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Items: 8

1.

Suitability of open-field autorefractors as pupillometers and instrument design effects.

Otero C, Aldaba M, Ferrer O, Gascón A, Ondategui-Parra JC, Pujol J.

Int J Ophthalmol. 2017 Apr 18;10(4):567-572. doi: 10.18240/ijo.2017.04.11. eCollection 2017.

2.

The impact of higher-order aberrations on the strength of directional signals produced by accommodative microfluctuations.

Metlapally S, Tong JL, Tahir HJ, Schor CM.

J Vis. 2014 Oct 23;14(12). pii: 25. doi: 10.1167/14.12.25.

3.

Wavefront aberration changes caused by a gradient of increasing accommodation stimuli.

Zhou XY, Wang L, Zhou XT, Yu ZQ.

Eye (Lond). 2015 Jan;29(1):115-21. doi: 10.1038/eye.2014.244. Epub 2014 Oct 24.

4.

An analytical method for predicting the geometrical and optical properties of the human lens under accommodation.

Sheil CJ, Bahrami M, Goncharov AV.

Biomed Opt Express. 2014 Apr 28;5(5):1649-63. doi: 10.1364/BOE.5.001649. eCollection 2014 May 1.

5.

Predicting crystalline lens fall caused by accommodation from changes in wavefront error.

He L, Applegate RA.

J Cataract Refract Surg. 2011 Jul;37(7):1313-22. doi: 10.1016/j.jcrs.2010.12.061.

6.

The SCHWIND AMARIS Total-Tech Laser as An All-Rounder in Refractive Surgery.

Arbelaez MC, Arba Mosquera S.

Middle East Afr J Ophthalmol. 2009 Jan;16(1):46-53. doi: 10.4103/0974-9233.48868.

7.

Age-related changes in accommodative dynamics from preschool to adulthood.

Anderson HA, Glasser A, Manny RE, Stuebing KK.

Invest Ophthalmol Vis Sci. 2010 Jan;51(1):614-22. doi: 10.1167/iovs.09-3653. Epub 2009 Aug 13.

8.

Minus lens stimulated accommodative lag as a function of age.

Anderson HA, Glasser A, Stuebing KK, Manny RE.

Optom Vis Sci. 2009 Jun;86(6):685-94. doi: 10.1097/OPX.0b013e3181a7294f.

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