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Project Details

NOISE IN CONE CIRCUITS TO RETINAL GANGLION CELLS

Project Number1R01EY011138-01

Contact PI/Project LeaderFREED, MICHAEL A

Awardee OrganizationUNIVERSITY OF PENNSYLVANIA

Description

Abstract Text

Description. The signal-to-noise ratio (SNR) of ganglion cells determines the quality of retinal output and limits visual performance. Currently, there are no quantitative accounts of how retinal circuits minimize noise. The long term goals of the applicant have been to relate circuit structure to function in the cat retina using anatomical, electrophysiological, and computational approaches. The applicant proposes to measure the SNR of the generator potential of alpha and beta ganglion cells. He will determine how much noise arises from synapses upon these ganglion cells, compared to noise from ionic channels in ganglion cell membrane, and noise introduced by the circuitry between the cones and the ganglion cells. The applicant then proposes to use quantitative structural information in conjunction with physiological data to model this circuitry. This should provide information on how these circuits improve the SNR of ganglion cells.

Public Health Relevance Statement

Data not available.

NIH Spending Category

No NIH Spending Category available.

Project Terms

amacrine cellscatscomputer simulationcone cellelectrophysiologygap junctionsneural information processingneuroanatomyneurophysiologynoise biological effectretinal bipolar neuronretinal ganglionsynapsesvisual feedbackvisual photoreceptorvoltage gated channel

Details

Contact PI/ Project Leader

Name

FREED, MICHAEL A

Title

RESEARCH ASSOCIATE PROFESSOR

Contact

Other PIs

Not Applicable

Program Official

Name

Contact

Email not available

Organization

Name

UNIVERSITY OF PENNSYLVANIA

City

PHILADELPHIA

Country

UNITED STATES (US)

Department Type

ANATOMY/CELL BIOLOGY

Organization Type

SCHOOLS OF MEDICINE

State Code

Congressional District

Other Information

Opportunity Number

Study Section

Visual Sciences C Study Section[VISC]

Fiscal Year

1995

Award Notice Date

21-August-1995

Administering Institutes or Centers

National Eye Institute

CFDA Code

DUNS Number

042250712

UEI

GM1XX56LEP58

Project Start Date

01-September-1995

Project End Date

31-August-1998

Budget Start Date

01-September-1995

Budget End Date

31-August-1996

Project Funding Information for 1995

Total Funding

$138,993

Direct Costs

$88,383

Indirect Costs

$50,610

Year	Funding IC	FY Total Cost by IC
1995	National Eye Institute	$138,993

Sub Projects

No Sub Projects information available for 1R01EY011138-01

Publications

Publications are associated with projects, but cannot be identified with any particular year of the project or fiscal year of funding. This is due to the continuous and cumulative nature of knowledge generation across the life of a project and the sometimes long and variable publishing timeline. Similarly, for multi-component projects, publications are associated with the parent core project and not with individual sub-projects.

No Publications available for 1R01EY011138-01

Patents

No Patents information available for 1R01EY011138-01

Outcomes

The Project Outcomes shown here are displayed verbatim as submitted by the Principal Investigator (PI) for this award. Any opinions, findings, and conclusions or recommendations expressed are those of the PI and do not necessarily reflect the views of the National Institutes of Health. NIH has not endorsed the content below.

No Outcomes available for 1R01EY011138-01

Clinical Studies

No Clinical Studies information available for 1R01EY011138-01

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