AI Article Synopsis
- The study aimed to create a method for examining the central motor tract's neurophysiological integrity in awake rats using motor evoked potentials and evaluating the impact of various anesthetics.
- Rats had electrodes implanted, and researchers stimulated nerves to measure motor evoked potentials over three weeks, testing three different anesthetics at varying doses.
- Findings showed that while all anesthetics affected the motor evoked potentials, propofol had the least impact, suggesting this new method could allow for long-term monitoring of motor function in studies of diseases without anesthesia interference.*
Article Abstract
The goal of this investigation was to develop a method to study the neurophysiological integrity of the central motor tract using motor evoked potentials in the awake rat and assess the effects of different anesthetics in this model. Rats were implanted with six subcutaneous electrodes (pediatric myocardial pacing leads) and one cranial screw. Motor evoked potentials of the hind limb were elicited after cranial and sciatic nerve stimulation. Experiments were repeated on different days during three weeks studying the effect of three different anesthetics (propofol, ketamine/xylazine, pentobarbital) at three different doses. Stimulation of motor evoked potentials in the awake rat was well tolerated with no effects on behavior. The electrodes could be kept chronically in place without signs of infection. The repeated recordings on different days showed high reproducibility after the fourth day following implantation of the electrodes. All three anesthetics induced an increase in the latency and a decrease in the amplitude of the motor evoked potentials which were dose dependent. Propofol (up to 1 mg/kg x min(1)) affected motor evoked potentials to a lesser extent than the other anesthetics. Based upon these findings, we believe that our approach provides a new method of chronically implanting electrodes in the rat to assess the neurophysiological function of the motor tract without the need of anesthetics. This model may prove useful in the investigation of various diseases that affect the motor pathways without the confounding effects of anesthesia.
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| http://dx.doi.org/10.1089/neu.2007.0393 | DOI Listing |
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