Glossary and References
Home Up Summary and Introduction Refractive Errors Types of Refractive Surgery Redial Keratotomy-RK Excimer Laser Procedures Other Procedures Visual Performance Practical considerations Results Glossary and References

 

 

Glossary

 

    Aberrations: a deviation in power of the optical components of the eye, (either individually or in combination), from the ideal system that would produce a perfect point image on the retina. The aberrations induced by refractive surgery are best described as irregular but some studies tend to refer to them as being most similar to spherical aberration and coma.

    Accommodation: the ability of the crystalline lens to increase its power and therefore focus for near targets. Accommodation reduces with age.

    Astigmatism: a difference in power between the two principle meridians of the eye, usually perpendicular to each other (regular astigmatism). The resulting retinal image is elongated. Astigmatism can be associated with myopia or hypermetropia

    Contact lens associated papillary conjunctivitis: inflammation of the conjunctiva that lines the inside of the upper eyelid. Redness and significant surface roughness (papillae) prevent successful contact lens wear. Cause: mechanical factors, immune response to lens deposits and lack of oxygen to the eye.

    Contrast sensitivity: the lowest contrast at which a particular spatial frequency can be resolved. The peak of the average contrast sensitivity function falls between 2 and 5 cycles per degree.

    Corneal oedema: swelling of the cornea resulting in clouding of the tissue, increased light scatter and reduced contrast sensitivity. Usually caused by lack of oxygen to the cornea as a result of prolonged contact lens wear.

    Extended wear contact lenses: contact lenses designed to be worn throughout the day and night, usually for a continuous period of 7-30 days before being replaced.

    Hypermetropia: long sight, which may manifest itself as poor near vision. The retinal image is blurred because the eyeball is too short or the power of the refracting elements is too weak. Young hypermetropes can accommodate to increase the positive power of the eye and overcome some or all of their hypermetropia. Older hypermetropes may require a refractive correction at both distance and near.

    Intraocular light scatter: the scattering of light by particles within the ocular media. Light scattered towards the retina reduces the contrast of the retinal image and hence reduces visual performance.

    Keratectasia: bulging of the cornea as a result of corneal thinning. Can be associated with a condition known as keratoconus or occasionally refractive surgery (LASIK).

    LASEK: an epithelial flap is created using alcohol and the underlying anterior stroma is ablated with an excimer laser before the flap is replaced.

    LASIK: a thin flap of corneal tissue is cut using a microkeratome and reflected back. The underlying stroma is ablated using an excimer laser to treat refractive error and the flap is repositioned.

    LogMAR: logarithm of the minimum angle of resolution

    Monovision: modification of the refractive correction to focus one eye for distance and one eye for near vision. This is usually achieved with contact lenses and allows presbyopes to function without extra glasses under the majority of conditions

    Myopia: or short sight. Distance vision is blurred because the retinal image is focused in

    front of the retina. The eyeball is too long or its refractive components are too strong.

    Neovascularisation: the growth of new vessels around the edge of the cornea (limbus), usually in response to excessive soft contact lens wear. In severe cases, the vessels extend towards the centre of the cornea and are at risk of leaking and causing corneal opacification.

    Presbyopia: an individual is said to be presbyopic when their accommodation is no longer sufficient to focus for objects at their habitual near working distance. This generally occurs when the accommodation is 3D or less, around the age of 45 years.

    PRK: following removal of the corneal epithelium, the underlying stroma is ablated using an excimer laser to reshape the surface to treat refractive error. The epithelium regrows across the treated zone within 5-7 days.

    Rhegmatogenous retinal detachment: detachment of the neural layers of the retina from the retinal pigment epithelium due to the entry of intraocular fluid in to the subretinal space through a break in the retina.

    Unaided vision: the measurement of vision without correction of any refractive error

    Visual acuity: the measurement of vision corrected with spectacles or contact lenses

     

 

References

Adams, C.P., Cohen, E.J., Laibson, P.R., Galentine, P., and Arentsen, J.J. (1983) Corneal ulcers in patients with cosmetic extended-wear contact lenses. American Journal of Ophthalmology 96, 705-709.

Alanis, L., Ramirez, R., Suarez, R., Climent, A., Moreno, L., Graue, E., Gomez, A., Almanzar, D., and Garduno, J. (1996) Spatial contrast sensitivity in pre and post-operative LASIK for high myopia patients. Investigative Ophthalmology and Visual Science 37, S570

Amano, S., Shimizu, K., and Tsubota, K. (1993) Corneal epithelial changes after excimer laser photorefractive keratectomy. American Journal Of Ophthalmology 115, 441-443.

Ambrosio, G., Cennamo, G., De Marco, R., Loffredo, L., Rosa, N., and Sebastiani, A. (1994) Visual function before and after photorefractive keratectomy for myopia. Journal Of Refractive And Corneal Surgery 10, 129-136.

Applegate, R.A., Howland, H.C., Sharp, R.P., Cottingham, A.J., and Yee, R.W. (1998) Corneal aberrations and visual performance after radial keratotomy. Journal of Refractive Surgery 14, 397-407.

Applegate, R.A. and Wolf, M. (1987) Disability glare increased by hydrogel contact lens wear. American Journal of Optometric and Physiological Optics 64, 309-312.

Argento, C., Cosentino, M.J., Tytiun, A., Rapetti, G., and Zarate, J. (2001) Corneal ectasia after laser in situ keratomileusis. Journal of Cataract and Refractive Surgery 27, 1440-1448.

Asbell, P.A. and Ucakhan, O.O. (2001) Long-term follow-up of Intacs from a single center. Journal of Cataract and Refractive Surgery 27, 1456-1468.

Atchison, D.A. (1995) Aberrations associated with rigid contact lenses. Journal Of The Optical Society Of America 10, 2267-2273.

Balazsi, G., Mullie, M., Lasswell, L., Lee, P.A., and Duh, Y.J. (2001) Laser in situ keratomileusis with a scanning excimer laser for the correction of low to moderate myopia with and without astigmatism. Journal of Cataract and Refractive Surgery 27, 1942-1951.

Barbur, J., de Cunha, D., Harlow, J., and Woodward, E. (1993) Methods for the measurement and analysis of light scattered in the human eye. Journal Of The Optical Society Of America 3, 170-173.

Bennett, A.G. (1965) Lens usage in the Supplementary Ophthalmic Eye Service. Optician 149, 131-137.

Bergevin, J. and Millodot, M. (1967) Glare with ophthalmic and corneal lenses. American Journal of Ophthalmology 44, 213-221.

Bisantis, C., Midena, E., Patel, S., Provenzano, F., Bisantis, F., and Mancini, A. (1996) Intrastromal perioptic implants for the correction of high myopia: biologic and biomechanical evaluation. Investigative Ophthalmology & Visual Science 37, 67 (Abstract)

Bores, L.D., Myers, W., and Cowden, J. (1981) Radial keratotomy: an analysis of the American experience. Annuals of Ophthalmology 13, 941-948.

Bourque, L.B., Cosand, B.B., and Drews, C. (1986) Reported satisfaction, fluctuation of vision and glare among patients one year after surgery in the Prospective Evaluation of Radial Keratotomy (PERK) Study. Archives of Ophthalmology 104, 356-63.

Boxer-Wachler B.S., Durrie, D.S., Assil, K.K., and Krueger, R.R. (1999) Improvement of visual function with glare testing after photorefractive keratectomy and radial keratotomy. American Journal Of Ophthalmology 128, 582-587.

Briggs, S.T. (1998) Contrast sensitivity assessment of soft contact lens wearers. International Contact Lens Clinics 25, 99-102.

Bullimore, M.A., Sheedy, J.E., and Owen, D. (1994) Diurnal visual changes in radial keratotomy - implications for visual standards. Optometry And Vision Science 71, 516-521.

Buratto, L., Ferrari, M., and Genisi, C. (1993) Myopic keratomileusis with the excimer laser: one-year follow up. Refractive and Corneal Surgery 9, 12-19.

Burton, T.C. (1989) Influence of refractive error and lattice degeneration on the incidence of retinal detachment. Transactions of the American Ophthalmology Society 87, 143-157.

Butler, F.K.J. (1999) The eye at altitude. International Ophthalmology Clinics 39, 59-78.

Campos, M., Hertzog, L., and Wand, X.W. (1992a) Corneal surface after de-epithelialissation using a sharp and a dull instrument. Ophthalmic Surgery 23, 618-621.

Campos, M., Lee, M., and McDonnell, P.J. (1992b) Ocular integrity after refractive surgery - effects of photorefractive keratectomy, phototherapeutic keratectomy and radial keratotomy. Ophthalmic surgery and lasers 23, 598-602.

Cannamo, G., Rosa, N., La Rana, A., Bianco, S., and Sebastiani, A. (1997) Non-contact tonometry in patients that underwent photorefractive keratectomy. Ophthalmologica 211, 341-343.

Charpentier, D.Y., Nguyenkhoa, J.L., Duplessix, M., Colin, J., and Denis, P. (1995) Intrastromal thermokeratoplasty for correction of spherical hyperopia - one-year prospective-study. Journal Francais D'Ophthalmologie 18, 200-206.

Chatterjee, A., Shah, S., Bessant, D.A., Naroo, S.A., and Doyle, S.J. (1997) Reduction in intraocular pressure after excimer laser photorefractive keratectomy - correlation with pretreatment myopia. Ophthalmology 104, 355-359.

Chisholm, C. M. Assessment of visual performance: comparison of normal subjects and post-refractive surgery patients. 2002. City University. Thesis/Dissertation

Chisholm, C.M., Barbur, J.L., Edgar, D.F., and Thomson, W.D. (2000) The effect of excimer laser refractive surgery on visual performance. Investigative Ophthalmology and Visual Science 41, S462 (Abstract)

Chisholm, C.M., Barbur, J.L., Harlow, J.A., and Edgar, D.F. (2001) A new "pass/fail" test for assessing visual performance following corneal refractive surgery. Investigative Ophthalmology and Visual Science 42, S3268 (Abstract)

Claringbold, T.V. (2002) Laser-assisted subepithelial keratectomy for the correction of myopia. Journal of Cataract and Refractive Surgery 28, 18-22.

Condon, P. LASIK for hypermetropia. Session 4. 1997. BEKLS conference proceeding

Corbe, C., Jacquelin, P., Pedeprat, P., Pynson, J., and Boissin, J.P. (1993a) Aircrew fitness decisions and advances in refractive surgery techniques. German Journal of Ophthalmology 2, 146-149.

Corones, F., Gobbi, P.G., Vigo, L., and Brancato, R. (1999) Photorefractive keratectomy for hyperopia: long-term nonlinear and vector analysis of refractive outcome. Ophthalmology 106, 1976-1982.

Costagliola, C., Balestrieri, P., Fioretti, F., Frunzio, S., Rinaldi, M., and Scibelli, G. (1996) ArF 193nm excimer laser corneal surgery and photo-oxidation stress in aqueous humor and lens of rabbit: one-month follow-up. Current Eye Research 15, 355-361.

Cowden, J.W. and Bores, L.D. (1981) A clinical investigation of the surgical correction of myopia by the method of Fyodorov. Ophthalmology 88, 737-741.

Cowden, T.P., Probst, L.E., Bryton, K.W., Heathcote, G., and Holland, E.J. (1997) Perforation pressures and integrity of the posterior corneal stroma following LASIK. Investigative Ophthalmology & Visual Science 38, 419 (Abstract)

Cunha, M., Thomassen, T.S., Cohen, E.J., Genvert, G.I., Arentsen, J.J., and Laibson, P.R. (1987) Complications associated with soft contact lens use. CLAO 13, 107-111.

Daya, S.M., Tappouni, F.R., and Habib, N.E. (1997) Photorefractive keratectomy for hyperopia - six months results in 45 eyes. Ophthalmology 104, 1952-1958.

de Souza, R.F., Forseto, A., Nose, R., Belfort, R., and Nose, W. (2001) Anterior chamber intraocular lens for high myopia - Five year results. Journal of Cataract and Refractive Surgery 27, 1248-1253.

Dello Russo, J. (1993) Night glare and excimer laser ablation diameter. Journal of Cataract and Refractive Surgery 19, 565

Ditzen, K., Huschka, H., and Pieger, S. (1998) Laser in situ keratomileusis for hyperopia. Journal of Cataract and Refractive Surgery 24, 42-47.

Edgar, D.F., Barbur, J.L., and Woodward, E.G. (1995) Pupil size measurements in relation to light scatter in the eye. Investigative Ophthalmology and Visual Science 36, S938 (Abstract)

Ehlers, N. and Hjortdal, J.O. (1992) Excimer laser refractive keratectomy for high myopia - 6-month follow-up of patients treated bilaterally. Acta Ophthalmologica 70, 578-586.

El-Maghraby, A., Salah, T., Waring, G.O., Klyce, S., and Ibrahim, O. (1999) Randomized bilateral comparison of excimer laser in situ keratomileusis and photorefractive keratectomy for 2.50 to 8.00 diopters of myopia. Ophthalmology 106, 447-457.

Elliott, D.B., Mitchell, S., and Whitaker, D. (1991) Factors affecting light scatter in contact lens wearers. Optometry and Visual Science 68, 629-633.

Enzenauer, R.W., Wolter, A., Cornell, F.M., and Tucker, S. (1993) Radial keratotomy in the soldier-aviator. Military Medicine 158, 521-528.

Esente, S., Passarelli, N., Falco, L., Passani, F., and Guidi, D. (1993) Contrast sensitivity under photopic conditions in photorefractive keratectomy: a preliminary study. Journal of Refractive and Corneal Surgery 9, s70-s72

Evans, A., Chisholm, C. M., and Barbur, J. L. The contrast acuity assessment test as a tool for examining post-refractive surgery candidates. 2002. Montreal, Canada, Aerospace Medical Association. 5-5-2002. Conference Proceeding

Ford, M.W. and Stone, J. (1997) Practical optics and computer design of contact lenses. In: Contact Lenses, 4th edition Ed., 154-171. Edited by Phillips, A.J. and Speedwell, L., Butterworth-Heinemann.

Fyodorov, S.N. and Durnev, V.V. (1979) Operation of dosaged dissection of corneal circular ligament in cases of myopia of mild degree. Annuals of Ophthalmology 11, 1885-1890.

Galler, E.L., Umlas, J.W., Vinger, P.F., and Wu, H.K. (1995) Ocular integrity after quantitated trauma following photorefractive keratectomy and automated lamellar keratectomy. Investigative Ophthalmology & Visual Science 36, 580 (Abstract)

Gartry, D.S., Kerr Muir, M.G., and Marshall, J. (1992) Excimer laser photorefractive keratectomy: 18 month follow-up. Ophthalmology 99, 1209-1219.

Gartry, D.S., Kerr Muir, M.G., and Marshall, J. (1993) The effect of topical corticosteroids on refraction and corneal haze following excimer laser treatment of myopia: An update. A prospective, randomised, double-masked study. Eye 7, 584-590.

Gasson, A. and Morris, J. (1998) The Contact Lens Manual, 2nd edition Ed., Butterworth-Heinemann.

Geggel, H.S. and Coday, M.P. (2001) Late-onset traumatic laser in situ keratomileusis (LASIK) flap dehiscence. American Journal Of Ophthalmology 13, 505-506.

Goker, S., Er, H., and Kahvecioglu, C. (1998) Laser in situ keratomileusis to correct hyperopia from +4.25 to +8.00 diopters. Journal of Refractive Surgery 14, 26-30.

Goldberg, D.B. (2001) Laser in situ keratomileusis monovision. Journal of Cataract and Refractive Surgery 27, 1449-1455.

Goldberg, M.A., Dorr, D.A., and Pepose, J.S. (1997) Lack of diurnal variation in vision, refraction, or keratometry after excimer laser photorefractive keratectomy. American Journal Of Ophthalmology 123, 407-408.

Goldberg, M.A. and Pepose, J.S. (1996) Diurnal variation after excimer laser photorefractive keratectomy. Investigative Ophthalmology & Visual Science 37, 59(Abstract)

Good, G.W., Maisel, S.C., and Kriska, S.D. (1998) Setting an uncorrected visual acuity standard for police officer applicants. Journal of Applied Psychology 83, 817-824.

Helmy, S.A., Salah, A., Badawy, T.T., and Sidky, A.N. (1996) Photorefractive keratectomy and laser in situ keratomileusis for myopia between 6.00 and 10.00 dioptres. Journal of Refractive Surgery 12, 417-422.

Hennelly, M., Barbur, J.L., Edgar, D.F., and Woodward, E.G. (1997) Factors affecting the integrated straylight parameter in the normal human eye. Investigative Ophthalmology and Visual Science 38, s1014

Hess, R.F. and Carney, L.G. (1979) Vision through an abnormal cornea. Investigative Ophthalmology and Visual Science 18, 470-483.

Higa et al. (1997) PRK for the treatment of astigmatism and myopia between -1.00 and -19.00D. Journal of Cataract and Refractive Surgery 23,

Hjortdal, J.O., Bohm, A., Kohlhaas, M., Olsen, H., Lerche, R., Ehlers, N., and Draeger, J. (1996) Mechanical stability of the cornea after radial keratotomy and photorefractive keratectomy. Journal of Refractive Surgery 12, 459-466.

Hoffer, K.J., Darin, J.J., Pettit, T.H., Hofbauer, J.D., Elander, R., and Levenson, J.E. (1981) UCLA clinical trial of radial keratotomy. Preliminary report. Ophthalmology 88, 729-736.

Holladay, J.T., Dudeja, D.R., and Chang, J. (1999) Functional vision and corneal changes after laser in situ keratomileusis determined by contrast sensitivity, glare testing, and corneal topography. Journal of Cataract and Refractive Surgery 25, 663-669.

Holladay, J.T., Lynn, M.J., Waring, G.O., Gemmill, M., Keehn, G.C., and Fielding, B. (1991) The relationship of visual acuity, refractive error, and pupil size after radial keratotomy. Archives Of Ophthalmology 109, 70-76.

Ivanisevic, M. and Bojic, L. (1998) The incidence of nontraumatic phakic rhegmatogenous retinal detachment in Split-Dalmatia County, Croatia. International Ophthalmology 22, 197-199.

Ivanisevic, M., Bojic, L., and Eterovic, D. (2000) Epidemiological study of nontraumatic phakic rhegmatogenous retinal detachment. Ophthalmic Research 32, 237-239.

Jackson, W.B., Casson, E., Hodge, W.G., Mintsioulis, G., and Agapitos, P.J. (1998) Laser vision correction for low hyperopia. An 18-month assessment of safety and efficacy. Ophthalmology 105, 1727-1738.

Jimenez-Alfaro, I., Gomez-Telleria, G., Bueno, J.L., and Puy, P. (2001) Contrast sensitivity after posterior chamber phakic intraocular lens implantation for high myopia. Journal of Refractive Surgery 17, 641-645.

Jones, H.S., Moseley, M.J., and Thompson, J.R. (1994) Reliability of the Cambridge low contrast gratings. Ophthalmic and Physiological Optics 14, 287-289.

Joo, C.K. and Kim, T.G. (2000) Corneal ectasia detected after laser in situ keratomileusis for correction of less than -12 diopters of myopia. Journal of Cataract and Refractive Surgery 26, 292-295.

Kanski, J.J. (1999) Clinical Ophthalmology, 4th edition Ed., Butterworth-Heinemann.

Keech, P.M., Ichikawa, L., and Barlow, W. (1996) A prospective study of contact lens complications in a managed care setting. Optometry and Vision Science 73, 653-658.

Knorz, M.C., Liermann, A., Jendritza, B., and Hugger, P. (1998) LASIK for hyperopia and hyperopic astigmatism - results of a pilot study. Seminars in Ophthalmology 13, 83-87.

Krasnov, M.M., Avetisov, S.E., Makashova, N.V., and Mamikonian, V.R. (1988) The effect of radial keratotomy on contrast sensitivity. American Journal Of Ophthalmology 105, 651-655.

Kwitko, M.L., Gritz, D.C., Garbus, J.J., and McDonnell, P.J. (1992) Diurnal variation in corneal topography after radial keratotomy. Archives Of Ophthalmology 110, 351-356.

Laurent, J.M., Spigelmire, J.R., Schallhorn, S.C., Tanzer, D.J., Tidwell, J.L., Brown, M.C., and Kaupp, S.E. (2001) Susceptibility to injury of the LASIK corneal flap in rabbit. Investigative Ophthalmology and Visual Science 42, S3231 (Abstract)

Lee, J.B., Seong, G.J., Lee, J.H., Seo, K.Y., Lee, Y.G., and Kim, E.K. (2002) Comparison of laser epithelial keratomileusis and photorefractive keratectomy for low to moderate myopia. Journal of Cataract and Refractive Surgery 27, 565-570.

Lindstrom, R.L., Hardten, D.R., Houtman, D.M., Witte, B., Preschel, N., Chu, Y.R., Samuelson, T.W., and Linebarger, E.J. (1999) Six-month results of hyperopic and astigmatic LASIK in eyes with primary and secondary hyperopia. Transactions of the American Ophthalmology Society. 97, 241-255.

Lohmann, C.P., Fitzke, F., O'Brart, D., Muir, M.K., Timberlake, G., and Marshall, J. (1993) Corneal light scattering and visual performance in myopic individuals with spectacles, contact lenses, or excimer laser photorefractive keratectomy. American Journal of Ophthalmology 115, 444-453.

Lohmann, C.P., Gartry, D.S., Kerr Muir, M.G., Timberlake, G.T., Fitzke, F.W., and Marshall, J. (1991) Corneal haze after excimer laser refractive surgery: objective measurements and functional implications. European Journal of Ophthalmology 1, 173-180.

Magallanes, R., Shah, S., Zadok, D., Chayet, A.S., Assil, K.K., Montes, M., and Robledo, N. (2001) Stability after laser in situ keratomileusis in moderately and extremely myopic eyes. Journal of Cataract and Refractive Surgery 27, 1007-1012.

Marcos, S. (2001) Refractive surgery and optical aberrations. Optics and Photonics News January, 22-25.

Margrain, T.H. and Owen, C.G. (1996) The misting characteristics of spectacle lenses. Ophthalmic & Physiological Optics 16, 108-114.(Abstract)

Marinho, A., Neves, M.C., Pinto, M.C., and Vas, F. (1997) Posterior chamber silicone phakic intraocular lens. Journal of Refractive Surgery 13, 219-222.

Martin, W.J. (1949) The physique of young adult males. Medical Research Council Memorandum No. 20,

Martinez, C.E., Applegate, R.A., Howland, H.C., Klyce, S.D., McDonald, M.B., and Medina, J.P. (1996) Changes in corneal aberration structure after photorefractive keratectomy. Investigative Ophthalmology and Visual Science 37, S933

McCarthy, C.A., Livingston, P.M., and Taylor, H.R. (1997) Prevalence of myopia in adults: implications for refractive surgeons. Journal of Refractive Surgery. 13, 229-234.

McDonald, M.B., Deitz, M.R., Frantz, J.M., Kraff, M.C., Krueger, R.R., Salz, J.J., Kraff, C.R., Maguen, E., Matta, C.S., Nesburn, A.B., and Piebenga, L.W. (1999) Photorefractive keratectomy for low-to-moderate myopia and astigmatism with a small-beam, tracker-directed excimer laser. Ophthalmology 106, 1481-1488.

McDonald, M.B., Frantz, J.M., and Klyce, S.D. (1990a) Corneal PRK for myopia: the blind eye study. Archives Of Ophthalmology 108, 799-799.

McDonald, M.B., Frantz, J.M., Klyce, S.D., Beuerman, R.W., Varnell, R., Munnerlyn, C.R., Clapham, T.N., Salmeron, B., and Kaufman, H.E. (1990b) Central photorefractive keratectomy for myopia. The blind eye study. Archives Of Ophthalmology 108, 799-808.

McDonald, M.B., Frantz, J.M., Klyce, S.D., Salmeron, B., Beuerman, R.W., Munnerlyn, C.R., Clapham, T.N., Koons, S.J., and Kaufman, H.E. (1990c) One year refractive results of central photorefractive keratectomy for myopia in the non-human primate cornea. Archives Of Ophthalmology 108, 40-47.

McDonald, M.B., Haik, M., and Kaufman, H.E. (1983) Colour vision and contrast sensitivity testing after radial keratotomy. American Journal Of Ophthalmology 468

McDonald, M.B., Kaufman, H.E., and Frank, J.M. (1989) Excimer laser ablation in the human eye. Archives Of Ophthalmology 107, 641-642.

McDonald, M.B., Liu, J.C., Byrd, T.J., Abdelmegeed, M., Andrade, H.A., Klyce, S.D., Varnell, R., Munnerlyn, C.R., Clapham, T.N., and Kaufman, H.E. (1991) Central photorefractive keratectomy for myopia - partially sighted and normally sighted eyes. Ophthalmology 98, 1327-1337.

Miller, W.L. and Schoessler, J.P. (1995) Comparison of forward and backward scattered light in pre and post-surgical photorefractive keratectomy. Investigative Ophthalmology and Visual Science 36, S709 (Abstract)

Mitchell, P., Hourihan, F., Sandbach, J., and Wang, J.J. (1999) The relationship between glaucoma and myopia - The blue mountains eye study. Ophthalmology 106, 2010-2015.

Montes-Mico, R. and Charman, W.N. (2001) Choice of spatial frequency for contrast sensitivity evaluation after corneal refractive surgery. Journal of Refractive Surgery 17, 646-651.

Montes-Mico, R. and Charman, W.N. (2002) Mesopic contrast sensitivity function after excimer laser photorefractive keratectomy. Journal of Refractive Surgery 18, 9-13.

Montes, M., Chayet, A., Gomez, L., Magallanes, R., and Robledo, N. (1999) Laser in situ keratomileusis for myopia of -1.50 to -6.00 diopters. Journal of Refractive Surgery 15, 106-110.

Mrochen, M., Kaemmerer, M., and Seiler, T. (2001) Clinical results of wavefront-guided laser in situ keratomileusis 3 months after surgery. Journal of Cataract and Refractive Surgery 27, 201-207.

Munnerlyn, C.R., Koons, S.J., and Marshall, J. (1988) Photorefractive keratectomy: a technique for laser refractive surgery. Journal of Cataract and Refractive Surgery 14, 46-52.

Nagy, Z.Z., Fekete, O., and Suveges, I. (2002) Photorefractive keratectomy for myopia with the meditec MEL 70(G-Scan) flying spot laser. Journal of Refractive Surgery 17, 319-326.

Nagy, Z.Z., Krueger, R.R., Hamberg-Nystrom, H., Fust, A., Kovacs, A., Kelemen, E., and Suveges, I. (2001) Photorefractive keratectomy for hyperopia in 800 eyes with the Meditec MEL 60 laser. Journal of Refractive Surgery 17, 525-533.

North, R.V. (1993) Visual display units. In: Work and the eye, 1st edition Ed., 166AnonymousButterworth-Heinemann.

Nuss, R., Puliafito, C.A., and Dehm, E.J. (1987) Unscheduled DNA synthesis following excimer laser ablation of the cornea in vivo. Investigative Ophthalmology and Visual Science 28, 287-294.

O'Brart, D.P.S., Lohmann, C.P., Fitzke, F.W., Klonos, G., Corbett, M.C., Kerr-Muir, M.G., and Marshall, J. (1994a) Disturbances in night vision after excimer laser photorefractive keratectomy. Eye 8, 46-51.

O'Brart, D.P.S., Lohmann, C.P., Fitzke, F.W., Smith, S.E., Kerr-Muir, M.G., and Marshall, J. (1994b) Night vision after excimer laser photorefractive keratectomy: haze and halos. European Journal of Ophthalmology 4, 43-51.

Oliver, K.M., Hemenger, R.P., Corbett, M.C., O'Brart, D.P.S., Verma, S., Marshall, J., and Tomlinson, A. (1997) Corneal optical aberrations induced by photorefractive keratectomy. Journal of Refractive Surgery 13, 246-254.

Olsen, H. and Andersen, J. (1991) Contrast sensitivity in radial keratotomy. Acta Ophthalmologica 69, 654-658.

Olsson, K., Epstein, D., and Philipson, B.T. (1979) Glare sensitivity in cataract and in aphakic contact lens wear. Journal of the Japanese Contact Lens Society 21, 110-113.

Oshika, T., Klyce, S.D., Applegate, R.A., and Howland, H.C. (1999a) Changes in corneal wavefront aberrations with aging. Investigative Ophthalmology and Visual Science 40, 1351-1355.

Oshika, T., Klyce, S.D., Applegate, R.A., Howland, H.C., and el Danasoury, M.A. (1999b) Comparison of corneal wavefront aberrations after photorefractive keratectomy and laser in situ keratomileusis. American Journal Of Ophthalmology 127, 1-7.

Pallikaris, I.G., Koufala, K.I., Siganos, D.S., Papadaki, T.G., Katsanevaki, V.J., Tourtsan, V., and McDonald, M.B. (1999) Photorefractive keratectomy with a small spot laser and tracker. Journal of Refractive Surgery 15, 137-144.

Pallikaris, I.G., McDonald, M.B., Siganos, D., Klonos, G., Detorakis, S., Frey, R., Downes, R., and Gauthier, C.A. (1996) Tracker-assisted photorefractive keratectomy for myopia of -1 to -6 diopters. Journal of Refractive Surgery 12, 240-247.

Pallikaris, I.G., Papatzanaki, M.E., Siganos, D.S., and Tsilimbaris, M.K. (1991) A corneal flap technique for laser in situ keratomileusis: human studies. Archives Of Ophthalmology 109, 1699-1702.

Panda, A., Sharma, N., and Kumar, A. (1999) Ruptured globe 10 years after radial keratotomy. Journal of Refractive Surgery 15, 64-65.

Peacock, L.W., Slade, S.G., Martiz, J., Chuang, A., and Yee, R.W. (1997) Ocular integrity after refractive procedures. Ophthalmology 104, 1079-1083.

Perez-Santonja, J.J., Bueno, J.L., and Zato, M.A. (1997) Surgical correction of high myopia in phakic eyes with Worst-Fechner myopia intraocular lenses. Journal of Refractive Surgery 13, 268-284.

Perez-Santonja, J.J., Sakla, H.F., and Alio, J.L. (1998) Contrast sensitivity after laser in situ keratomileusis. Journal of Cataract and Refractive Surgery 24, 183-189.

Peters, N.T., Borer, R.C.J., and Strauss, M.B. (1999) Effect of increased atmospheric pressure on radial keratotomy. Journal of Cataract and Refractive Surgery 25, 1620-1623.

Pop, M. and Payette, Y. (2000) Photorefractive keratectomy versus laser in situ keratomileusis: a control-matched study. Ophthalmology 107, 251-257.

Price, F.W.J., Koller, D.L., and Price, M.O. (1999) Central corneal pachymetry in patients undergoing laser in situ keratomileusis. Ophthalmology 106, 2216-2220.

Puk, D.E., Probst, L.E., and Holland, E.J. (1996) Recurrent erosion after photorefractive keratectomy. Cornea 15, 277

Radford, C., Bacon, A., Dart, J., and Minassian, D. (1995) Risk factors for acanthamoeba keratitis in contact lens users: a case study. British Medical Journal 310, 1567-1570.(Abstract)

Radford, C., Minassian, D., and Dart, J. (1994) The risk of microbial keratitis with daily-wear and extended-wear use of disposable lenses. Investigative Opthalmology & Visual Science 35, 2163(Abstract)

Radford, C., Woodward, E., and Stapleton, F. (1993) Contact lens hygiene compliance in a university population. Journal of the British Contact Lens Association 16, 105-111.(Abstract)

Reeves, B.C., Wood, J.M., and Hill, A.R. (1991) Vistech VCTS 6500 charts - within and between session repeatability. Optometry And Vision Science 68, 728-737.

Reich, J., Rosen, P.A., Unger, H., Scully, K., and Prior, C. (1996) Early visual recovery after excimer laser surgery for myopia: the Melbourne OmniMed results. Ophthalmic Surgery & Lasers 27, S440-S443

Reinstein, D. Customised ablations using the Meditec system. 2002. British Society for Refractive Surgery. Conference Proceeding

Roberts, C.W. and Koester, C.J. (1993) Optical zone diameters for photorefractive corneal surgery. Investigative Ophthalmology & Visual Science 34, 2275-2281.

Sato, T., Akiyama, K., and Shimbata, H. (1953) A new surgical approach to myopia. American Journal Of Ophthalmology 36, 823-829.

Schallhorn, S. (1994) Photorefractive surgery in the Navy. Navy Medicine 85, 27-32.

Schallhorn, S.C., Blanton, C.L., Kaupp, S.E., Sutphin, J., Gordon, M., Goforth, H.J., and Butler, F.K.J. (1996) Preliminary results of photorefractive keratectomy in active-duty United States Navy personnel. Ophthalmology 103, 5-22.

Schallhorn, S.C., Reid, J.L., Kaupp, S.E., Blanton, C.L., Zoback, L., Goforth, H.J., Flowers, C.W., and McDonnell, P.J. (1998) Topographic detection of photorefractive keratectomy. Ophthalmology 105, 507-516.

Schwartz, G.S., Park, D.H., Schloff, S., and Lane, S.S. (2002) Traumatic flap displacement and subsequent diffuse lamellar keratitis after laser in situ keratomileusis. Journal of Cataract and Refractive Surgery 27, 781-783.

Seiler, T., Kaemmerer, M., Mierdel, P., and Krinke, H.E. (2000) Ocular optical aberrations after photorefractive keratectomy for myopia and myopic astigmatism. Archives Of Ophthalmology 118, 17-21.

Seiler, T., Kahle, G., and Kriegerowski, M. (1990) Excimer laser (193nm) myopic keratomileusis in sighted and blind human eyes. Journal of Refractive and Corneal Surgery 6, 165-173.

Seiler, T., Koufala, K., and Richter, G. (1998) Iatrogenic keratectasia after laser in situ keratomileusis. Journal of Refractive Surgery 14, 312-317.

Seiler, T. and Wollensak, J. (1991) Myopic photorefractive keratectomy with the excimer laser - one year follow-up. Ophthalmology 98, 1156-1163.

Shah, S., Chatterjee, A., Doyle, S.J., and Bessant, D.A. (1997) Astigmatism induced by spherical photorefractive keratectomy corrections. Ophthalmology 104, 1317-1320.

Shah, S., Chatterjee, A., and Smith, R.J. (1998) Predictability of spherical photorefractive keratectomy for myopia. Ophthalmology 105, 2178-2184.

Shah, S., Sarhan, A.S., Doyle, S.J., Pillai, C.T., and Dua, H.S. (2001) The epithelial flap for photorefractive keratectomy. British Journal Of Ophthalmology 85, 393-396.

Shieh, E., Moreira, H., D'Arcy, J., Clapham, T.N., and McDonnell, P.J. (1992) Quantitative analysis of wound healing after cylindrical and spherical excimer laser ablations. Ophthalmology 99, 1050-1055.

Siganos, D.S., Popescu, C.N., Siganos, C.S., and Margaritis, V.N. (1999) Seven years experience with LASIK for myopia. Oftalmologia 47, 50-52.

Smolek, M.K. and Klyce, S.D. (2001) Screening of prior refractive surgery by a wavelet-based neural network. Journal of Cataract and Refractive Surgery 27, 1926-1931.

Sorsby, A., Sheridan, M., and Leary.G.A. Vision, visual acuity and ocular refraction of young men. British Medical Journal 1, 1394-1398. 1960.

Stevens, J.D. and Ficker, L.A. (2002) Results of photorefractive keratectomy for hyperopia using the VISX Star excimer laser system. Journal of Refractive Surgery 18, 30-36.

Stevens, J.D. and Steele, A.D. (1993) Indications, results, and complications of refractive corneal surgery with lasers. Current Opinion in Ophthalmology 4, 91-98.

Stojanovic, A. and Nitter, T.A. (2001) 200 Hz flying-spot technology of the LaserSight LSX excimer laser in the treatment of myopic astigmatism - Six and 12 month outcomes of laser in situ keratomileusis and photorefractive keratectomy. Journal of Cataract and Refractive Surgery 27, 1263-1277.

Stone, J. (1997) Assessment of patient suitability for contact lenses. In: Contact Lenses, 4th edition Ed., 260Edited by Phillips, A.J. and Speedwell, L., Butterworth-Heinemann.

Strolenberg, U.A., Jackson, W.B., Mintsioulis, G., Agapitos, P., Norton, S., Munger, R., and Casson, E.J. (1996) Visual performance under dilated and non-dilated conditions following PRK: one year results. Investigative Ophthalmology and Visual Science 37, S566 (Abstract)

Tole, D.M., McCarthy, D.J., Couper, T., and Taylor, H.R. (2001) Comparison of laser in situ keratomileusis and photorefractive keratectomy for the correction of myopia of -6.00 dioptres of less. Journal of Refractive Surgery 17, 46-54.

Trokel, S.L., Srinizasan, R., and Braren, B. (1983) Laser surgery of the cornea. American Journal Of Ophthalmology 96, 710-715.

Tuunanen, T.H. and Tervo, T.T. (1998) Results of photorefractive keratectomy for low, moderate and high myopia. Journal of Refractive Surgery 14, 437-446.

Veraart, H.G.N., Van Den Berg, T.J.T.P., Hennekes, R., and Adank, A.M.J. (1995) Stray light in photorefractive keratectomy for myopia. Documenta Ophthalmologica 90, 35-42.

Vinger, P.F., Mieler, W.F., Oestreicher, J.H., and Easterbrook, M. (1996) Ruptured globes following radial and hexagonal keratotomy surgery. Archives Of Ophthalmology 114, 129-134.

Wachtlin, J., Blasig, I.E., Schrunder, S., Langenbeck, K., and Hoffmann, F. (2000) PRK and LASIK - their potential risk of cataractogenesis: lipid peroxidation changes in the aqueous humor and crystalline lens of rabbits. Cornea 19, 75-79.

Wang, Z., Chen, J., and Yang, B. (1997) Comparison of laser in situ keratomileusis and photorefractive keratectomy to correct myopia from -1.25 to -6.00 dioptres. Journal of Refractive Surgery 13, 528-534.

Waring, G.O., Lynn, M.J., Gelender, H., Laibson, P.R., Lindstrom, R.L., McDonald, M.B., Schanzlin, D.J., Sperduto, R.D., and Bourque, L.B. (1985) Results of the Prospective Evaluation of Radial Keratotomy (PERK) study one year after surgery. Ophthalmology 92, 177-198.

Waring, G.O., Lynn, M.J., and McDonnell, P.J. (1994) Results of the Prospective Evaluation of Radial Keratotomy (PERK) study at ten years after surgery. Archives Of Ophthalmology 112, 1298-1308.

Waring, G. O., Lynn, M. J., and Strahlman, E. R. Stability of refraction 4 years after radial keratotomy. American Journal Of Ophthalmology 111, 133-144. 1991.

Wells, G.A., Brown, J.J., Casson, E.J., Easterbrook, M., and Trottier, A.J. (1997) To wear or not to wear: current contact lens use in the Royal Canadian Mounted Police. Canadian Journal of Ophthalmology 32, 158-162.

Wilkins, A.J., Della Sala, S., Somazzi, L., and Nimmo-Smith, I. (1988) Age-related norms for the Cambridge low contrast gratings, including details concerning their design and use. Clinical Visual Science 2, 201-212.

Woo, G. and Hess, R.F. (1979) Contrast sensitivity function and soft contact lenses. International Contact Lens Clinics 6, 171-176.

Woodward, E.G. (1996) Corneal light scatter in contact lens wearers. Journal of the British Contact Lens Association. 19, 109-112.

Wright, K.W., Guemes, A., Kapadia, M.S., and Wilson, S.E. (1999) Binocular function and patient satisfaction after monovision induced by myopic photorefractive keratectomy. Journal of Cataract and Refractive Surgery 25, 177-182.

Yang, C.N., Shen, E.P., and Hu, F.R. (2001) Laser in situ keratomileusis for the correction of myopia and myopic astigmatism. Journal of Cataract and Refractive Surgery 27, 1952-1960.

Zadok, D., Haviv, D., Vishnevskia-Dai, V., Morad, Y., Levy, Y., Krakowski, D., and Nemet, P. (1998) Excimer laser photoastigmatic refractive keratectomy: eighteen-month follow-up. Ophthalmology 105, 620-623.

Zantos, S.G. and Holden, B.A. (1978) Ocular changes associated with continuous wear of contact lenses. Australian Journal of Optometry 61, 418-426.

© British Society for Refractive Surgery and Catharine Chisholm