Max Grayson1, Daniel Nagle-Pinkham2, Dmitry Gokhman2, Shivani Ruparel3. 1. Department of Endodontics, University of Texas Health San Antonio, TX, USA. 2. Department of Mathematics, University of Texas at San Antonio, TX, USA. 3. Department of Endodontics, University of Texas Health San Antonio, TX, USA. Electronic address: ruparels@uthscsa.edu.
Abstract
BACKGROUND: Electrophysiological recordings of isolated sensory afferents are commonly used in the field of pain research to investigate peripheral mechanisms of nociception in various pain models. The method involves skillful and tedious recordings of teased fibers from nerve preparations as well as time-consuming post-recording analyses. To increase efficiency and productivity of data analyses of recorded action potentials, we developed and validated a novel, easy-to-use Microsoft Excel-based application using Visual Basic Programming. NEW METHOD: A code for the novel program, shigraspike1.0, was written to create a module to include customizable subroutines for analyses for electrical and mechanical responses. Using previously recorded action potentials with tongue-lingual nerve preparations, the program was validated for appropriate execution, ease-of-use, accuracy of the output data and time taken for analyses. RESULTS: We observed appropriate execution of shigraspike1.0 on Windows and iOS desktop platforms that included computation of response latency of the spike of interest using electrical stimulus as well as estimation of the number of impulses at each force with a step-and-hold mechanical ramp of 10-200mN. Output data obtained by shigrapsike1.0 for both stimulus types were accurate and statistically insignificant from manual analyses. COMPARISON WITH EXISTING METHOD: The novel application shigraspike1.0, allows for rapid analyses for single-fiber recordings and takes less than half the time to analyze electrical and mechanical responses compared to manual analyses. CONCLUSIONS: The newly developed shigraspike1.0 application can be a very productive tool to be routinely used for efficient analyses of single-fiber electrophysiology in pain research.
BACKGROUND: Electrophysiological recordings of isolated sensory afferents are commonly used in the field of pain research to investigate peripheral mechanisms of nociception in various pain models. The method involves skillful and tedious recordings of teased fibers from nerve preparations as well as time-consuming post-recording analyses. To increase efficiency and productivity of data analyses of recorded action potentials, we developed and validated a novel, easy-to-use Microsoft Excel-based application using Visual Basic Programming. NEW METHOD: A code for the novel program, shigraspike1.0, was written to create a module to include customizable subroutines for analyses for electrical and mechanical responses. Using previously recorded action potentials with tongue-lingual nerve preparations, the program was validated for appropriate execution, ease-of-use, accuracy of the output data and time taken for analyses. RESULTS: We observed appropriate execution of shigraspike1.0 on Windows and iOS desktop platforms that included computation of response latency of the spike of interest using electrical stimulus as well as estimation of the number of impulses at each force with a step-and-hold mechanical ramp of 10-200mN. Output data obtained by shigrapsike1.0 for both stimulus types were accurate and statistically insignificant from manual analyses. COMPARISON WITH EXISTING METHOD: The novel application shigraspike1.0, allows for rapid analyses for single-fiber recordings and takes less than half the time to analyze electrical and mechanical responses compared to manual analyses. CONCLUSIONS: The newly developed shigraspike1.0 application can be a very productive tool to be routinely used for efficient analyses of single-fiber electrophysiology in pain research.
Authors: Sara Nullens; Annemie Deiteren; Wen Jiang; Christopher Keating; Hannah Ceuleers; Sven Francque; David Grundy; Joris G De Man; Benedicte Y De Winter Journal: J Vis Exp Date: 2016-10-25 Impact factor: 1.355
Authors: Lukasz Chrobok; Michal Wojcik; Jasmin Daniela Klich; Kamil Pradel; Marian Henryk Lewandowski; Hugh David Piggins Journal: Front Physiol Date: 2021-03-02 Impact factor: 4.566