A randomized clinical trial of progressive addition lenses versus single vision lenses on the progression of myopia in children J Gwiazda, L Hyman, M Hussein, D Everett, TT Norton, D Kurtz, MC Leske, ... Investigative ophthalmology & visual science 44 (4), 1492-1500, 2003 | 865 | 2003 |
The sclera and myopia JAS Rada, S Shelton, TT Norton Experimental eye research 82 (2), 185-200, 2006 | 672 | 2006 |
Accommodation and related risk factors associated with myopia progression and their interaction with treatment in COMET children JE Gwiazda, L Hyman, TT Norton, MEM Hussein, W Marsh-Tootle, ... Investigative ophthalmology & visual science 45 (7), 2143-2151, 2004 | 436 | 2004 |
Reduced extracellular matrix in mammalian sclera with induced myopia TT Norton, JA Rada Vision research 35 (9), 1271-1281, 1995 | 331 | 1995 |
Myopia in the lid-sutured tree shrew (Tupaia glis) SM Sherman, TT Norton, VA Casagrande Brain research 124 (1), 154-157, 1977 | 322 | 1977 |
Relationship of age, sex, and ethnicity with myopia progression and axial elongation in the correction of myopia evaluation trial L Hyman, J Gwiazda, M Hussein, TT Norton, Y Wang, W Marsh-Tootle, ... Archives of ophthalmology 123 (7), 977-987, 2005 | 280 | 2005 |
Regulation of the mechanical properties of tree shrew sclera by the visual environment JT Siegwart Jr, TT Norton Vision research 39 (2), 387-407, 1999 | 270 | 1999 |
Animal models of myopia: learning how vision controls the size of the eye TT Norton ILAR journal 40 (2), 59-77, 1999 | 236 | 1999 |
Light levels, refractive development, and myopia–a speculative review TT Norton, JT Siegwart Jr Experimental eye research 114, 48-57, 2013 | 230 | 2013 |
Progressive-addition lenses versus single-vision lenses for slowing progression of myopia in children with high accommodative lag and near esophoria Correction of Myopia Evaluation Trial 2 Study Group for the Pediatric Eye ... Investigative ophthalmology & visual science 52 (5), 2749-2757, 2011 | 204 | 2011 |
The development of experimental myopia and ocular component dimensions in monocularly lid-sutured tree shrews (Tupaia belangeri) NA McBRIEN, TT Norton Vision Research 32 (5), 843-852, 1992 | 202 | 1992 |
Normal development of refractive state and ocular component dimensions in the tree shrew (Tupaia belangeri) TT Norton, NA McBrien Vision Research 32 (5), 833-842, 1992 | 194 | 1992 |
Myopia stabilization and associated factors among participants in the Correction of Myopia Evaluation Trial (COMET) COMET Group Investigative ophthalmology & visual science 54 (13), 7871, 2013 | 193 | 2013 |
The time course of changes in mRNA levels in tree shrew sclera during induced myopia and recovery JT Siegwart, TT Norton Investigative ophthalmology & visual science 43 (7), 2067-2075, 2002 | 190 | 2002 |
Effect of interrupted lens wear on compensation for a minus lens in tree shrews AW Shaikh, JT Siegwart Jr, TT Norton Optometry and Vision Science 76 (5), 308-315, 1999 | 178 | 1999 |
The susceptible period for deprivation-induced myopia in tree shrew JT Siegwart Jr, TT Norton Vision Research 38 (22), 3505-3515, 1998 | 176 | 1998 |
Animal models of emmetropization: matching axial length to the focal plane. TT Norton, JT Siegwart Jr Journal of the American Optometric Association 66 (7), 405-414, 1995 | 175 | 1995 |
Lateral geniculate nucleus: a review of its physiology and function C VA The neural basis of visual function 4, 41-84, 1991 | 170 | 1991 |
Seasonal variations in the progression of myopia in children enrolled in the correction of myopia evaluation trial J Gwiazda, L Deng, R Manny, TT Norton Investigative ophthalmology & visual science 55 (2), 752-758, 2014 | 162 | 2014 |
Selective regulation of MMP and TIMP mRNA levels in tree shrew sclera during minus lens compensation and recovery JT Siegwart, TT Norton Investigative ophthalmology & visual science 46 (10), 3484-3492, 2005 | 153 | 2005 |