Voigt Anne M, Bergfeld Carina, Beyerbach Martin, Kästner Sabine B R
Small Animal Clinic, University of Veterinary Medicine Hannover, Foundation, Bünteweg 9, D-30559 Hannover, Germany.
Am J Vet Res. 2013 May;74(5):665-71. doi: 10.2460/ajvr.74.5.665.
To evaluate the influence of 3 anesthetic protocols and multiples of minimum alveolar concentration (MAC) on heart rate variability (HRV) with and without nociceptive stimulation in dogs.
6 healthy adult Beagles.
Each dog was anesthetized 3 times: with isoflurane alone, with isoflurane and a constant rate infusion of dexmedetomidine (IsoD; 3 μg/kg/h, IV), and with isoflurane and a constant rate infusion of remifentanil (IsoR; 18 μg/kg/h, IV). Individual MAC was determined via supramaximal electrical stimulation. Sinus rhythm-derived intervals between 2 adjacent R-R intervals were exported from ECG recordings. Selected HRV time and frequency domain variables were obtained (at 2-minute intervals) and analyzed offline with signed rank tests before and after stimulation at 0.75, 1.0, and 1. 5 MAC for each anesthetic session.
The isoflurane session had the overall lowest prestimulation SDNN (SD of all R-R intervals) values. Prestimulation SDNN values decreased significantly with increasing MAC in all sessions. For the IsoD session, SDNN (milliseconds) or high-frequency power (milliseconds(2)) was inversely correlated with MAC (Spearman rank correlation coefficient for both variables, -0.77). In the isoflurane and IsoR sessions, heart rate increased significantly after stimulation. In the IsoD session, poststimulation SDNN was increased significantly, compared with prestimulation values, at 0.75 and 1.0 MAC.
On the basis of SDNN and high-frequency power values, anesthetic levels between 0.75 and 1.5 MAC within the same anesthetic protocol could be differentiated, but with a large overlap among protocols. Usefulness of standard HRV variables for assessment of anesthetic depth and nociception in dogs is questionable.
评估3种麻醉方案及最低肺泡浓度(MAC)倍数对犬在有无伤害性刺激情况下心率变异性(HRV)的影响。
6只健康成年比格犬。
每只犬接受3次麻醉:单独使用异氟烷、异氟烷与持续静脉输注右美托咪定(IsoD;3μg/kg/h)、异氟烷与持续静脉输注瑞芬太尼(IsoR;18μg/kg/h)。通过超强电刺激确定个体MAC。从心电图记录中导出相邻两个R - R间期之间源自窦性心律的间期。获取选定的HRV时域和频域变量(每隔2分钟),并在每次麻醉过程中于0.75、1.0和1.5 MAC刺激前后使用符号秩检验进行离线分析。
异氟烷麻醉阶段刺激前的总体标准差(SDNN,所有R - R间期的标准差)值最低。在所有麻醉阶段,刺激前的SDNN值均随MAC增加而显著降低。对于IsoD麻醉阶段,SDNN(毫秒)或高频功率(毫秒²)与MAC呈负相关(两个变量的Spearman等级相关系数均为 - 0.77)。在异氟烷和IsoR麻醉阶段,刺激后心率显著增加。在IsoD麻醉阶段,与刺激前值相比,在0.75和1.0 MAC时刺激后的SDNN显著增加。
基于SDNN和高频功率值,在同一麻醉方案中可区分0.75至1.5 MAC之间的麻醉水平,但不同方案之间存在较大重叠。标准HRV变量用于评估犬麻醉深度和伤害感受的有效性值得怀疑。
