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Construction of a very high-density extracellular electrode array.

Publication ,  Journal Article
Malkin, RA; Pendley, BD
Published in: American journal of physiology. Heart and circulatory physiology
July 2000

Cellular activation mapping (specifying in time and space the electrical activation sequence of cells) is a well-established basic research tool in cardiac, neural, and gastric physiology. Much recent research in cardiac mapping has focused on large arrays (>200 electrodes) with small electrodes (<500 microm). Construction of such arrays using standard techniques is tedious and yields irregular electrode spacing. We present a novel construction technique that rapidly produces large arrays with regularly spaced small electrodes. For methods, fine-pitch copper ribbon cables, insulated with either polyvinylchloride (PVC) or polyimide (flexible printed circuit; FPC), were assembled together such that the active surface was the cut end of the cable. The cut end was sanded and polished, then coated with silver and sometimes silver chloride. Once completed, the alternating current (AC) root-mean-square (rms) potential was measured between two adjacent, individual electrodes. Polarization testing was conducted according to a previously reported protocol (Witkowski FX and Penkoske PA. J Electrocardiol 21: 273-282, 1988). Activation mapping was conducted in the open-chest guinea pig with both pacing- and defibrillation- strength stimuli. In terms of results, four PVC and three FPC arrays were constructed, ranging from 4 to 400 electrodes. Two hours of labor were needed to create a complete electrode array, independent of the number of electrodes, including connectors and silver/silver chloride coating. As expected, the addition of a silver/silver chloride coating significantly reduced (0.76-0.42 mV, P < 0.001) the AC rms potential difference between two electrodes. A nearly immediate recovery of the potential difference between adjacent pairs of silver/silver chloride electrodes was observed after defibrillation stimuli.

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Published In

American journal of physiology. Heart and circulatory physiology

DOI

EISSN

1522-1539

ISSN

0363-6135

Publication Date

July 2000

Volume

279

Issue

1

Start / End Page

H437 / H442

Related Subject Headings

  • Pacemaker, Artificial
  • Microelectrodes
  • Male
  • Guinea Pigs
  • Equipment Design
  • Electrophysiology
  • Electric Countershock
  • Cardiovascular System & Hematology
  • Animals
  • 3208 Medical physiology
 

Citation

APA
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ICMJE
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Malkin, R. A., & Pendley, B. D. (2000). Construction of a very high-density extracellular electrode array. American Journal of Physiology. Heart and Circulatory Physiology, 279(1), H437–H442. https://doi.org/10.1152/ajpheart.2000.279.1.h437
Malkin, R. A., and B. D. Pendley. “Construction of a very high-density extracellular electrode array.American Journal of Physiology. Heart and Circulatory Physiology 279, no. 1 (July 2000): H437–42. https://doi.org/10.1152/ajpheart.2000.279.1.h437.
Malkin RA, Pendley BD. Construction of a very high-density extracellular electrode array. American journal of physiology Heart and circulatory physiology. 2000 Jul;279(1):H437–42.
Malkin, R. A., and B. D. Pendley. “Construction of a very high-density extracellular electrode array.American Journal of Physiology. Heart and Circulatory Physiology, vol. 279, no. 1, July 2000, pp. H437–42. Epmc, doi:10.1152/ajpheart.2000.279.1.h437.
Malkin RA, Pendley BD. Construction of a very high-density extracellular electrode array. American journal of physiology Heart and circulatory physiology. 2000 Jul;279(1):H437–H442.

Published In

American journal of physiology. Heart and circulatory physiology

DOI

EISSN

1522-1539

ISSN

0363-6135

Publication Date

July 2000

Volume

279

Issue

1

Start / End Page

H437 / H442

Related Subject Headings

  • Pacemaker, Artificial
  • Microelectrodes
  • Male
  • Guinea Pigs
  • Equipment Design
  • Electrophysiology
  • Electric Countershock
  • Cardiovascular System & Hematology
  • Animals
  • 3208 Medical physiology