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Peer-reviewed veterinary case report

How sedation affects knee and limb reflex tests in healthy dogs

By Horsley, Kristen T et al.·Published in Frontiers in veterinary science·2021·Department of Veterinary Clinical Sciences, United States·View original on PubMed

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Original publication title: Effect of Sedation on the Neurological Examination of the Patellar and Withdrawal Reflexes in Healthy Dogs.

Species:
dog
Movement & jointsDogs

Plain-English summary

A study looked at how sedation affects the patellar reflex (knee jerk) and withdrawal reflexes in healthy dogs. Fourteen dogs were tested while awake and then again after being sedated with a combination of medications. The results showed that sedation made it easier to see the patellar reflex, with significant changes in the angle and timing of the reflex response. However, sedation did not change the withdrawal reflexes in the dogs. This means that while sedation can help with assessing the patellar reflex, it doesn't impact the withdrawal reflexes in healthy dogs.

People also search for: dog knee jerk reflex test · sedation effects on dog reflexes · how does sedation affect dog exams

Abstract

Pain, temperament, fear, and anxiety can prevent safe and accurate evaluation of common neurologic reflexes in dogs. When sedation is used it is unknown how the neurological examination, and specifically patellar and withdrawal reflexes are affected, and, if present, how long any effect might last. The purpose of this study is to investigate the effect of sedation on the evaluation of select common limb spinal reflexes in healthy dogs.Fourteen healthy dogs with normal neurologic exams were included. After placing joint landmarks, patellar reflex and pelvic and thoracic limb withdrawal reflexes were tested. Joint angles were measured, obtaining reflex angle endpoints, change in angle, and change in time to reflex completion. These measurements were recorded at different time points: prior to sedation (awake timepoint), 15 and 30 min following administration of standardized sedation protocol of dexmedetomidine and butorphanol, and 15 and 30 min following administration of a standardized reversal agent, atipamazole.For patellar reflex, the stifle end angle increased from 91.5 to 108.55 degrees (< 0.0001) 15 min following sedation, and remained increased at 104.5 degrees (< 0.0001) 30 min following sedation. Stifle change in angle increased from 9.6 to 24.4 degrees (< 0.0001) 15 min following sedation, and remained increased at 20.85 degrees (< 0.0001) and 11 degrees (= 0.012) at 30 min sedation and 15 min reversal. Tarsal joint in pelvic withdrawal and elbow in thoracic withdrawal reflexes did not differ in at any timepoint of sedation or reversal when compared with the awake timepoint, for end angle or change in angle. The increases in end angle and change in angle for patellar reflex generated a change in time for patellar reflex from 0.12 s (awake) to 0.129 s (15 min sedation) which was statistically significant (= 0.041). Change in time did not differ for pelvic withdrawal or thoracic withdrawal.Reflexes were elicited in all dogs under sedation. Sedation does not affect the evaluation of the withdrawal reflex on any limb but improves the visualization of the patellar reflex in this group of neurologically normal dogs.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/34041291/