness: long-term anatomical and functional outcomes in 181 cases’, Arch Ophthalmol, 123, 1319–29.

Fini ME (1999), ‘Keratocyte and fibroblast phenotypes in the repairing cornea’, Prog Retin Eye Res, 18, 529–51.

Fitton HJ, Dalton BA, Beumer G, Johnson G, Griesser HJ and Steele JG (1998), ‘Surface topography can interfere with epithelial tissue migration’, J Biomed Mater Res, 42,

245–57.

Fraser SA, Ting YH, Mallon KS, Wendt AE, Murphy CJ and Nealey PF (2008), ‘Sub-micron andnanoscalefeaturedepthmodulatesalignmentofstromalfibroblastsandcornealepithelial cells in serum-rich and serum-free media’, Biomed Mater Res A, 86, 725–35.

Friend J (1979), ‘Biochemistry of ocular surface epithelium’, Int Ophthalmol Clin, 19, 73–91.

Funderburgh JL, Mann MM and Funderburgh ML (2003), ‘Keratocyte phenotype mediates proteoglycan structure: a role for fibroblasts in corneal fibrosis’, J Biol Chem, 278, 45629–37.

Gao X, Liu W, Han B, Wei X and Yang C (2008), ‘Preparation and properties of a chitosanbased carrier of corneal endothelial cells’, J Mater Sci Mater Med, 19, 3611–19.

Garana RMR, Petroll WM, Chen W-T, Herman IM, Barry P, Andrews P, Cavanagh HD and Jester JV (1992), ‘Radial keratectomy II. Role of the myofibroblast in corneal wound contraction’, Invest Ophthalmol Vis Sci, 33, 3271–82.

Garcia-Hirschfeld J, Lopez-Briones LG and Belmonte C (1994), ‘Neurotrophic influences on corneal epithelial cells’, Exp Eye Res, 59, 597–605.

Garg P, Krishna PV, Stratis AK and Gopinathan U (2005), ‘The value of corneal transplantation in reducing blindness’, Eye, 19, 1106–14.

Ghanem VC, Souza GC, Souza DC, Viese JM, Weber SL and Kara-José N (2008),

‘PRK and butterfly LASEK: prospective, randomized, contralateral eye comparison of epithelial healing and ocular discomfort’, J Refract Surg, 24, 591–99.

Gipson IK, Spurr-Michaud S and Tisdale AS (1987), ‘Anchoring fibrils form a complex network in human and rabbit cornea’, Invest Ophthalmol Vis Sci, 28, 212–20.

Gipson IK (1989) ‘Epithelial response to injury’, in Proceedings of Corneal Biomechanics and Wound Healing, pp. 161–70.

Girard LJ (1983), ‘Keratoprosthesis’, Cornea, 2, 207–24.

Green KJ and Jones JCR (1996), ‘Desmosomes and hemidesmosomes: structure and function of molecular components’, FASEB, 10, 871–81.

Griffith M, Jackson WB, Lagali N, Merrett K, Li F and Fagerholm P (2009), ‘Artificial corneas: a regenerative medicine approach’, Eye, advance online publication, doi: 10.1038/eye.2008,409.

Grossniklaus HE, Lass JH, Jacobs G, Margo CE and McAuliffe KM (1989), ‘Light microscopic and ultrastructural findings in failed epikeratoplasty’, Refract Corneal Surg, 5, 296–301.

Guo N, Kanter D, Funderburgh ML, Mann MM, Du Y and Funderburgh JL (2007),

‘A rapid transient increase in hyaluronan synthase-2 mRNA initiates secretion of hyaluronan by corneal keratocytes in response to transforming growth factor beta’,

J Biol Chem, 282, 12475–83.

Ham L, Dapena I, van Luijk C, van der Wees J and Melles GR (2009), ‘Descemet membrane endothelial keratoplasty (DMEK) for Fuch’s endothelial dystrophy: review of the first 50 consecutive cases’, Eye, advance online publication, doi: 10.1038/ eye.2008.393.

Hamrah P, Liu Y, Zhang Q and Dana MR (2003), ‘The corneal stroma is endowed with a significant number of resident dendritic cells’, Invest Ophthalmol Vis Sci, 44, 581–89.

Hamrah P and Dana MR (2007), ‘Corneal antigen-presenting cells’, Chem Immunol Allergy, 92, 58–70.

Hanna C and O’Brien JE (1960), ‘Cell production and migration in the epithelial layer of the cornea’, Arch Ophthalmol, 64, 88–91.

Hanna C (1966), ‘Proliferation and migration of epithelial cells during corneal wound repair in the rabbit and rat’, Am J Ophthalmol, 61, 55–63.

Hanna KD, Pouliquen YM, Savoldelli M, Fantes F, Thompson KP, Waring GO 3rd and Samson J (1990), ‘Corneal wound healing in monkeys 18 months after excimer laser photorefractive keratectomy’, Refract Corneal Surg, 6, 343–45.

Harissi-Dagher M, Khan BF, Schaumberg DA and Dohlman CH (2007), ‘Importance of nutrition to corneal grafts when used as a carrier of the Boston Keratoprosthesis’,

Cornea, 26, 564–68.

Harissi-Dagher M, Beyer J and Dohlman CH (2008), ‘The role of soft contact lenses as an adjunct to the Boston keratoprosthesis’, Int Ophthalmol Clin, 48, 43–51.

Herrmann WA, Hillenkamp J, Hufendiek K, Prahs P, Lohmann CP, Helbig H and Kobuch K (2008), ‘Epi-laser in situ keratomileusis: comparative evaluation of epithelial separation with 3 microkeratomes’, J Cataract Refract Surg, 34, 1761–66.

Hicks C, Crawford G, Chirila T, Wiffen S, Vijayasekaran S, Lou X, Fitton J, Maley M, Clayton A, Dalton P, Platten S, Ziegelaar B, Hong Y, Russo A and Constable

I (2000), ‘Development and clinical assessment of an artificial cornea’, Prog Retin Eye Res, 19, 149–70.

122 Biomaterials and regenerative medicine in ophthalmology

Hicks CR, Fitton JH, Chirila TV, Crawford GJ and Constable IJ (1997), ‘Keratoprostheses: advancing toward a true artificial cornea’, Surv Ophthalmol, 42, 175–89.

Hicks CR, Chirila TV, Clayton AB, Fitton HJ, Vijayasekaran S, Dalton PD, Lou X, Platten S, Ziegelaar B, Hong Y, Crawford GJ and Constable IJ (1998), ‘Clinical results of implantation of the Chirila keratoprosthesis in rabbits’, Br J Ophthalmol, 82, 18–25.

Hicks CR, Crawford GJ, Lou X, Tan DT, Snibson GR, Sutton G, Downie N, Werner L, Chirila TV and Constable IJ (2003), ‘Corneal replacement using a synthetic hydrogel cornea’, Eye, 17, 385–92.

Hicks CR and Crawford GJ (2003), ‘Melting after keratoprostheis implantation: the effects of medroxyprogesterone’, Cornea, 22, 497–500.

Hicks CR, Chirila TV, Werner L, Crawford GJ, Apple DJ and Constable IJ (2004),

‘Deposits in artificial corneas: risk factors and prevention’, Clin Experiment Ophthalmol,

32, 185–91.

Hicks CR, Werner L, Vijayasekaran S, Mamalis N and Apple DJ (2005), ‘Histology of AlphaCor skirts: evaluation of biointegration’, Cornea, 24, 933–40.

Hicks CR, Crawford GJ, Dart JK, Grabner G, Holland EJ, Stulting RD, Tan DT and

Bulsara M (2006), ‘AlphaCor: Clinical outcomes’, Cornea, 25, 1034–42.

Hille K, Grabner G, Liu C, Colliardo P, Falcinelli G, Taloni M and Falcinelli G (2005),

‘Standards for modified osteoodontokeratoprosthesis (OOKP) surgery according to

Strampelli and Falcinelli: the Rome–Vienna Protocol’, Cornea, 24, 895–908. Hughes TC and Chan GYN (2001), ‘Design principles of synthetic corneal inlays and

onlays’, Materials Forum, 25, 216–45.

Ismail MM (2002), ‘Correction of hyperopia with intracorneal implants’, J Cat Refract Surg, 28, 527–30.

Ismail MM (2006), ‘Correction of hyperopia by intracorneal lenses – Two-year follow- up’, J Cataract Refract Surg, 32, 1657–60.

Jacobsen IE, Jensen OA and Prause JU (1984), ‘Structure and composition of Bowman’s membrane’, Acta Ophthalmol, 62, 39–53.

Jester JV, Petroll WM, Feng W, Essepian J and Cavanagh HD (1992), ‘Radial keratotomy. 1. The wound healing process and measurement of incisional gape in two animal models using in vivo confocal microscopy’, Invest Ophthalmol Vis Sci, 33, 3255–70.

Jester JV, Petroll WM and Cavanagh HD (1999), ‘Corneal stromal wound healing in refractive surgery: the role of myofibroblasts’, Prog Retin Eye Res, 18, 311–56.

Jones PH and Watt FM (1993), ‘Separation of human epidermal cells from transient amplifying cells on the basis of differences in integrin function and expression’,

Cell, 73, 713–24.

Joyce NC (2003), ‘Proliferative capacity of the corneal endothelium’, Prog Retin Eye Res, 22, 359–89.

Kalyvianaki MI, Kymionis GD, Kounis GA, Panagopoulou SI, Grentzelos MA and

Pallikaris IG (2008), ‘Comparison of Epi-LASIK and off-flap Epi-LASIK for the treatment of low and moderate myopia’, Ophthalmology, 115, 2174–80.

Karring H, Thøgersen IB, Klintworth GK, Møller-Pedersen T and Enghild JJ (2005),

‘A dataset of human cornea proteins identified by Peptide mass fingerprinting and tandem mass spectrometry’, Mol Cell Proteomics, 4, 1406–08.

Karuri NW, Liliensiek SJ, Teixeira AI, Abrams G, Campbell S, Nealey PF and Murphy CJ (2004), ‘Biological length scale topography enhances cell-substratum adhesion of human corneal epithelial cells’, J Cell Sci, 117, 3153–64.

Kaufman HE (1980), ‘The correction of aphakia’, Am J Ophthalmol, 89, 1–10.

Kaufman HE (1989), ‘Refractive surgery: through the looking glass’, Acta Ophthalmol Suppl, 192, 30–37.

Kayes J and Holmberg A (1960), ‘The fine structure of Bowman’s layer and the basement membrane of the corneal epithelium’, Am J Ophthalmol, 50, 1013–21.

Kenyon KR and Tseng SCG (1989), ‘Limbal autograft transplantation for ocular surface disorders’, Ophthalmology, 96, 709–23.

Khan BF, Dudenhoefer EJ and Dohlman CH (2001), ‘Keratoprosthesis: an update’,

Ophthalmology, 12, 288–93.

Kim JC and Tseng SC (1995), ‘Transplantation of preserved human amniotic membrane for surface reconstruction in severely damaged rabbit corneas’, Cornea, 14, 473–84.

Kim MK, Lee JL, Wee WR and Lee JH (2002), ‘Comparative experiments for in vivo fibroplasia and biological stability of four porous polymers intended for use in the

Seoul-type keratoprosthesis’, Br J Ophthalmol, 86, 809–14.

Kim MK, Lee SM, Lee JL, Chung TY, Kim YH, Wee WR and Lee JH (2007), ‘Long- term outcome in ocular intractable surface disease with Seoul-type keratoprosthesis’,

Cornea, 26, 546–51.

Kirkness CM, Steele AD and Garner A (1985), ‘Polysulphone corneal inlays. Adverse reactions: A preliminary report’, Trans Ophthalmol Soc UK, 104, 343–50.

Klenkler BJ, Griffith M, Becerril C, West-Mays JA and Sheardown H (2005), ‘EGF-grafted PDMS surfaces in artificial cornea applications’, Biomaterials, 26, 7286–96.

Knorz MC (2005), ‘PermaVision corneal implants show good results in phase 2 trials’, reported by Schultz J, OSN SuperSite, March 1st 2005, http://www.osnsupersite.com/ view.aspx?rid=5894.

Koenig SB, Hamano T, Yamaguchi T, Kimura T, McDonald MB and Kaufman HE (1984), ‘Refractive keratoplasty with hydrogel implants in primates’, Ophthalmic Surg, 15, 225–29.

Komai Y and Ushiki T (1991), ‘The three-dimensional organization of collagen fibrils in the human cornea and sclera’, Invest Ophthalmol Vis Sci, 32, 2244–58.

Kramer TR, Chuckpaiwong V, Dawson DG, L’hernault N, Grossniklaus HE and Edelhauser

HF (2005), ‘Pathologic findings in postmortem corneas after successful laser in situ keratomileusis’, Cornea, 24, 92–102.

Krwawicz T (1960), ‘Attempted modifiation of corneal curvature by means of experimental plastic surgery’, Klin Oczna, 30, 229.

Kwitko S and Severo NS (2004), ‘Ferrara intracorneal ring segments for keratoconus’,

J Cataract Refract Surg, 30, 812–20.

Kymionis GD, Bouzoukis DI and Pallikaris IG (2007a), ‘Corneal inlays: a surgical correction of presbyopia’, Cataract Refract Surg Today, September, http://www. crstodayeurope.com/Pages/whichArticle.php?id=66.

Kymionis GD, Siganos CS, Tsiklis NS, Anastasakis A, Yoo SH, Pallikaris AI, Astyrakakis

N and Pallikaris IG (2007b), ‘Long-term follow-up of Intacs in keratoconus’, Am J Ophthalmol, 143, 236–44.

Lane SL, Lindstrom RL, Cameron JD, Thaomas RH, Mindrup EA, Waring GO 3rd,

McCarey BE and Binder PS (1986), ‘Polysulfone corneal lenses’, J Cataract Refract Surg, 12, 50–60.

Lang AJ, Icenogle T, Franz S, Vatz A, Holliday K, Schneider N, Miller T, Le A, Chayet

A and Barraga E (2008), ‘Clinical efficacy of the PRESBYLENS® intracorneal inlay for the correction of presbyopia’, ARVO Annual Meeting, Program number 3353;

Poster number A171.

Larrea X, De Courten C, Feingold V, Burger J and Büchler P (2007), ‘Oxygen and glucose distribution after intracorneal lens implantation’, Optom Vis Sci, 84, 1074–81.

124 Biomaterials and regenerative medicine in ophthalmology

Lass JH, Stocker EG, Fritz ME and Collie DM (1987), ‘Epikeratoplasty: the surgical correction of aphakia, myopia and keratoconus’, Ophthalmology, 94, 912–25.

Latkany R, Tsuk A, Sheu MS, Loh IH and Trinkaus-Randall V (1997), ‘Plasma surface modification of artificial corneas for optimal epithelialization’, J Biomed Mater Res, 36, 29–37.

Lavker RM, Dong G, Cheng SZ, Kudah K, Costarelis G and Sun T-T (1991), ‘Relative proliferative rates of limbal and corneal epithelia’, Invest Ophthalmol Vis Sci, 32,

1864–75.

Lee HK, Lee KS, Kim JK, Kim HC, Seo KR and Kim EK (2005), ‘Epithelial healing and clinical outcomes in excimer laser photorefractive surgery following three epithelial removal techniques: mechanical, alcohol, and excimer laser’, Am J Ophthalmol, 139,

56–63.

Lee JB, Javier JA, Chang JH, Chen CC, Kato T and Azar DT (2002), ‘Confocal and electron microscopic studies of laser subepithelial keratomileusis (LASEK) in the white leghorn chick eye’, Arch Ophthalmol, 120, 1700–06.

Lee JH, Wee WR, Chung ES, Kim HY, Park SH and Kim YH (2000), ‘Development of a newly designed double-fixed Seoul-type keratoprosthesis’, Arch Ophthalmol, 118, 1673–78.

Legeais J-M, Renard G, Parel J-M, Ing E-G, Savoldelli M and Pouliquen Y (1995), ‘Keratoprosthesis with biocolonizable microporous fluorocarbon haptic’, Arch Ophthalmol, 113, 757–63.

Legeais J-M, Drubaix I, Briat B, Savoldelli M, Menasche M, Robert L, Renard G and

Poulinquen Y (1997), ‘Influence of ePFTE polymer implant permeability on the rate and density of corneal extracellular matrix synthesis’, J Biomed Mater Res, 36, 49–54.

Legeais J-M and Renard G (1998), ‘A second generation of artificial cornea (Biokpro

II)’, Biomaterials, 19, 1517–22.

Lemp MA and Mathers WD (1991), ‘Conrad Berens lecture. Renewal of corneal epithelium’, CLAO J, 17, 258–66.

León CR, Barraquer JIJ and Barraquer JIS (1997), ‘Coralline hydroxyapatite keratoprosthesis in rabbits’, J Refract Surg, 13, 74–78.

Li F, Carlsson DJ, Lohmann C, Suuronen E, Vascotto S, Kobuch K, Sheardown H,

Munger R, Nakamura M and Griffith M (2003), ‘Cellular and nerve regeneration within a biosynthetic extracellular matrix for corneal transplantation’, PNAS, 100,

15346–51.

Liliensiek SJ, Campbell S, Nealey PF and Murphy CJ (2006), ‘The scale of substratum topographic features modulates proliferation of corneal epithelial cells and corneal fibroblasts’, J Biomed Mater Res A, 79, 185–92.

Lindstrom RL (2005), ‘Coming at presbyopia from a new direction’, Rev Ophthalmol News, 12, http://www.revophth.com/index.asp?page=1_795.htm.

Linebarger EJ, Song D and Ruckhofer J (2000), ‘Intacs: the intrastromal corneal ring’,

Int Ophthalmol Clin, 40, 199–208.

Linna T and Tervo T (1997), ‘Real-time confocal microscopic observations on human corneal nerves and wound healing after excimer laser photorefractive keratectomy’,

Curr Eye Res, 16, 640–49.

Linsenmayer TF, Fitch JM, Gordon MK, Cai CX, Igoe F, Marchant JK and Birk DE (1998), ‘Development and roles of collagenous matrices in the embryonic avian cornea’, Prog Retin Eye Res, 17, 231–65.

Liu C, Paul B, Tandon R, Lee E, Fong K, Mavrikakis I, Herold J, Thorp S, Brittain P, Francis I, Ferret C, Hull C, Lloyd A, Green D, Franklin V, Tighe B, Fukuda M

and Hamada S (2005), ‘The osteo-odonto-keratoprosthesis’, Semin Ophthalmol, 20, 113–28.

Liu C, Hille K, Tan DT, Hicks CR and Herold J (2008a), ‘Keratoprosthesis surgery’,

Dev Ophthalmol, 41, 171–86.

Liu W, Merrett K, Griffith M, Fagerholm P, Dravida S, Heyne B, Scaiano JB, Watsky MA,

Shinozaki N, Lagali N, Munger R and Li F (2008b), ‘Recombinant human collagen for tissue engineered corneal substitutes’, Biomaterials, 29, 1147–58.

Liu Y, Gan L, Carlsson DJ, Fagerholm P, Lagali N, Watsky MA, Munger R, Hodge WG,

Priest D and Griffith M (2006), ‘A simple, cross-linked collagen tissue substitute for corneal implantation’, Invest Ophthalmol Vis Sci, 47, 1869–75.

Ljubimov AV, Burgeson RE, Butkowski RJ, Michael AF, Sun T-T and Kenney MC (1995), ‘Human corneal basement membrane heterogeneity: Topographical differences in the expression of type IV collagen and laminin isoforms’, Lab Invest, 72, 461–73.

Lou X, Vijayasekaran S, Sugiharti R and Robertson T (2005), ‘Morphological and topographic effects on calcification tendency of pHEMA hydrogels’, Biomaterials, 26, 5808–17.

Maguen E, Rabinowitz YS, Regev L, Saghizadeh M, Sasaki T and Ljubimov AV (2008), ‘Alterations of extracellular matrix components and proteinases in human corneal buttons with INTACS for post-laser in situ keratomileusis keratectasia and keratoconus’, Cornea, 27, 565–73.

Maskarinec SA and Tirrell DA (2005), ‘Protein engineering approaches to biomaterials design’, Curr Opin Biotech, 16, 422–26.

Maskati QB and Maskati BT (2006), ‘Asian experience with the Pintucci keratoprosthesis’,

Indian J Ophthalmol, 54, 89–94.

Mathers WD and Lemp MA (1992), ‘Morphology and movement of corneal surface cells in humans’, Curr Eye Res, 11, 517–23.

Mathew JH, Bergmanson JPG and Doughty MJ (2008), ‘Fine structure of the interface between the anterior limiting lamina and the anterior stromal fibrils of the human cornea’, Invest Ophthalmol Vis Sci, 49, 3914–18.

Maurice DM (1969) ‘Nutritional aspects of corneal grafts and prostheses’, in Rycroft

PV (Ed.) Corneo-Plastic Surgery, International Corneo-plastic Conference, London,

1967. Oxford and New York, Pergamon Press, p. 197.

Maurice DM (1972), ‘The location of the fluid pump in the cornea’, J Physiol, 221, 43–54.

Maurice DM (1984), The Cornea and Sclera. New York, Academic Press.

McCarey BE and Andrews DM (1981), ‘Refractive keratoplasty with intrastromal hydrogel lenticular implants’, Invest Ophthalmol Vis Sci, 21, 107–15.

McCarey BE, Lane SS and Lindstrom RL (1988), ‘Alloplastic corneal lenses’, Int Ophthalmol Clin, 28, 155–63.

McCarey BE and Schmidt FH (1990), ‘Modeling glucose distribution in the cornea’,

Curr Eye Res, 9, 1025–39.

McCarey BE, Storie BR, Van Rij G and Knight PM (1990), ‘Refractive predictability of myopic hydrogel intracorneal lenses in nonhuman primate eyes’, Arch Ophthalmol, 108, 1310–15.

McCarey BE (1991), ‘Refractive keratoplasty with synthetic lens implants’, Refract Surg, 31, 87–99.

McDonald MB, Kaufman HE, Aquavella JV, Durrie DS, Hiles DA, Hunkeler JD, Keates

RH, Morgan KS and Sanders DR (1987), ‘The nationwide study of epikeratophakia for myopia’, Am J Ophthalmol, 103, 375–83.

126 Biomaterials and regenerative medicine in ophthalmology

McDonald MB and Dingeldein SA (1988) ‘Complications of Epikeratophakia’, in Cavanagh HD (Ed.) World Congress on the Cornea. New York, Raven Press Ltd.

McDonald MB, Frantz JM, Klyce SD, Salmeron B, Beuerman RW, C.R. M, Clapham TN, Koons SJ and Kaufman HE (1990), ‘One-year refractive results of central photorefractive keratectomy for myopia in nonhuman primate cornea’, Arch Ophthalmol,

108, 40–47.

McDonald MB, McCarey BE, Storie B, Beuerman RW, Salmeron B, Van Rij G and Knight PM (1993), ‘Assessment of the long-term corneal response to hydrogel intrastromal lenses implanted in monkey eyes for up to five years’, J Cataract Refract Surg, 19, 213–22.

McLaughlin CR, Fagerholm P, Muzakare L, Lagali N, Forrester JV, Kuffova L, Rafat

MA, Liu Y, Shinozaki N, Vascotto S, Munger R and Griffith M (2008), ‘Regeneration of corneal cells and nerves in an implanted collagen corneal substitute’, Cornea, 27, 580–89.

Meek KM and Fullwood NJ (2001), ‘Corneal and scleral collagens – a microscopist’s perspective’, Micron, 32, 261–72.

Melles GR, Binder PS, Moore MN and Anderson JA (1995), ‘Epithelial–stromal interactions in human keratotomy wound healing’, Arch Ophthalmol, 113, 1124–30.

Merrett K, Griffith CM, Deslandes Y, Pleizier G, Dube MA and Sheardown H (2003), ‘Interactions of corneal cells with transforming growth factor beta 2-modified poly dimethyl siloxane surfaces’, J Biomed Mater Res, 67A, 981–93.

Merrett K, Fagerholm P, McLaughlin CR, Dravida S, Lagali N, Shinozaki N, Watsky

MA, Munger R, Kato Y, Li F, Marmo CJ and Griffith M (2008), ‘Tissue-engineered recombinant human collagen-based corneal substitutes for implantation: performance of type I versus type III collagen’, Invest Ophthalmol Vis Sci, 49, 3887–94.

MesterU,RothKandDardenneMU(1972),‘Versvchemit2-hydroxyaethylmethycrylatlinsen als keratophakiematerial’, Ber Ophthalmol Ges, 72, 326.

Mete M, Tang F, Xu X and Yuruk N (2008), ‘A structural approach for finding functional modules from large biological networks’, BMC Bioinformatics, 12, S19.

Michael R, Charoenrook V, de la Paz MF, Hitzl W, Temprano J and Barraquer RI (2008), ‘Long-term functional and anatomical results of osteoand osteoodontokeratoprosthesis’, Graefes Arch Clin Exp Ophthalmol, 246, 1133–37.

Michieletto P, Ligabue E, Balestrazzi A, Balestrazzi A and Giglio S (2004), ‘PermaVision intracorneal lens for the correction of hyperopia’, J Cat Refract Surg, 30, 2152–57.

Miranda D, Sartori M, Francesconi C, Allemann N, Ferrara P and Campos M (2003), ‘Ferrara intrastromal corneal ring segments for severe keratoconus’, J Refract Surg,

19, 645–53.

Mitooka K, Ramirez M, Maguire LJ, Erie JC, Patel SC, McLaren JW, Hodge DO and Bourne WM (2002), ‘Keratocyte density of central human cornea after laser in situ keratomileusis’, Am J Ophthalmol, 133, 307–14.

Mohan RR, Hutcheson AEK, Choi R, Hong J-W, Lee J-S, Mohan RR, Ambrosio R,

Zieske JD and Wilson SE (2003), ‘Apoptosis, necrosis, proliferation and myofibroblast generation in the stroma following LASIK and PRK’, Exp Eye Res, 76, 71–87.

Moilanen JA, Holopainen JM, Vesaluoma MH and Tervo TM (2008), ‘Corneal recovery after lasik for high myopia: a 2-year prospective confocal microscopic study’, Br J Ophthalmol, 92, 1397–402.

Møller-Pedersen T, Li HF, Petroll WM, Cavanagh HD and Jester JV (1998), ‘Confocal microscopic characterization of wound repair after photorefractive keratectomy’,

Invest Ophthalmol Vis Sci, 39, 487–501.

Møller-Pedersen T, Cavanagh HD, Petroll WM and Jester JV (2000), ‘Stromal wound healing explains refractive instability and haze development after photorefractive keratectomy: a 1-year confocal microscopic study’, Ophthalmology, 107, 1235–45.

Mori R, Power KT, Wang CM, Martin P and Becker DL (2006), ‘Acute downregulation of connexin43 at wound sites leads to a reduced inflammatory response, enhanced keratinocyte proliferation and wound fibroblast migration’, J Cell Sci, 119, 5193– 203.

Morishige N, Wahlert AJ, Kenney MC, Brown DJ, Kawamoto K, Chikama T, Nishida T and Jester JV (2007), ‘Second-harmonic imaging microscopy of normal human and keratoconus cornea’, Invest Ophthalmol Vis Sci, 48, 1087–94.

Müller LJ, Pels L and Vrensen GFJM (1995), ‘Novel aspects of ultrastructural organization of human corneal keratocytes’, Invest Ophthalmol Vis Sci, 36, 2557–67.

Müller LJ, Vrensen GFJM, Pels L, Cardoza BN and Willekens B (1997), ‘Architecture of human corneal nerves’, Invest Ophthalmol Vis Sci, 38, 985–94.

Müller LJ, Pels E and Vrensen GF (2001), ‘The specific architecture of the anterior stroma accounts for maintenance of corneal curvature’, Br J Opthalmol, 85, 437–43.

Müller LJ, Marfurt CF, Kruse F and Tervo TMT (2003), ‘Corneal nerves: structure, contents and function’, Exp Eye Res, 76, 521–42.

Müller LJ, Pels E, Schurmans LR and Vrensen GF (2004), ‘A new three-dimensional model of the organization of proteoglycans and collagen fibrils in the human corneal stroma’, Exp Eye Res, 78, 493–501.

Myung D, Koh W, Bakri A, Zhang F, Marshall A, Ko J, Noolandi J, Carrasco M, Cochran

JR, Frank CW and Ta CN (2007), ‘Design and fabrication of an artificial cornea based on a photolithographically patterned hydrogel construct’, Biomed Microdevices, 9, 911–22.

Myung D, Duhamel P-E, Cochran JR, Noolandi J, Ta CN and Frank CW (2008a), ‘Development of hydrogel-based keratoprosthesis: a materials perspective’, Biotechnol Prog, 24, 735–41.

Myung D, Farooqui N, Waters D, Schaber S, Koh W, Carrasco M, Noolandi J, Frank CW and Ta CN (2008b), ‘Glucose-permeable interpenetrating polymer network hydrogels for corneal implant applications: a pilot study’, Curr Eye Res, 33, 29–43.

Myung D, Farooqui N, Zheng LL, Koh W, Gupta S, Bakri A, Noolandi J, Cochran JR, Frank CW and Ta CN (2009), ‘Bioactive interpenetrating polymer network hydrogels that support corneal epithelial wound healing’, J Biomed Mater Res A, 90, 70–81.

Netto MV, Mohan RR, Sinha S, Sharma A, Dupps WJJ and Wilson SE (2006), ‘Stromal haze, myofibroblasts, and surface irregularity after PRK’, Exp Eye Res, 82, 788–97.

Netto MV, Mohan RR, Medeiros FW, Dupps WJJ, Sinha S, Krueger RR, Stapleton WM,

Rayborn M, Suto C and Wilson SE (2007), ‘Femtosecond laser and microkeratome corneal flaps: comparison of stromal wound healing and inflammation’, J Refract Surg, 23, 667–76.

Newsome DA, Foidart J-M, Hassell JR, Krachmer JH, Rodrigues MM and Katz SI

(1981), ‘Detection of specific collagen types in normal and keratoconus corneas’,

Invest Ophthalmol Vis Sci, 20, 738–50.

Nishida T, Chikama T, Morishige N, Yanai R, Yamada N and Saito J (2007), ‘Persistent epithelial defects due to neurotrophic keratopathy treated with a substance p-derived peptide and insulin-like growth factor 1’, Jpn J Ophthalmol, 51, 442–47.

Obata H and Tsuru T (2007), ‘Corneal wound healing from the perspective of keratoplasty specimens with special reference to the function of the Bowman layer and Descemet membrane’, Cornea, 26, S82–89.

128 Biomaterials and regenerative medicine in ophthalmology

Pallikaris IG, Papatzanaki ME, Stathi EZ, Frenschock O and Georgiadis A (1990), ‘Laser in situ keratomileusis’, Lasers Surg Med, 10, 463–68.

Pallikaris IG, Kymionis GD and Astyrakakis NI (2001), ‘Corneal ectasia induced by laser in situ keratomileusis’, J Cataract Refract Surg, 27, 1803–11.

Pallikaris IG, Naoumidi II, Kalyvianaki MI and Katsanevaki VJ (2003), ‘Epi-LASIK: comparative histological evaluation of mechanical and alcohol-assisted separation’,

J Cataract Refract Surg, 29, 1496–501.

Park JH, Jeoung JW, Wee WR, Lee JH, Kim MK and Lee JL (2008), ‘Clinical efficacy of amniotic membrane transplantation in the treatment of various ocular surface diseases’, Cont Lens Anterior Eye, 31, 73–80.

Parks RA and McCarey BE (1991), ‘Hydrogel keratophakia: Long term morphology in the monkey model’, CLAO J, 17, 216–22.

Parks RA, McCarey BE, Knight PM and Storie BR (1993), ‘Intrastromal crystalline deposits following hydrogel keratophakia in monkeys’, Cornea, 12, 29–34.

Petroll WM, Goldberg D, Lindsey SS, Kelley PS, Cavanagh HD, Bowman RW, Parmar

DN, Verity SM and McCulley JP (2006), ‘Confocal assessment of the corneal response to intracorneal lens insertion and laser in situ keratomileusis with flap creation using IntraLase’, J Cataract Refract Surg, 32, 1119–28.

Pfister RR (1973), ‘The normal surface of the corneal epithelium: a scanning electron microscopic study’, Invest Ophthalmol, 12, 654–68.

Pieper B (2006), ‘Reaching baby boomers: 2020 and beyond’, Optometry, 77, 141–44. Pintucci S, Pintucci F, Cecconi M and Caiazza S (1995), ‘New dacron tissue colonisable

keratoprosthesis: clinical experience’, Br J Ophthalmol, 79, 825–29.

Pintucci S, Pintucci F, Caiazza S and Cecconi M (1996), ‘The Dacron felt colonizable keratoprosthesis: after 15 years’, Eur J Ophthalmol, 6, 125–30.

Pintucci S, Perilli R, Formisano G and Caiazza S (2001), ‘Influence of dacron tissue thickness on the performance of the Pintucci biointegrable keratoprosthesis: an in vitro and in vivo study’, Cornea, 20, 647–50.

Polack FM (1976), ‘Editorial: Keratoprosthesis’, Invest Ophthalmol, 15, 593–95. Poole CA, Brookes NH and Clover GM (1993), ‘Keratocyte networks visualised in the

living cornea using vital dyes’, J Cell Sci, 106, 685–92.

Poole CA, Brookes NH and Clover GM (2003), ‘Confocal imaging of the human keratocyte network using the vital dye 5-chloromethylfluorescein diacetate’, Clin Exp Ophthalmol, 31, 147–54.

Prakasam RK, Sweeney DF, Vaddavalli PK, Evans MDM, Hughes TC, Xie R-Z, McLean KM, Vannas A and Sridhar MS (2007a), ‘Corneal inlay is a reversible refractive procedure’, Asia ARVO, Singapore, Poster 342(703) B142.

Prakasam RK, Sweeney DF, Vaddavalli PK, Evans MDM, Hughes TC, Xie R-Z, McLean KM, Vannas A and Sridhar MS (2007b), ‘Corneal pigment ring deposits after corneal inlay’, Asia ARVO, Singapore, Poster 343(711) B143.

Princz MA and Sheardown H (2008), ‘Heparin-modified dendrimer cross-linked collagen matrices for the delivery of basic fibroblast growth factor (FGF-2)’, J Biomater Sci Polym Ed, 19, 1201–18.

Qiu C, Coutinho P, Frank S, Franke S, Law LY, Martin P, Green CR and Becker DL (2003), ‘Targeting connexin43 expression accelerates the rate of wound repair’, Curr Biol, 13, 1697–703.

Rao GN, Ganti S and Aquavella JV (1987), ‘Specular microscopy of corneal epithelium after epikeratophakia’, Am J Ophthalmol, 103, 392–96.

Rice DE and Ihlenfeld JV (1989), ‘Ophthalmic device comprising a polymer of telechelic