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Items: 1 to 20 of 216

1.

Using electroretinograms to assess flicker fusion frequency in domestic hens Gallus gallus domesticus.

Lisney TJ, Ekesten B, Tauson R, Håstad O, Odeen A.

Vision Res. 2012 Jun 1;62:125-33. doi: 10.1016/j.visres.2012.04.002. Epub 2012 Apr 11.

2.

Behavioural assessment of flicker fusion frequency in chicken Gallus gallus domesticus.

Lisney TJ, Rubene D, Rózsa J, Løvlie H, Håstad O, Ödeen A.

Vision Res. 2011 Jun 21;51(12):1324-32. doi: 10.1016/j.visres.2011.04.009. Epub 2011 Apr 20.

3.

Artificial lighting in poultry houses: do hens perceive the modulation of fluorescent lamps as flicker?

Nuboer JF, Coemans MA, Vos JJ.

Br Poult Sci. 1992 Mar;33(1):123-33.

PMID:
1571796
4.

The presence of UV wavelengths improves the temporal resolution of the avian visual system.

Rubene D, Håstad O, Tauson R, Wall H, Odeen A.

J Exp Biol. 2010 Oct 1;213(Pt 19):3357-63. doi: 10.1242/jeb.042424.

5.

Measuring and modelling the photopic flicker sensitivity of the chicken (Gallus g. domesticus).

Jarvis JR, Taylor NR, Prescott NB, Meeks I, Wathes CM.

Vision Res. 2002 Jan;42(1):99-106.

6.

Flicker fusion characteristics of rod photoreceptors in the toad.

Nowak LM, Green DG.

Vision Res. 1983;23(9):845-9.

7.

Flicker assessment of rod and cone function in a model of retinal degeneration.

Rubin GR, Kraft TW.

Doc Ophthalmol. 2007 Nov;115(3):165-72. Epub 2007 Aug 3.

PMID:
17674067
8.

[Colored light stimuli in ERG for differential diagnosis of cone dystrophies].

Kellner U, Foerster MH.

Klin Monbl Augenheilkd. 1992 Aug;201(2):102-6. German.

PMID:
1434375
9.

Effects of flicker adaptation and temporal gain control on the flicker ERG.

Wu S, Burns SA, Elsner AE.

Vision Res. 1995 Nov;35(21):2943-53.

10.

A comparison of two methods for assessing critical flicker fusion frequency in hens.

Railton RC, Foster TM, Temple W.

Behav Processes. 2009 Feb;80(2):196-200. doi: 10.1016/j.beproc.2008.11.016. Epub 2008 Dec 3.

PMID:
19101613
11.

Abnormal 8-Hz flicker electroretinograms in carriers of X-linked retinoschisis.

McAnany JJ, Park JC, Collison FT, Fishman GA, Stone EM.

Doc Ophthalmol. 2016 Aug;133(1):61-70. doi: 10.1007/s10633-016-9551-0. Epub 2016 Jul 1.

12.

Analysis of nonlinearities in the flicker ERG.

Burns SA, Elsner AE, Kreitz MR.

Optom Vis Sci. 1992 Feb;69(2):95-105.

PMID:
1584559
13.

Temporal properties of the lens eyes of the box jellyfish Tripedalia cystophora.

O'Connor M, Nilsson DE, Garm A.

J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2010 Mar;196(3):213-20. doi: 10.1007/s00359-010-0506-8. Epub 2010 Feb 4.

14.

Rod- and cone-isolated flicker electroretinograms and their response summation characteristics.

McAnany JJ, Park JC, Cao D.

Vis Neurosci. 2015 Jan;32:E018. doi: 10.1017/S0952523815000139.

PMID:
26241372
15.

Primate photopic sine-wave flicker ERG: vector modeling analysis of component origins using glutamate analogs.

Kondo M, Sieving PA.

Invest Ophthalmol Vis Sci. 2001 Jan;42(1):305-12.

PMID:
11133883
16.

Responses of broiler chickens to high-frequency and low-frequency fluorescent light.

Boshouwers FM, Nicaise E.

Br Poult Sci. 1992 Sep;33(4):711-7.

PMID:
1393666
17.
18.

Temporal resolution and temporal transfer properties: gabaergic and cholinergic mechanisms.

Behrend K, Benkner B, Mora-Ferrer C.

Vis Neurosci. 2007 Nov-Dec;24(6):787-97.

PMID:
18093366
19.

Monocular and binocular steady-state flicker VEPs: frequency-response functions to sinusoidal and square-wave luminance modulation.

Nicol DS, Hamilton R, Shahani U, McCulloch DL.

Doc Ophthalmol. 2011 Feb;122(1):63-70. doi: 10.1007/s10633-011-9260-7. Epub 2011 Jan 29.

PMID:
21279419
20.

Accommodation responses to flickering stimuli.

Chauhan K, Charman WN.

Ophthalmic Physiol Opt. 1996 Sep;16(5):391-408.

PMID:
8944184

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