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Topic:Electroencephalography
Electroencephalography (EEG) in horses is a non-invasive technique used to measure electrical activity in the brain. This method involves placing electrodes on the scalp to detect neural oscillations, providing insights into brain function and neurological health. EEG is utilized in equine research to study brain activity during various states such as sleep, anesthesia, and seizure disorders. It can also aid in understanding behavioral responses and cognitive processes in horses. This page compiles peer-reviewed research studies and scholarly articles that explore the application, methodology, and implications of electroencephalography in equine neurological assessments.
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 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,...
Effects of xylazine and ketamine hydrochloride on the electroencephalogram and the electrocardiogram in the horse. A continuous series of electroencephalograms (EEG) was obtained from each of 6 mature horses which had been given xylazine and ketamine hydrochloride IV. Electrocardiograms and respiratory rates were also obtained. The EEG of the unsedated standing adult horse displayed a dominant fast activity in the range of 25-35 Hz, 5-30 microV superimposed over slower 1-4 Hz, 10-50 microV activity with occasional 10-14 Hz, 10-40 microV spindle-type activity. The xylazine-sedated horse displayed hypersynchronous EEG patterns, with the dominant activity being 1-3 Hz, 10-70 microV with overlying mixed freque...
Sleep and wakefulness in the housed pony under different dietary conditions. For several weeks, three ponies kept in an environment with controlled light and temperature, were studied for behaviour (time spent in recumbency and time required to consume hay or oats) and for electrical activity of the brain (cortical and sub-cortical) during the night phase of the circadian rhythm. Recumbency was adopted by all the ponies for six or seven periods during the night. With a regimen of hay ad libitum, about four hours were cumulated in sternal recumbency and only one hour in complete lateral recumbency. Various degree of sleep, as identified by cortical and hippocampal elect...
