Literature DB >> 15573941

Improved contact lens electrode for corneal ERG recordings in mice.

Botir T Sagdullaev1, Paul J DeMarco, Maureen A McCall.   

Abstract

The electroretinogram (ERG) is routinely used to study retinal physiology in the clinic and in research. Due to their outstanding properties, contact lens electrodes (CLEs) are widely used for ERG recordings. Though the procedures for ERG recordings in mice are similar to those used in humans and larger vertebrates, use of CLEs in the mouse has been limited because of difficulties involved with the manufacturing of small contact lenses. We describe a simple instrument and method for manufacturing contact lenses and CLEs for stable ERG recordings in mice. The instrument operates like a hole-punch and is based on slip joint pliers incorporating a ball bearing on one jaw and forming plate on the other. These CLEs are simple to manufacture, inexpensive and provide stable, long-term recordings of corneal ERGs in mice. With minor modifications, these CLEs could be made for other small animals such as rats or fish.

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Year:  2004        PMID: 15573941     DOI: 10.1007/s10633-004-5734-1

Source DB:  PubMed          Journal:  Doc Ophthalmol        ISSN: 0012-4486            Impact factor:   2.379


  13 in total

1.  Electroretinogram contact lens electrode with tri-color light-emitting diode.

Authors:  S Mizunoya; K Kuniyoshi; M Arai; K Tahara; T Hirose
Journal:  Acta Ophthalmol Scand       Date:  2001-10

2.  Built-in LED contact lens electrode for S-cone electroretinographic recordings.

Authors:  Mieko Tsuruoka; Shuichi Yamamoto; Kazuha Ogata; Masanori Hayashi
Journal:  Doc Ophthalmol       Date:  2004-01       Impact factor: 2.379

3.  Evaluation of different recording parameters to establish a standard for flash electroretinography in rodents.

Authors:  A U Bayer; P Cook; S E Brodie; K P Maag; T Mittag
Journal:  Vision Res       Date:  2001-08       Impact factor: 1.886

4.  A new speculum electrode for electroretinography.

Authors:  P Lachapelle; L Blain
Journal:  J Neurosci Methods       Date:  1990-06       Impact factor: 2.390

5.  The scotopic threshold response of the dark-adapted electroretinogram of the mouse.

Authors:  Shannon M Saszik; John G Robson; Laura J Frishman
Journal:  J Physiol       Date:  2002-09-15       Impact factor: 5.182

6.  Corneal electrode for recording electroretinograms in rats.

Authors:  M Rosner; P Bobak; T L Lam
Journal:  Doc Ophthalmol       Date:  1993       Impact factor: 2.379

7.  Electroretinography as a screening method for mutations causing retinal dysfunction in mice.

Authors:  Claudia Dalke; Jana Löster; Helmut Fuchs; Valerie Gailus-Durner; Dian Soewarto; Jack Favor; Angelika Neuhäuser-Klaus; Walter Pretsch; Florian Gekeler; Kei Shinoda; Eberhart Zrenner; Thomas Meitinger; Martin Hrabé de Angelis; Jochen Graw
Journal:  Invest Ophthalmol Vis Sci       Date:  2004-02       Impact factor: 4.799

8.  Improved electrode for electroretinography.

Authors:  W W Dawson; G L Trick; C A Litzkow
Journal:  Invest Ophthalmol Vis Sci       Date:  1979-09       Impact factor: 4.799

9.  Comparisons of the amplitude size and the reproducibility of three different electrodes to record the corneal flash electroretinogram in rodents.

Authors:  A U Bayer; T Mittag; P Cook; S E Brodie; S M Podos; K P Maag
Journal:  Doc Ophthalmol       Date:  1999       Impact factor: 1.854

Review 10.  Electrophysiological analysis of visual function in mutant mice.

Authors:  Neal S Peachey; Sherry L Ball
Journal:  Doc Ophthalmol       Date:  2003-07       Impact factor: 1.854
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  22 in total

1.  Local diversity and fine-scale organization of receptive fields in mouse visual cortex.

Authors:  Vincent Bonin; Mark H Histed; Sergey Yurgenson; R Clay Reid
Journal:  J Neurosci       Date:  2011-12-14       Impact factor: 6.167

Review 2.  Recommendations for a toxicological screening ERG procedure in laboratory animals.

Authors:  Serge G Rosolen; Florence Rigaudière; Jean-François Le Gargasson; Mitchell G Brigell
Journal:  Doc Ophthalmol       Date:  2005-01       Impact factor: 2.379

3.  Retinal expression of Fgf2 in RCS rats with subretinal microphotodiode array.

Authors:  Vincent T Ciavatta; Moon Kim; Paul Wong; John M Nickerson; R Keith Shuler; George Y McLean; Machelle T Pardue
Journal:  Invest Ophthalmol Vis Sci       Date:  2009-03-05       Impact factor: 4.799

4.  Topical mydriatics affect light-evoked retinal responses in anesthetized mice.

Authors:  Deb Kumar Mojumder; Theodore G Wensel
Journal:  Invest Ophthalmol Vis Sci       Date:  2009-08-06       Impact factor: 4.799

5.  The DTL ERG electrode comes in different shapes and sizes: Are they all good?

Authors:  Jungeun Woo; Suna Jung; Mathieu Gauvin; Pierre Lachapelle
Journal:  Doc Ophthalmol       Date:  2017-07-24       Impact factor: 2.379

6.  Subretinal fluid is common in experimental non-arteritic anterior ischemic optic neuropathy.

Authors:  C Yu; J K Ho; Y J Liao
Journal:  Eye (Lond)       Date:  2014-09-26       Impact factor: 3.775

7.  Effects of a monocarboxylate transport 1 inhibitor, AZD3965, on retinal and visual function in the rat.

Authors:  Annette E Allen; Elizabeth A Martin; Katherine Greenwood; Claire Grant; Peter Vince; Robert J Lucas; William S Redfern
Journal:  Br J Pharmacol       Date:  2020-09-13       Impact factor: 8.739

8.  An adaptive ERG technique to measure normal and altered dark adaptation in the mouse.

Authors:  Paul J DeMarco; Yoshiaki Katagiri; Volker Enzmann; Henry J Kaplan; Maureen A McCall
Journal:  Doc Ophthalmol       Date:  2007-09-22       Impact factor: 2.379

9.  Two R7 regulator of G-protein signaling proteins shape retinal bipolar cell signaling.

Authors:  Deb Kumar Mojumder; Yan Qian; Theodore G Wensel
Journal:  J Neurosci       Date:  2009-06-17       Impact factor: 6.167

10.  Influence of the rod photoresponse on light adaptation and circadian rhythmicity in the cone ERG.

Authors:  Morven A Cameron; Robert J Lucas
Journal:  Mol Vis       Date:  2009-10-30       Impact factor: 2.367
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