BäckmanÖ. (2000). Interactive factors in the reading rehabilitation of elderly persons with low vision in Sweden. Journal of Visual Impairment & Blindness, 94, 638–647.
BrownB., BrabynL., WelchL., Haegerstrom-PortnoyG., & ColenbranderA. (1986). Contribution of vision variables to mobility in age-related maculopathy patients. American Journal of Optometry and Physiological Optics, 63, 733–739.
4.
CrosslandM. D., CulhamL. E., & RubinG. S. (2005). Predicting reading fluency in patients with macular disease. Optometry and Vision Science, 82, 11–17.
5.
FletcherD. C., & SchuchardR. A. (1997). Preferred retinal loci: Relationship to macular scotomas in a low vision population. Ophthalmology, 104, 632–638.
6.
HassanS. E., Lovie-KitchinJ. E., & WoodsR. L. (2002). Vision and mobility performance of subjects with age-related macular degeneration. Optometry and Vision Science, 79, 697–707.
7.
MacKebenM., & ColenbranderA. (2000). Topographic measurements of low contrast letter recognition as a tool for diagnosis and vision rehabilitation. In StuenC., ArdittiA., HorowitzA., LangM. A., RosenthalB., & SeidmanK. R. (Eds.), Vision rehabilitation: Assessment, intervention, and outcomes (pp. 158–160). Lisse, the Netherlands: Swets & Zeitlinger.
8.
MacKebenM., ColenbranderA., & GofenA. (1999). Use your PC to quickly map remaining vision after foveal vision loss. In WallM., & WildJ. M. (Eds.), Perimetry update 1998/1999 (pp. 307–316). The Hague, the Netherlands: Kugler.
9.
MacKebenM., & GofenA. (2007). Gaze-contingent display for retinal function testing by scanning laser ophthalmoscope. Journal of the Optical Society of America A, 24, 1402–1410.
10.
MarronJ. A., & BaileyI. L. (1982). Visual factors and orientation-mobility performance. American Journal of Optometry and Physiological Optics, 59, 413–426.
11.
MessiasA., ReinhardJ., Velasco e CruzA. A., DietzK., MacKebenM., & Trauzettel-KlosinskiS. (2007). Eccentric fixation in Stargardt's disease assessed by Tübingen perimetry. Investigative Ophthalmology and Vision Science, 48, 5815–5822.
12.
NilssonU. L., FrennessonC., & NilssonS. E. (2003). Patients with AMD and a large absolute central scotoma can be trained successfully to use eccentric viewing, as demonstrated in a scanning laser ophthalmoscope. Vision Research, 43, 1777–1787.
13.
OttoJ. (1969). Basic principles for the training of the residual vision in severe organic visual impairment. Klinische Monatsblätter für Augenheilkunde, 154, 370–392.
14.
ParkW. (1999). Vision rehabilitation for age-related macular degeneration. International Ophthalmology Clinics, 39, 143–162.
15.
RamachandranV. S., & GregoryR. L. (1991). Perceptual filling in of artificially induced scotomas in human vision. Nature, 350(6320), 699–702.
16.
SafranA. B., & LandisT. (1996). Plasticity in the adult visual cortex: Implications for the diagnosis of visual field defects and visual rehabilitation. Current Opinion in Ophthalmology, 7, 53–64.
17.
SafranA. B., & LandisT. (1999). From cortical plasticity to unawareness of visual field defects. Journal of Neuroophthalmology, 19(2), 84–88.
18.
SchuchardR. A. (1993). Validity and interpretation of Amsler grid reports. Archives of Ophthalmology, 111, 776–780.
19.
SchuchardR. A. (1995). Adaptation to macular scotomas in persons with low vision. American Journal of Occupational Therapy, 49, 870–876.
20.
Trauzettel-KlosinskiS., BiermannP., HahnG., & WeismannM. (2003). Assessment of parafoveal function in maculopathy: A comparison between the Macular Mapping Test and kinetic manual perimetry. Graefe's Archive for Clinical and Experimental Ophthalmology, 241, 988–895.
21.
WhiteJ. M., & BedellH. E. (1990). The oculomotor reference in humans with bilateral macular disease. Investigative Ophthalmology and Vision Science, 31, 1149–1161.
