Trein Thomas A, Floriano Beatriz P, Wagatsuma Juliana T, Ferreira Joana Z, da Silva Guilherme L, Dos Santos Paulo S P, Perri Sílvia H V, Oliva Valéria Nls
Department of Animal Clinic, Surgery and Reproduction, Faculty of Veterinary Medicine of Araçatuba (FMVA), São Paulo State University (UNESP), Araçatuba, Brazil.
Department of Animal Clinic, Surgery and Reproduction, Faculty of Veterinary Medicine of Araçatuba (FMVA), São Paulo State University (UNESP), Araçatuba, Brazil.
Vet Anaesth Analg. 2017 Jan;44(1):144-153. doi: 10.1111/vaa.12399. Epub 2017 Feb 22.
To evaluate motor and sensory blockade of combining dexmedetomidine with ropivacaine, administered perineurally or systemically, for femoral and sciatic nerve blocks in conscious dogs.
Randomized, controlled, experimental study.
Seven healthy Beagle dogs, aged 3.3 ± 0.1 years and weighing 11.0 ± 2.4 kg.
Dogs were anesthetized with isoflurane on three separate occasions for unilateral femoral and sciatic nerve blocks and were administered the following treatments in random order: perineural ropivacaine 0.75% (0.1 mL kg) on each nerve and intramuscular (IM) saline (0.2 mL kg) (G); perineural dexmedetomidine (1 μg mL) and ropivacaine 0.75% (0.1 mL kg) on each nerve and IM saline (0.2 mL kg) (G); and perineural ropivacaine 0.75% (0.1 mL kg) on each nerve and IM dexmedetomidine (1 μg mL, 0.2 mL kg) (G). Nerve blocks were guided by ultrasound and electrical stimulation and dogs were allowed to recover from general anesthesia. Sensory blockade was evaluated by response to clamp pressure on the skin innervated by the saphenous/ femoral, common fibular and tibial nerves. Motor blockade was evaluated by observing the ability to walk and proprioception. Sensory and motor blockade were evaluated until their full recovery.
No significant differences in onset time to motor and sensory blockade were observed among treatments. Duration of motor blockade was not significantly different among treatments; however, duration of tibial sensory blockade was longer in the G than in the G treatment.
Although a longer duration of sensory blockade was observed with perineural dexmedetomidine, a significant increase compared with the control group was not established. Other concentrations should be investigated to verify if dexmedetomidine is a useful adjuvant to local anesthetics in peripheral nerve blocks in dogs.
评估右美托咪定与罗哌卡因联合应用于清醒犬股神经和坐骨神经阻滞时经神经或全身给药的运动和感觉阻滞效果。
随机对照实验研究。
7只健康比格犬,年龄3.3±0.1岁,体重11.0±2.4千克。
犬在3个不同时间用异氟烷麻醉以进行单侧股神经和坐骨神经阻滞,并按随机顺序接受以下治疗:每条神经给予0.75%罗哌卡因(0.1毫升/千克)经神经给药和肌肉注射(IM)生理盐水(0.2毫升/千克)(G组);每条神经给予右美托咪定(1微克/毫升)和0.75%罗哌卡因(0.1毫升/千克)经神经给药和IM生理盐水(0.2毫升/千克)(G组);每条神经给予0.75%罗哌卡因(0.1毫升/千克)经神经给药和IM右美托咪定(1微克/毫升,0.2毫升/千克)(G组)。神经阻滞在超声和电刺激引导下进行,犬从全身麻醉中恢复。通过对隐神经/股神经、腓总神经和胫神经支配皮肤的夹压反应评估感觉阻滞。通过观察行走能力和本体感觉评估运动阻滞。评估感觉和运动阻滞直至完全恢复。
各治疗组在运动和感觉阻滞的起效时间上未观察到显著差异。各治疗组运动阻滞持续时间无显著差异;然而,G组胫神经感觉阻滞持续时间比G组更长。
虽然经神经给予右美托咪定观察到感觉阻滞持续时间更长,但与对照组相比未发现显著增加。应研究其他浓度以验证右美托咪定是否为犬外周神经阻滞中局部麻醉药的有用佐剂。
