The eye is a complex bio-optical organ. Both the biological function and optical function of the eye should be taken into consideration when eye doctors are making a diagnosis or providing treatment for any ocular diseases. Compared to any other clinical specialties, ophthalmology benefits the most from the newest technologies that significantly influence clinical applications. In this paper, we will systematically introduce the most common and advanced ophthalmic devices and ocular biomaterials, in order to encourage their clinical use in vision care.
陈浩,黄锦海,林全愧. 工程技术在眼视光医疗器械的应用进展[J]. 中华眼视光学与视觉科学杂志, 2015, 17(7): 385-389.
Chen Hao,Huang Jinhai,Lin Quankui. The application of engineering in vision care medical devices. Chinese Journal of Optometry Ophthalmology and Visual science, 2015, 17(7): 385-389. DOI: 10.3760/cma.j.issn.1674-845X.2015.07.001
Rozema JJ, Wouters K, Mathysen DG, et al. Overview of the repeatability, reproducibility, and agreement of the biometry values provided by various ophthalmic devices[J]. Am J Ophthalmol,2014,158(6):1111-1120.
[2]
Montalbán R, Alio JL, Javaloy J, et al. Comparative analysis of the relationship between anterior and posterior corneal shape analyzed by Scheimpflug photography in normal and keratoconus eyes[J]. Graefes Arch Clin Exp Ophthalmol,2013,251(6):1547-1555.
[3]
Savini G, Bedei A, Barboni P, et al. Intraocular lens power calculation by ray-tracing after myopic excimer laser surgery[J]. Am J Ophthalmol,2014,157(1):150-153.
[4]
Esmaeili A, Barazandeh B, Ahmadi S, et al. Assessment of the anterior chamber parameters after laser iridotomy in primary angle close suspect using Pentacam and gonioscopy[J]. Int J Ophthalmol,2013,6(5):680-684.
[5]
Kocaoglu OP, Ferguson RD, Jonnal RS, et al. Adaptive optics optical coherence tomography with dynamic retinal tracking[J]. Biomed Opt Express,2014,5(7):2262-2284.
[6]
Mrejen S, Sato T, Curcio CA, et al. Assessing the cone photoreceptor mosaic in eyes with pseudodrusen and soft Drusen in vivo using adaptive optics imaging[J]. Ophthalmology,2014, 121(2):545-551.
[7]
Kim JE, Chung M. Adaptive optics for retinal imaging: current status[J]. Retina,2013,33(8):1483-1486.
[8]
Blum M, Kunert K, Schröder M, et al. Femtosecond lenticule extraction for the correction of myopia: preliminary 6-month results[J]. Graefes Arch Clin Exp Ophthalmol,2010,248(7):1019-1027.
[9]
Choi SK, Kim JH, Lee D, et al. A new surgical technique: a femtosecond laser-assisted keratolimbal allograft procedure[J]. Cornea,2010,29(8):924-929.
[10]
Reinstein DZ, Archer TJ, Randleman JB. Mathematical model to compare the relative tensile strength of the cornea after PRK, LASIK, and small incision lenticule extraction[J]. J Refract Surg,2013,29(7):454-460.
[11]
da Cruz L, Coley BF, Dorn J, et al. The Argus II epiretinal prosthesis system allows letter and word reading and long-term function in patients with profound vision loss[J]. Br J Ophthalmol, 2013,97(5):632-636.
[12]
Ayton LN, Blamey PJ, Guymer RH, et al. First-in-human trial of a novel suprachoroidal retinal prosthesis[J]. PLoS One,2014, 9(12):e115239.
[13]
Wang J, Zhang L, Wu W. Current progress on natural orifice transluminal endoscopic surgery (NOTES)[J]. Front Med,2012, 6(2):187-194.
[14]
Francis BA, Kwon J, Fellman R, et al. Endoscopic ophthalmic surgery of the anterior segment[J]. Surv Ophthalmol,2014,59(2):217-231.
Kim YH, Jung DW, Kim TG, et al. Correction of orbital wall fracture close to the optic canal using computer-assisted navigation surgery[J]. J Craniofac Surg,2013,24(4):1118-1122.
Griffith M, Jackson WB, Lagali N, et al. Artificial corneas: a regenerative medicine approach[J]. Eye (Lond),2009,23(10):1985-1989.
[20]
Wang TJ, Wang IJ, Lu JN, et al. Novel chitosan-polycaprolactone blends as potential scaffold and carrier for corneal endothelial transplantation[J]. Mol Vis,2012,18:255-264.
[21]
Shao Y, Yu Y, Pei CG, et al. Evaluation of novel decellularizing corneal for cornea tissue engineering applications[J]. Int J Ophthalmol,2012,5(4):415-418.
[22]
Kobayashi T, Kan K, Nishida k, et al. Corneal regeneration by transplantation of corneal epithelial cell sheets fabricated with automated cell culture system in rabbit model[J]. Biomaterials,2013,34(36):9010-9017.
[23]
Okumura N, Kinoshita S, Koizumi N. Cell-based approach for treatment of corneal endothelial dysfunction[J]. Cornea,2014,33(S1):37-41.
[24]
Huang Y, Xie L. Delayed postoperative opacification of foldable hydrophilic acrylic intraocular lenses[J]. J Biomed Mater Res B Appl Biomater,2011,96(2):386-391.
[25]
Huang YS, Bertrand V, Bozukov D, et al. RGD surface functionalization of the hydrophilic acrylic intraocular lens material to control posterior capsular opacification[J]. PLoS One,2014,9(12):e114973.
[26]
Lin QK, Xu X, Wang BL, et al. Hydrated polysaccharide multilayer as intraocular lens surface coating for biocompatibility improvement[J]. J Mater Chem B,2015,18(3):3695-3703.
Anderson EM, Noble ML, Garty S, et al. Sustained release of antibiotic from poly (2-hydroxyethyl methacrylate) to prevent blinding infections after cataract surgery[J]. Biomaterials,2009, 30(29):5675-5681.
[29]
Wang Y, Qian X, Zhang X, et al. Plasma surface modification of rigid contact lenses[J]. Eye Contact Lens,2013,39(6):376-380.
[30]
Thissen H, Gengenbach T, du Toit R, et al. Biomaterials-clinical observations of biofouling on PEO coated silicone hydrogel contact lenses[J]. Biomaterials,2010,31(21):5510-5519.