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Using skin temperature to check nerve block success in dogs

By Casas-Alvarado, Alejandro et al.Ā·Published in Frontiers in veterinary scienceĀ·2025Ā·Programa de Doctorado en Ciencias de la Vida y del Medio Natural, SpainĀ·View original on PubMed →

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Original publication title: Evaluation of the surface thermal response of peripheral nerve blocks in dogs undergoing trauma or orthopedic surgery.

Species:
dog
Movement & jointsDogs

Plain-English summary

A group of 26 dogs undergoing surgery for trauma or orthopedic issues received either a peripheral nerve block with bupivacaine or standard injectable pain relief. The dogs that received the nerve block showed higher temperatures in the treated areas, indicating that the block was effective in managing pain. In contrast, the control group experienced a greater drop in temperature over time. This suggests that using nerve blocks can be a beneficial method for pain management during surgery, and infrared thermography may help vets assess how well these blocks are working.

People also search for: dog surgery pain management Ā· peripheral nerve block for dogs Ā· bupivacaine in dogs

Abstract

INTRODUCTION: Locoregional anesthesia using local anesthetics has been proposed as a highly selective method for perioperative acute pain management because it helps prevent the onset of noxious stimuli. However, a limitation of this technique is the possibility of nerve block failure. Infrared thermography (IRT) has been suggested as a non-invasive tool to assess the success of peripheral nerve blocks by detecting temperature changes related to vasodilation. This study aimed to evaluate the effect of peripheral nerve blocks on the superficial thermal response of limbs in dogs undergoing trauma or orthopedic surgery. METHODS: A total of 26 dogs of various breeds, classified as ASA 1 or 2 and undergoing thoracic or pelvic limb, or abdominal surgery, were divided into two groups based on the analgesic technique used. In the experimental group [peripheral nerve block (PNB)= 20], composed of animals undergoing trauma or orthopedic surgery, bupivacaine was infiltrated into the brachial plexus or the saphenous and sciatic nerves. The control group (= 6) underwent general anesthesia and surgery, and they received conventional injectable analgesia. The variables assessed included maximum (T), mean (T), and minimum (T) temperatures of the axillary region, groin, and lateral femoral area, as well as rectal temperature (T°C). Measurements were taken at baseline (T), and 5 (T), 10 (T), and 15 min (T) after treatment. RESULTS: T, T, and Twere significantly higher in the PNB group (by 2-3 °C) compared to the control group (= 0.01). In the PNB group, superficial temperatures decreased by approximately 1 °C from baseline (= 0.001), whereas the control group exhibited a greater decrease of approximately 3 °C at the same time points (= 0.001). Rectal temperature was 2 °C higher in the PNB group compared to the control group (= 0.01), although only the control group showed a progressive decrease over time (= 0.05). No significant correlation was found between surface and rectal temperatures. DISCUSSION: Peripheral nerve blocks with bupivacaine induced localized vasodilation, resulting in increased superficial heat radiation. This thermal response may serve as an indirect indicator complementary of nerve block effectiveness, supporting the use of IRT as a clinical tool to evaluate peripheral nerve block success in dogs. Further studies are recommended to confirm and validate its clinical application.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/41409471/