Clinically used mainly by
ophthalmologists the
electroretinogram (ERG) is used for the diagnosis of various retinal diseases. Inherited retinal degenerations in which the ERG can be useful include: •
Retinitis pigmentosa and related hereditary degenerations • Retinitis punctata albescens •
Leber's congenital amaurosis •
Choroideremia •
Gyrate atrophy of the retina and choroid • Goldman-Favre syndrome •
Congenital stationary night blindness -
normal a-wave indicates normal photoreceptors; absent b-wave indicates abnormality in the bipolar cell region. • X-linked juvenile
retinoschisis •
Achromatopsia •
Cone dystrophy • Disorders mimicking retinitis pigmentosa •
Usher syndrome Other ocular disorders in which the standard ERG provides useful information include: •
Diabetic retinopathy • Other ischemic retinopathies including
central retinal vein occlusion (CRVO), branch vein occlusion (BVO), and
sickle cell retinopathy • Toxic retinopathies, including those caused by
Plaquenil and
Vigabatrin. The ERG is also used to monitor retinal toxicity in many drug trials. • Autoimmune retinopathies such as cancer associated retinopathy (CAR), melanoma associated retinopathy (MAR), and
acute zonal occult outer retinopathy (AZOOR) •
Retinal detachment • Assessment of retinal function after trauma, especially in vitreous hemorrhage, dense cataracts, and other conditions where the fundus cannot be visualized. The ERG is also used extensively in eye research, as it provides information about the function of the retina that is not otherwise available. Other ERG tests, such as the
photopic negative response (PhNR) and
pattern ERG (PERG), are used to assess retinal ganglion cell function and may be useful in diseases such as
glaucoma. The
multifocal ERG is used to record separate responses for different retinal locations. The international body concerned with the clinical use and standardization of the ERG, EOG, and VEP is the International Society for the Clinical Electrophysiology of Vision (ISCEV). == Other uses ==