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Literature DB >> 518936

Nonlinear kernels of the human ERG.

R M Larkin, S Klein, T E Ogden, D H Fender.

Abstract

In this paper we examine the use of a symmetric binary random stimulus for eliciting the ERG, and for calculating the first-order and second-order kernels of a nonlinear functional expansion of the response. We show that if the stimulus is represented in a non-dimensional form, then the units in which all kernels are measured are the same as the units used to measure the response, microvolts in the case of the ERG; further, contributions from all kernels to the response can be added without scale factors. We present the first-order and second-order kernels measured for a population of 15 normal subjects in a clinical setting. The measurements were made at various levels of adaptation ranging from photopic to scotopic conditions. The second-order kernels illustrate the processes of rapid adaptation (less than 100 ms) in the retina.

Entities: Gene Species

Mesh：

Year: 1979 PMID： 518936 DOI： 10.1007/bf00337060

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

13 in total

Nonlinear kernels of the human ERG.

1. ON THE RELATIONSHIP BETWEEN THE SINGLE FLASH ERG AND THE ERG ELICITED BY MORE COMPLEX STIMULI.

2. A new method of cone electroretinography: the rapid random flash response.

3. The electrical response of the human eye to sinusoidal light stimulation.

4. Nonlinear identification theory models for successive stages of visual nervous systems of flies.

5. White-noise analysis of a neuron chain: an application of the Wiener theory.

6. The electroretinogram and electro-oculogram: clinical applications.

7. Electroretinography: Some basic principles.

8. Nonlinearities of the human ERG reflected by Wiener kernels.

9. The electroretinographic response to weak stimuli of large subtense.

10. The coating agent on the corneal contact lens in electroretinography.

1. Investigation of the temporal properties of the retina using the m-sequence.

2. Fundamental differences between the nonlinearities of pattern and focal electroretinograms.

3. Nonlinear mechanisms for gain adaptation in locust photoreceptors.

4. Reverse correlation analysis of the stretch response of primary muscle spindle afferent fibers.

5. The luminance origin of the pattern electroretinogram in man.

6. Multifocal electroretinogram in retinal vein occlusion.

7. Graphics Processing Unit-Accelerated Code for Computing Second-Order Wiener Kernels and Spike-Triggered Covariance.