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RETeval
Sensor Strips
RETevet
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  • Animal
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  • Flicker ERG
  • Inherited Retinal Diseases
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  • Sensor Strips

Paediatric norms for photopic electroretinogram testing based on a large cohort of Chinese preschool children

February 21, 2024
Chan SS hang, Choi KY, Chan HH lung. BMJ Open Ophthalmology. 2024;9(1):e001393.

Electrophysiological findings in long-term type 1 diabetes patients without diabetic retinopathy using different ERG recording systems

February 12, 2024
Arias-Alvarez M, Tomas-Grasa C, Sopeña-Pinilla M, et al. Sci Rep. 2024;14(1):3520.

Computer-Aided Discrimination of Glaucoma Patients from Healthy Subjects Using the RETeval Portable Device

February 6, 2024
Bekollari M, Dettoraki M, Stavrou V, Glotsos D, Liaparinos P.  Diagnostics. 2024;14(4):349.

Phenotypic Variation of Autosomal Recessive Leber Hereditary Optic Neuropathy (arLHON) in One Family

November 5, 2022
Pojda-Wilczek D, Wójcik J, Kmak B, Krawczyński MR. Diagnostics. 2022;12(11):2701.

Qualitative and quantitative comparison of ERGs with contact lens and adhesive skin electrodes

June 1, 2022
Chen D, Greenstein V, Brodie S. Doc Ophthalmol. 2022 Jun;144(3):203-215.

Evaluation of Electrical Performance and Properties of Electroretinography Electrodes

June 1, 2022
Man T, Yip Y, Cheung F, et al. Translational Vision Science & Technology June 2020, Vol.9, 45.

Comparison of the handheld RETeval ERG system with a routine ERG system in healthy adults and in paediatric patients.

August 2, 2021
Carter P, Gordon-Reid A, Shawkat F, et al. Comparison of the handheld RETeval ERG system with a routine ERG system in healthy adults and in paediatric patients. Eye (Lond). 2021 Aug;35(8):2180-2189.
2007_electrophysiological-assessment-in-birdshot-chorioretinopathy-use-of-a-portable-device-in-the-clinic_abstract

Electrophysiological Assessment in Birdshot Chorioretinopathy: Use of a Portable Device in the Clinic

June 1, 2020
The purpose of this study was to determine the time course of the loss of photoreceptor function and the changes…
Hand-held, dilation-free, electroretinography in children under 3 years of age treated with vigabatrin

Hand-held, dilation-free, electroretinography in children under 3 years of age treated with vigabatrin

February 1, 2019
This is the first study to assess the utility of RETeval device in children under 3 years of age undergoing vigabatrin treatment…

A Comparison of the RETeval Sensor Strip and DTL Electrode for Recording the Photopic Negative Response

December 12, 2018
Tang J, Hui F, Hadoux X, et al. Translational Vision Science & Technology December 2018, Vol.7, 27.
Mydriasis Study RETeval

Evaluation of light- and dark-adapted ERGs using a mydriasis-free, portable system: clinical classifications and normative data

December 1, 2018
The purpose of this study was to determine the intra-visit reliability and diagnostic capability of a handheld, mydriasisfree ERG, RETeval…

Nonsedated handheld electroretinogram as a screening test of retinal dysfunction in pediatric patients with nystagmus

September 15, 2017
Grace SF, Lam BL, Feuer WJ, Osigian CJ, Cavuoto KM, Capo H. Journal of American Association for Pediatric Ophthalmology and Strabismus. 2017;21(5):384-388

New Mydriasis-Free Electroretinogram Recorded with Skin Electrodes in Healthy Subjects

June 20, 2017
Asakawa K, Amino K, Iwase M, et al. Biomed Res Int. 2017:8539747.
scientific-reports

Screening for Diabetic Retinopathy Using New Mydriasis-Free, Full-Field, Flicker ERG recording device

November 8, 2016
Author(s): Fukuo, M., M. Kondo, A. Hirose, H. Fukushima, K. Ikesugi, M. Sugimoto, K. Kato, Y. Uchigata, and S. Kitano…
tvst-july-august-2016

Photopic Negative Response Obtained Using a Handheld Electroretinogram Device: Determining the Optimal Measure and Repeatability

July 1, 2016
Author(s): Wu, Z., X. Hadoux, F. Hui, M. G. Sarossy, and J. G. Crowston. 2016. Publication: Translational Vision Science &…
diabetes-and-its-complications

A novel device for accurate and efficient testing for vision-threatening diabetic retinopathy

April 1, 2016
Author(s): Maa, A. Y., W. J. Feuer, C. Q. Davis, E. K. Pillow, T. D. Brown, R. M. Caywood, J…
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Evaluation of cone function by a handheld non-mydriatic flicker electroretinogram device

March 31, 2016
Author(s): Nakamura, N., K. Fujinami, Y. Mizuno, T. Noda, and K. Tsunoda. 2016. Publication: Journal of Clinical Ophthalmology 10:1175-1185 doi:…
acta-ophth

Flicker electroretinograms before and after intravitreal ranibizumab injection in eyes with central retinal vein occlusion

January 18, 2015
Author(s): Yasuda, S., S. Kachi, S. Ueno, C. H. Piao, and H. Terasaki. 2015. Publication: Acta Ophthalmologica Scandinavica Foundation, 93(6):e465-8….
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California Proposition 65 information

Prop-65Warning: This product can expose you to chemicals including lead, which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information go to www.P65Warnings.ca.gov.

Substance Tables:

The table below lists substances which may be contained within LKC’s RETeval and RETevet products. Substances listed as Type 1 are within permissible levels in one or more of LKC’s products. Substances listed as Type 2 are used in the production of some components used in LKC products and may be present at trace levels, but are typically destroyed during processing. 

RETeval and RETevet Devices

Substance CAS # Type Listed as causing:
Nickel 7440-02-0 1 Cancer
Acrylonitrile 107-13-1 2
Ethylbenzine 100-41-4 2
Crystaline Silica 14808-60-7 1
Lead 7439-92-1 1 Cancer Developmental Toxicity Male Reproductive Toxicity Female Reproductive Toxicity
Methylene Chloride 75-09-2 2 Cancer Female Reproductive Toxicity
Bisphenol A 80-05-7 2
N-Hexane  110-54-3 2 Male Reproductive Toxicity