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Items: 1 to 20 of 334

1.

Adaptive optics for vision: the eye's adaptation to point spread function.

Artal P, Chen L, Fernández EJ, Singer B, Manzanera S, Williams DR.

J Refract Surg. 2003 Sep-Oct;19(5):S585-7.

PMID:
14518748
2.

Neural compensation for the eye's optical aberrations.

Artal P, Chen L, Fernández EJ, Singer B, Manzanera S, Williams DR.

J Vis. 2004 Apr 16;4(4):281-7.

PMID:
15134475
3.

Enhanced visual acuity and image perception following correction of highly aberrated eyes using an adaptive optics visual simulator.

Rocha KM, Vabre L, Chateau N, Krueger RR.

J Refract Surg. 2010 Jan;26(1):52-6. doi: 10.3928/1081597X-20101215-08.

PMID:
20199013
4.

Effect of rotation and translation on the expected benefit of an ideal method to correct the eye's higher-order aberrations.

Guirao A, Williams DR, Cox IG.

J Opt Soc Am A Opt Image Sci Vis. 2001 May;18(5):1003-15.

PMID:
11336203
5.

Method for optimizing the correction of the eye's higher-order aberrations in the presence of decentrations.

Guirao A, Cox IG, Williams DR.

J Opt Soc Am A Opt Image Sci Vis. 2002 Jan;19(1):126-8.

PMID:
11778714
6.

Using pattern classification to measure adaptation to the orientation of high order aberrations.

Sawides L, Dorronsoro C, Haun AM, Peli E, Marcos S.

PLoS One. 2013 Aug 14;8(8):e70856. doi: 10.1371/journal.pone.0070856. eCollection 2013.

7.

Dependence of subjective image focus on the magnitude and pattern of high order aberrations.

Sawides L, Dorronsoro C, de Gracia P, Vinas M, Webster M, Marcos S.

J Vis. 2012 Aug 7;12(8):4. doi: 10.1167/12.8.4.

PMID:
22872776
8.

A method to predict refractive errors from wave aberration data.

Guirao A, Williams DR.

Optom Vis Sci. 2003 Jan;80(1):36-42.

PMID:
12553542
9.

Adaptive optics visual simulator.

Fernández EJ, Manzanera S, Piers P, Artal P.

J Refract Surg. 2002 Sep-Oct;18(5):S634-8.

PMID:
12361172
10.

Neural compensation for the best aberration correction.

Chen L, Artal P, Gutierrez D, Williams DR.

J Vis. 2007 Jul 23;7(10):9.1-9.

PMID:
17997678
11.

On-eye evaluation of optical performance of rigid and soft contact lenses.

Hong X, Himebaugh N, Thibos LN.

Optom Vis Sci. 2001 Dec;78(12):872-80.

PMID:
11780664
12.

Improvement in retinal image quality with dynamic correction of the eye's aberrations.

Hofer H, Chen L, Yoon GY, Singer B, Yamauchi Y, Williams DR.

Opt Express. 2001 May 21;8(11):631-43.

PMID:
19421252
13.

Effects of Zernike wavefront aberrations on visual acuity measured using electromagnetic adaptive optics technology.

Rocha KM, Vabre L, Harms F, Chateau N, Krueger RR.

J Refract Surg. 2007 Nov;23(9):953-9.

PMID:
18041253
14.

Image metrics for predicting subjective image quality.

Chen L, Singer B, Guirao A, Porter J, Williams DR.

Optom Vis Sci. 2005 May;82(5):358-69.

PMID:
15894912
15.

Supernormal vision and high-resolution retinal imaging through adaptive optics.

Liang J, Williams DR, Miller DT.

J Opt Soc Am A Opt Image Sci Vis. 1997 Nov;14(11):2884-92.

PMID:
9379246
16.

Digital image processing for pre-compensation of high-order aberrations of the human eye.

Alonso M Jr, Barreto A.

Biomed Sci Instrum. 2003;39:99-104.

PMID:
12724876
17.

Achromatizing the human eye.

Bradley A, Zhang XX, Thibos LN.

Optom Vis Sci. 1991 Aug;68(8):608-16. Review.

PMID:
1923337
18.

Visual performance after correcting the monochromatic and chromatic aberrations of the eye.

Yoon GY, Williams DR.

J Opt Soc Am A Opt Image Sci Vis. 2002 Feb;19(2):266-75.

PMID:
11822589
19.

[Aspheric intraocular lenses].

Kohnen T, Klaproth OK.

Ophthalmologe. 2008 Mar;105(3):234-40. doi: 10.1007/s00347-008-1718-y. Review. German.

PMID:
18311568
20.

Limits to vision: can we do better than nature?

Applegate RA.

J Refract Surg. 2000 Sep-Oct;16(5):S547-51. Review.

PMID:
11019869
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