Publications
Geographic distribution of corneal staining in symptomatic dry eye. Ocular Surface. 2020;18:258-266.
. Authors\textquotesingle reply. Ophthalmology. 1998;105:205. Available at: https://doi.org/10.1016%2Fs0161-6420%2898%2992548-9.
. Long-term fluctuation in short-wavelength automated perimetry. In: INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE.Vol 38. LIPPINCOTT-RAVEN PUBL 227 EAST WASHINGTON SQ, PHILADELPHIA, PA 19106; 1997:2660–2660.
. Pointwise univariate linear regression of perimetric sensitivity against follow-up time in glaucoma. Ophthalmology. 1997;104(5):808–815.
. UNIVARIATE LINEAR-REGRESSION OF POINTWISE VISUAL-FIELD SENSITIVITY AGAINST TIME OF FOLLOW-UP. In: INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE.Vol 35. LIPPINCOTT-RAVEN PUBL 227 EAST WASHINGTON SQ, PHILADELPHIA, PA 19106; 1994:2185–2185.
. Comparison of performance of some common Hartmann-Shack centroid estimation methods. In: SPIE BiOS. International Society for Optics and Photonics; 2016:969321.1–969321.5.
Corneal, Conjunctival effects and blood flow changes related to silicone hydrogel lens wear and their correlations with end of day comfort. Contact Lens and Anterior Eye. 2018. Available at: http://www.contactlensjournal.com/article/S1367-0484(16)30230-2/fulltext.
. Optical edge effects create conjunctival indentation thickness artefacts. Ophthalmic and Physiological Optics. 2015;35(3):283–292.
Case report: Chalazion and its features visualized by ultrahigh resolution optical coherence tomography. Contact Lens and Anterior Eye. 2011;34(2):87–91.
. Redness and Roughness of Tarsal Conjunctiva: Repeatability of and Associations Between Objective Metrics. Investigative Ophthalmology & Visual Science. 2010;51(13):2396–2396.
. THE ACCURACY OF MULTIPLE LINEAR REGRESSION ANALYSIS OF VISUAL FIELD PROGRESSION IMPROVES WITH EQUAL INTERTEST INTERVAL. Optometry and Vision Science. 2001;78:104. Available at: https://doi.org/10.1097%2F00006324-200112001-00157.
. Evaluation of methods for determining glaucomatous visual field progression. PERIMETRY UPDATE. 2001:351–356.
. Grading Bulbar Redness Using Cross-Calibrated Clinical Grading Scales. Investigative ophthalmology & visual science. 2011;52(8):5812–5817.
. The conversion of bulbar redness grades using psychophysical scaling. Optometry & Vision Science. 2010;87(3):159.
. The perceived bulbar redness of clinical grading scales. Optometry & Vision Science. 2009;86(11):E1250.
. The use of fractal analysis and photometry to estimate the accuracy of bulbar redness grading scales. Investigative ophthalmology & visual science. 2008;49(4):1398–1406.
. Wavefront aberrations with incomplete Hartmann-Shack sensor data. Asian J Phys. 2019;28(7-9):689-699. Available at: http://demo050307.hostgator.co.in/content2/vol-28-2019/vol-28-nos-7-9.
. Pupil scaling for the estimation of aberrations in natural pupils. Optometry & Vision Science. 2014;91(10):1175–1182.
. Mixed model analysis of between-subject variability in overnight corneal swelling and deswelling with silicone hydrogel lenses. Investigative Ophthalmology and Visual Science. 2018;59:2576-2585.
. Mixed model analysis of corneal deswelling following overnight wear of silicone hydrogel lenses. In: Investigative Ophthalmology & Visual Science.Vol 57. The Association for Research in Vision and Ophthalmology; 2016:1491–1491.
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