T.G. Barnett scite author profile

T.G. Barnett

4Publications

38Citation Statements Received

0Citation Statements Given

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Queen Mary University of London, Royal London Hospital

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Prolonged ambulatory canine colonic motility

Pilot

Barnett

Williams

1995

American Journal of Physiology-Gastrointestinal and Liver Physi

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Canine gastrointestinal motility is studied at present in animals confined to a small cage or sling. The aims of this study were to record colonic activity over a 24-h period in eight dogs by an ambulatory method. Motility signals from implanted strain gauges were processed and stored via a portable battery-operated amplifier and digital recorder housed in a jacket. Ambulant interdigestive activity was the same as observed in laboratory experiments, with migrating colonic motor complexes (CMCs) and infrequent giant contractions (GCs). Feeding caused a multiphasic alteration in motility for 582.1 +/- 18.1 min (mean +/- SE). There were four distinct phases. During the "early" (0-2 h) postprandial period, phase 1 (mean duration: 55.1 +/- 4.0 min), which was distinguished by CMCs of high frequency and elevated amplitude in the proximal colon, and phase 2 (78.2 +/- 6.2 min), which had CMC characteristics similar to those in the interdigestive period, occurred. Phase 3 (218.8 +/- 13.6 min), a further period of increased motility, and phase 4 (339.1 +/- 14.0 min), characterized by low-amplitude long-duration CMCs, occurred during the "late" (2 h onward) postprandial response. With the exception of phase 3, postprandial phases were not always present following food intake, and their expression was markedly influenced by variations in meal time and by defecation immediately following feeding. Spontaneous defecation was characterized by a variety of motor profiles, with a GC accompanying two-thirds of episodes. We conclude that a more complete picture of canine colonic motility has been documented because of the development of the ambulatory system.

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Basic instrumentation for fast cyclic voltammetry

Millar

Barnett

1988

Journal of Neuroscience Methods

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A low-noise optically isolated preamplifier for use with extracellular microelectrodes

Millar

Barnett

1994

Journal of Neuroscience Methods

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Automated high-speed analysis of gastrointestinal myoelectric activity

et al. 1977

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The value of myoelectric recording in the gastrointestinal tract has been limited by the difficulty of analyzing the prolonged recordings which are required to demonstrate integrated physiological activity. This problem has been solved by the use of a tape recording system with accelerated replay, originally developed for cardiac monitoring. Rapid replay not only reduces the time required for data retrieval but also increases the frequency of the recorded signals to allow electronic separation of fast and slow wave activity for on-line conversion into digital pulses suitable for computer analysis. The technique is illustrated by the analysis of an imperfect prolonged multichannel recording of cannine gastrointestinal myoelectric activity, demonstrating some of the possibilities for data analysis and error detection inherent in the system.

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T.G. Barnett

Prolonged ambulatory canine colonic motility

Basic instrumentation for fast cyclic voltammetry

A low-noise optically isolated preamplifier for use with extracellular microelectrodes

Automated high-speed analysis of gastrointestinal myoelectric activity

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