Characterization of the mechanosensitivity of tactile receptors using multivariate logistical regression

Sam Bradshaw; Fred J. Looft; Sean S. Kohles; Peter Grigg

Characterization of the mechanosensitivity of tactile receptors using multivariate logistical regression

Sam Bradshaw, Fred J. Looft, Sean S. Kohles, Peter Grigg

Restorative Dentistry

Research output: Contribution to journal › Conference article › peer-review

Abstract

Our initial objective was to establish a framework for modeling afferent mechanoreceptor behavior under dynamic compressive loads using multivariate regression techniques. A multivariate logistical model of the system was chosen because the system contains continuous input variables and a singular binary output variable corresponding to an "all-or-nothing" nerve action potential. Subsequently, this method was used to quantitatively assess the sensitivity of rapidly adapting afferents in rat hairy skin to the stimulus metrics stress, strain, and their time derivatives. In-vitro experiments involving compressive stimulation of isolated afferents using pseudorandom and non-repeating noise sequences were completed and an analysis of the data was performed using multivariate logistical regression.

Original language	English (US)
Pages (from-to)	65-66
Number of pages	2
Journal	Proceedings of the IEEE Annual Northeast Bioengineering Conference, NEBEC
State	Published - 2001
Event	27th IEEE Annual Northeast Bioengineering Conference - Storrs, CT, United States Duration: Mar 31 2001 → Apr 1 2001

ASJC Scopus subject areas

Chemical Engineering(all)

Cite this

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title = "Characterization of the mechanosensitivity of tactile receptors using multivariate logistical regression",

abstract = "Our initial objective was to establish a framework for modeling afferent mechanoreceptor behavior under dynamic compressive loads using multivariate regression techniques. A multivariate logistical model of the system was chosen because the system contains continuous input variables and a singular binary output variable corresponding to an {"}all-or-nothing{"} nerve action potential. Subsequently, this method was used to quantitatively assess the sensitivity of rapidly adapting afferents in rat hairy skin to the stimulus metrics stress, strain, and their time derivatives. In-vitro experiments involving compressive stimulation of isolated afferents using pseudorandom and non-repeating noise sequences were completed and an analysis of the data was performed using multivariate logistical regression.",

author = "Sam Bradshaw and Looft, {Fred J.} and Kohles, {Sean S.} and Peter Grigg",

year = "2001",

language = "English (US)",

pages = "65--66",

journal = "Proceedings of the IEEE Annual Northeast Bioengineering Conference, NEBEC",

issn = "1071-121X",

note = "27th IEEE Annual Northeast Bioengineering Conference ; Conference date: 31-03-2001 Through 01-04-2001",

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T1 - Characterization of the mechanosensitivity of tactile receptors using multivariate logistical regression

AU - Bradshaw, Sam

AU - Looft, Fred J.

AU - Kohles, Sean S.

AU - Grigg, Peter

PY - 2001

Y1 - 2001

N2 - Our initial objective was to establish a framework for modeling afferent mechanoreceptor behavior under dynamic compressive loads using multivariate regression techniques. A multivariate logistical model of the system was chosen because the system contains continuous input variables and a singular binary output variable corresponding to an "all-or-nothing" nerve action potential. Subsequently, this method was used to quantitatively assess the sensitivity of rapidly adapting afferents in rat hairy skin to the stimulus metrics stress, strain, and their time derivatives. In-vitro experiments involving compressive stimulation of isolated afferents using pseudorandom and non-repeating noise sequences were completed and an analysis of the data was performed using multivariate logistical regression.

AB - Our initial objective was to establish a framework for modeling afferent mechanoreceptor behavior under dynamic compressive loads using multivariate regression techniques. A multivariate logistical model of the system was chosen because the system contains continuous input variables and a singular binary output variable corresponding to an "all-or-nothing" nerve action potential. Subsequently, this method was used to quantitatively assess the sensitivity of rapidly adapting afferents in rat hairy skin to the stimulus metrics stress, strain, and their time derivatives. In-vitro experiments involving compressive stimulation of isolated afferents using pseudorandom and non-repeating noise sequences were completed and an analysis of the data was performed using multivariate logistical regression.

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M3 - Conference article

AN - SCOPUS:0035784455

SP - 65

EP - 66

JO - Proceedings of the IEEE Annual Northeast Bioengineering Conference, NEBEC

JF - Proceedings of the IEEE Annual Northeast Bioengineering Conference, NEBEC

SN - 1071-121X

T2 - 27th IEEE Annual Northeast Bioengineering Conference

Y2 - 31 March 2001 through 1 April 2001

ER -

Characterization of the mechanosensitivity of tactile receptors using multivariate logistical regression

Abstract

ASJC Scopus subject areas

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