Repeated, High-dose Fentanyl Administration in Rats Reveals Minimal Tolerance to Unconsciousness, Bradycardia, Muscle Rigidity and Respiratory Depression.

IF 9.1 1区医学 Q1 ANESTHESIOLOGY Anesthesiology Pub Date : 2024-12-19 DOI:10.1097/ALN.0000000000005324

David P Obert, Gwi H Park, Kaitlyn Strong, David Schreier, Elizabeth Korn, Carla Troyas, Kathleen F Vincent, Ken Solt

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Abstract

Background: Fentanyl is a synthetic opioid that is widely used in anesthesiology, but its illicit use is rapidly increasing. At high doses fentanyl induces unconsciousness and muscle rigidity, the mechanisms of which are poorly understood. Since animal models are needed to study these effects, the aim of this study was to establish a rat model of fentanyl abuse and investigate the effects of repeated high-dose fentanyl injections on loss of righting reflex, heart rate, respiratory depression, muscle, and brain activity.

Methods: Male and female Sprague-Dawley rats were studied (n=40). A bolus of 100µg/kg fentanyl was administered intravenously twice a week for five consecutive weeks. Time to return of righting reflex (RORR) after fentanyl injection and changes in EMG/EEG activity as well as heart rate were analyzed. Additionally, arterial blood gas analysis for evaluation of ventilation was performed. Mixed-effect models with Dunnet's test and effect sizes were used for statistical analysis.

Results: Repeated injections resulted in a U-shaped change in time to RORR with the longest latency after the first exposure (median: 50[1st-3rd quartile:36-56]min) and the shortest after the fifth exposure (16[13-33]min). Following fentanyl administration, heart rate dropped immediately by 225[95%CI: 179, 271]bpm (F=3952.16, p<.001), while EMG activity increased by 291[95%CI: 212, 370]% (F=27.51, p<0.001) and PaCO2 inclined by 49.4[95%CI: 40.6, 58.2]mmHg (F=75.97, p<0.001) within 5 minutes after injection. Additionally, pH decreased by 0.48[95%CI: 0.41, 0.54] (F=142.00, p<0.01), and PaO2 decreased by 50.4[40.8, 60.0]mmHg (F=57.90, p<0.001). Repeated fentanyl exposures did not significantly affect the extent of these changes (EMG: F=1.63, p=0.237; PaCO2: F=1.23, p=0.312; HR: F=1.05, p=0.400; pH: F=3.05, p=0.066; pO2: F=3.35, p=0.052). EEG analysis revealed that repeated fentanyl exposures elicited significantly higher absolute power in frequencies >20Hz as indicated by an area under the receiver operator characteristics curve >0.7.

Conclusion: We established a rodent model of repeated, high-dose fentanyl administration. Overall, significant evidence of tolerance was not observed after ten exposures of high-dose fentanyl for any of the analyzed parameters. These results suggest that tolerance does not develop for fentanyl-induced unconsciousness, muscle rigidity, or respiratory depression.

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在大鼠体内重复施用大剂量芬太尼会导致其对昏迷、心动过缓、肌肉僵硬和呼吸抑制的耐受性极低。

背景：芬太尼是一种合成阿片类药物，广泛用于麻醉学，但其非法使用正在迅速增加。高剂量芬太尼可诱导昏迷和肌肉僵硬，其作用机制尚不清楚。由于需要动物模型来研究这些影响，本研究的目的是建立一个滥用芬太尼的大鼠模型，并研究反复注射高剂量芬太尼对右侧反射丧失、心率、呼吸抑制、肌肉和大脑活动的影响：研究对象为雄性和雌性 Sprague-Dawley 大鼠（n=40）。连续五周每周两次静脉注射 100µg/kg 芬太尼。分析了注射芬太尼后右侧反射恢复（RORR）的时间、EMG/EEG 活动和心率的变化。此外，还进行了动脉血气分析以评估通气情况。统计分析采用了带有邓尼特检验和效应大小的混合效应模型：重复注射导致 RORR 时间呈 U 型变化，第一次暴露后的潜伏期最长（中位数：50[第 1-3 四分位数：36-56]分钟），第五次暴露后的潜伏期最短（16[13-33]分钟）。给药芬太尼后，心率立即下降了225[95%CI：179，271]bpm（F=3952.16，p20Hz，接收者运算特征曲线下面积大于0.7）：我们建立了一个重复给药高剂量芬太尼的啮齿动物模型。总体而言，在对任何分析参数进行十次大剂量芬太尼暴露后，均未观察到明显的耐受证据。这些结果表明，对芬太尼诱导的昏迷、肌肉僵硬或呼吸抑制不会产生耐受性。

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来源期刊

Anesthesiology 医学-麻醉学

CiteScore

10.40

自引率

5.70%

发文量

542

审稿时长

3-6 weeks

期刊介绍： With its establishment in 1940, Anesthesiology has emerged as a prominent leader in the field of anesthesiology, encompassing perioperative, critical care, and pain medicine. As the esteemed journal of the American Society of Anesthesiologists, Anesthesiology operates independently with full editorial freedom. Its distinguished Editorial Board, comprising renowned professionals from across the globe, drives the advancement of the specialty by presenting innovative research through immediate open access to select articles and granting free access to all published articles after a six-month period. Furthermore, Anesthesiology actively promotes groundbreaking studies through an influential press release program. The journal's unwavering commitment lies in the dissemination of exemplary work that enhances clinical practice and revolutionizes the practice of medicine within our discipline.