Using multivariate logistic regression to study the relationship between mechanical inputs and neural responses in mechanoreceptor neurons

Author

Del Prete, Z. ; Grigg, P.

Author_Institution

Dipt. di Meccanica e Aeronaut., Rome Univ., Italy

Volume

1

fYear

1999

fDate

1999

Abstract

An original statistical methodology is used to test whether the responses of mechanoreceptor neurons better encode tissue stress or strain during dynamic loading. Experiments were conducted by stretching samples of innervated tissues in vitro. The input function was a Pseudorandom Gaussian Noise (PGN) sequence. Stress and strain and their rates of change were measured and used as continuous input variables; neuron discharges were used as the binary outcome variable. The data were organized to fit a Multivariate Logistic Regression (MLR) model, and the strength of coupling between neural discharge and each mechanical variable was assessed using the Odds Ratios

Keywords

Gaussian noise; cellular biophysics; mechanoception; neurophysiology; physiological models; statistical analysis; Odds Ratios; binary outcome variable; innervated tissues samples stretching; mechanical inputs; mechanical variable; mechanoreceptor neurons; multivariate logistic regression; neural discharge; neural responses; pseudorandom Gaussian noise sequence; strain; stress; Capacitive sensors; Gaussian noise; In vitro; Input variables; Logistics; Neurons; Statistical analysis; Strain measurement; Stress measurement; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

[Engineering in Medicine and Biology, 1999. 21st Annual Conference and the 1999 Annual Fall Meetring of the Biomedical Engineering Society] BMES/EMBS Conference, 1999. Proceedings of the First Joint

Conference_Location

Atlanta, GA

ISSN

1094-687X

Print_ISBN

0-7803-5674-8

Type

conf

DOI

10.1109/IEMBS.1999.802497

Filename

802497