Visual evoked potentials in veterinary ophthalmology: literature review-Reference-Cited by-同舟云学术

Visual evoked potentials in veterinary ophthalmology: literature review

Published:2019-10-01 Issue:5 Volume:2019 Page:23-29
ISSN:2500-4379
Container-title:Russian veterinary journal
language:en
Short-container-title:

Author:

Миронович Артем¹²,Mironovich Artem³⁴,Бояринов Сергей⁵,Boyarinov Sergey⁶

Affiliation:

1. Инновационный Ветеринарный Центр (ИВЦ) Московской ветеринарной академии имени К.И. Скрябина

2. Сеть Ветеринарных Клиник «Свой Доктор»

3. Innovation Veterinary Center of Moscow Veterinary Academy

4. Veterinary Clinic «Svoi Doctor»

5. Инновационный Ветеринарный Центр (ИВЦ) при МВА имени К.И. Скрябина

6. Innovation Veterinary Center of Moscow Veterinary Academy named after K.I. Skryabin

Abstract

Diagnosis of causes of blindness in veterinary ophthalmology is an urgent issue. There are a large number of diseases of central and peripheral nervous system, which can lead to partial or complete loss of visual function in animals. Visual evoked potentials (VEP) of brain can be a reliable diagnostic research method to clarify the location of the disfunction and causes of blindness in dogs and cats. Together, the visual evoked potentials and electroretinography complement each other and give a greater idea of electrophysiology of visual process. In this article on the basis of large quantity of information we examine the ways of applying this method and the problems, connected with its use. It is important to understand that the VEP can reveal the functional disturbances of visual way, but does not give the information about the structural changes.

Publisher

Publishing House Logos Press

Reference53 articles.

1. Adrian E.D., Matthews B.H., The interpretation of potential waves in the cortex, J Physiol., 1934, No. 81(4), pp. 440-71., Adrian E.D., Matthews B.H., The interpretation of potential waves in the cortex, J Physiol., 1934, No. 81(4), pp. 440-71.

2. Alitto, H.J. & Usrey, W.M., Dynamic properties of thalamic neurons for vision, Progress in Brain Research, 2005, No. 149, 83-90., Alitto, H.J. & Usrey, W.M., Dynamic properties of thalamic neurons for vision, Progress in Brain Research, 2005, No. 149, 83-90.

3. Alonso J.M., Yeh C.I., Weng C., Stoelzer C., Retinogeniculate connections: a balancing act between connection specificity and receptive field diversity, Progress in Brain Research, 2006, No. 154, 3-13., Alonso J.M., Yeh C.I., Weng C., Stoelzer C., Retinogeniculate connections: a balancing act between connection specificity and receptive field diversity, Progress in Brain Research, 2006, No. 154, 3-13.

4. American Clinical Neurophysiology, S. Guideline 9B: guidelines on visual evoked potentials, Am J Electroneurodiagnostic Technol., 2006, No. 46(3), pp. 254-74., American Clinical Neurophysiology, S. Guideline 9B: guidelines on visual evoked potentials, Am J Electroneurodiagnostic Technol., 2006, No. 46(3), pp. 254-74.

5. Aunon J.I., Weirich W.E. & Nyholm R., Effects of hypothermia on the visual-evoked brain potential in dogs, American Journal of Veterinary Research, 1977, No. 38, pp. 383-385., Aunon J.I., Weirich W.E. & Nyholm R., Effects of hypothermia on the visual-evoked brain potential in dogs, American Journal of Veterinary Research, 1977, No. 38, pp. 383-385.