This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Fishman GA, Birch DG, Holder GE et al. Electrophysiologic testing in disorders of the retina, optic nerve and visual pathway. 2nd ed., The Foundation of the American Academy of Ophthalmoilogy, Opthalmology monographs, 2001, 6-270.Search in Google Scholar
Bach M, Brigell MG, Hawlina M et al. ISCEV standard for clinical pattern electroretinography (PERG) (2012 update). Doc Ophthalmol, 2013, 126, 1-7.Search in Google Scholar
Hood DC, Bach M, Brigell M et al. ISCEV standard for clinical multifocal electroretinography (mfERG) (2011 edition). Doc Ophthalmol, 2012, 124(1), 1-13.Search in Google Scholar
Lamb BL. Full-field electroretinogram. In: Lam BL, ed. Lam, Byron L. Boca Raton, Taylor & Francis, 2005. 1-64.Search in Google Scholar
McCulloch DL, Marmor MF, Brigell MG at al. ISCEV Standard for full-field clinical electroretinography (2015 update). Doc Ophthalmol, 2015, 130, 1–12.Search in Google Scholar
Мermeklieva E. Matveev M. Electrophysiological methods for study of changes in visual analyzer in patients with diabetes mellitus. Int J Bioautom, 2017, 21(1), 69-102.Search in Google Scholar
Pescosolido N, Barbato A, Stefanucci A et al. Role of electrophysiology in the early diagnosis and follow-up of diabetic retinopathy. J Diab Res, 2015, Article ID319692, 8 pages.Search in Google Scholar
Zueva MV. Fundamental ophthalmology: the role of electrophysiological studies. Vestn Oftalmol, 2014, 130(6), 28-36.Search in Google Scholar
Sheludchenko VM, Current trends in the development of functional studies in ophthalmology. Vestn Oftalmol, 2006, 122(1), 51-53.Search in Google Scholar
Gruber H. Limitations and disadvantages of methods of proving simulation or aggravation of symptoms. Neuro-Ophthalmol, 2009, 2 (4), 293-295.Search in Google Scholar
Streppel M. Brusis T. Simulation and aggravation in ENT medical examinations. A prospective study. HNO, 2007, 5, 7-14.Search in Google Scholar
Hamilton R, Bach M, Heinrich SP et al. VEP estimation of visual acuity: a systematic review. Doc Ophthalmol, 2021, 142, 25–74.Search in Google Scholar
Gundogan FC, Tas A, Sobaci G. Cone Dystrophy with Rod Supernormal Electroretinogram: KCNV2 Mutation, J Retinavitreu, 2011, 19(4), 282-284.Search in Google Scholar
Friedburg C, Allen CP, Mason PJ et al. Contribution of cone photoreceptors and postreceptoral mechanisms to the human photopic electroretinogram, J Physiol, 2004, 556, 819–834.Search in Google Scholar
Ajoy V, Robson AG, Holder GE. Pathognomonic (Diagnostic) ERGs a review and update. Retina, the J of retinal and vitr diseases, 2013, 33(1), 5-12.Search in Google Scholar
Creel DJ. The Electroretinogram and Electro-oculogram: Clinical Applications, Webvision, the organization of the retina and visual system, http://webvision.med.utah.edu/book/electrophysiology/the-electroretinogram-clinical-pplications/15Search in Google Scholar
Whatham AR, Nguyen V, Zhu Y et al. The value of clinical electrophysiology in the assessment of the eye and visual system in the era of advanced imaging. Clin and Exp Optometry, 2014. 97, 99–115.Search in Google Scholar
Hood DC, Zhang X. Multifocal ERG and VEP responses and visual fields: comparing disease-related changes. Doc Ophthalmol, 2000, 100, 115-137.Search in Google Scholar
Strasser T, Nasser F, Langrová H et al. Objective assessment of visual acuity: a refined model for analyzing the sweep VEP. .Doc Ophthalmol. 2019, 138(2), 97-116.Search in Google Scholar
Zheng X, Xu G, Zhang K et al. Assessment of Human Visual Acuity Using Visual Evoked Potential: A Review. Du C.Sensors (Basel). 2020, 20(19), 5542.Search in Google Scholar
Shi LF, Hall AJ, Thompson DA. Full-field stimulus threshold testing: a scoping review of current practice. Eye (Lond). 2023, Jul 13. doi: 10.1038/s41433-023-02636-3.Search in Google Scholar
Chen JZ, Li CC, Li SH et al. A feasibility study for objective evaluation of visual acuity based on pattern-reversal visual evoked potentials and other related visual parameters with machine learning algorithm. BMC Ophthalmol. 2023, 23(1), 293.Search in Google Scholar
Cremone-Caira A, Braverman Y, MacNaughton GA et al. Reduced Visual Evoked Potential Amplitude in Autistic Children with Co-Occurring Features of Attention-Deficit/Hyperactivity Disorder. Autism Dev Disord. 2023 May 30. doi: 10.1007/ s10803-023-06005-7. Online ahead of print.Search in Google Scholar
Jia FQ, Luo FL, Xiong YH et al. Forensic Study on Objective Evaluation of Visual Acuity of Ametropia with the Event-related Potential P3. Curr Med Sci. 2023, 43(3), 609-614.Search in Google Scholar
Gundogan FC, Yolcu. U. Clinical Ocular Electrophysiology, chapter 5, 107-129, http://dx.doi.org/10.5772/57609Search in Google Scholar
