Electroencephalographic patterns of clinically normal, sedated, and tranquilized newborn foals and adult horses

To establish a clinically practical procedure for recording the equine EEG, 25 healthy adult horses and 6 newborn foals were used. Recordings were taken with the animals alert and tranquilized, confined in metal stocks, or physically restrained. The dominant alert waveforms of adult horses were fast...

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Bibliographic Details
Published inAmerican journal of veterinary research Vol. 46; no. 1; p. 36
Main Authors Mysinger, P.W, Redding, R.W, Vaughan, J.T, Purohit, R.C, Holladay, J.A
Format Journal Article
LanguageEnglish
Published United States 01.01.1985
Subjects
Acepromazine - pharmacology
Age Factors
ANAESTHETICS
ANESTESICOS
ANESTHESIQUE
Animals
Animals, Newborn
Brain - drug effects
Brain - physiology
CABALLOS
CHEVAL
ELECTROENCEPHALOGRAMS
ELECTROENCEPHALOGRAPHY
Electroencephalography - veterinary
Female
FOALS
HORSES
Horses - physiology
Male
NEONATES
NEUROLEPTICOS
NEUROLEPTICS
NEUROLEPTIQUE
POTRO
POULAIN
Restraint, Physical - veterinary
Thiazines - pharmacology
Xylazine - pharmacology
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Summary:To establish a clinically practical procedure for recording the equine EEG, 25 healthy adult horses and 6 newborn foals were used. Recordings were taken with the animals alert and tranquilized, confined in metal stocks, or physically restrained. The dominant alert waveforms of adult horses were fast activity (25 to 40 Hz) with medium-to-low voltages (5 to 40 microV-dominant 10 to 15 microV). Underlying this fast activity was slower (0.5 to 4.0 Hz) activity with medium-to-low voltages (10 to 40 microV). Twelve of the 25 adult horses had EEG frequencies in the alpha frequency range (10 to 15 Hz, 10 to 50 microV). Eight horses were given xylazine and 17 were given acetylpromazine. Those given xylazine had generalized slowing with several distinct frequency patterns (25 to 40 Hz, 5 to 30 microV; 10 to 15 Hz, 10 to 80 microV; and 0.5 to 4.0 Hz, 10 to 90 microV). Horses given acetylpromazine had fast activity (25 to 40 Hz) with medium-to-low voltages (5 to 40 microV). Underlying this activity were slower waveforms (1 to 4 Hz) with medium-to-low voltages (5 to 10 microV). Occasional well-formed spindle activity was observed (10 to 14 Hz, 10 to 50 microV). Acetylpromazine had little effect on the EEG recording, whereas xylazine exerted a substantial effect. All leads were synchronous with lower voltages in the left frontal, right frontal, and transfrontal leads. The alert pattern of a newborn foal was characterized by low frequency (2 to 6 Hz) with medium-to-high voltages (20 to 90 microV).
Bibliography:L70
8602579
L50
ISSN:0002-9645
1943-5681