Anaesthesiology, Pôle Equin, VetAgro Sup, Lyon University , Marcy L´Etoile , France.
Anaesthesiology, Pôle Equin, VetAgro Sup, Lyon University , Marcy L´Etoile , France ; CarMeN Laboratory, INSERM UMR-1060, University of Lyon , Lyon , France.
Front Vet Sci. 2015 Nov 23;2:58. doi: 10.3389/fvets.2015.00058. eCollection 2015.
This prospective blinded randomized study aimed to determine whether the timing of morphine and phenylbutazone administration affects the breathing response to skin incision, recovery quality, behavior, and cardiorespiratory variables in horses undergoing fetlock arthroscopy. Ten Standardbred horses were premedicated with acepromazine (0.04 mg kg(-1) IM) and romifidine (0.04 mg kg(-1) IV). Anesthesia was induced with diazepam (0.05 mg kg(-1)) and ketamine (2.2 mg kg(-1)) IV at T0. Horses in group PRE (n = 5) received morphine (0.1 mg kg(-1)) and phenylbutazone (2.2 mg kg(-1)) IV after induction and an equivalent amount of saline after surgery. Horses in group POST (n = 5) received the inversed treatment. Anesthesia was maintained with isoflurane 2% in 100% oxygen. Hypotension (mean arterial pressure <60 mmHg) was treated with dobutamine. All horses breathed spontaneously. Dobutamine requirements, respiratory rate (f R), heart rate (HR), mean arterial blood pressure, end-tidal CO2, inspired (i) and expired (e) tidal and minute volume (V T and [Formula: see text]), inspiratory time (IT), and the inspiratory gas flow (V Ti/IT) were measured every 5 min. Data were averaged during four 15 min periods before (P1 and P2) and after the incision (P3 and P4). Serial blood-gas analyses were also performed. Recoveries were unassisted, video recorded, and scored by three anesthetists blinded to the treatment. The postoperative behavior of the horses (25 demeanors), HR, and f R were recorded at three time points before induction (T0-24 h, T0-12 h, and T0-2 h) and six time points after recovery (TR) (TR + 2, 4, 6, 12, 24, 48 h). Data were compared between groups using a Wilcoxon test and within groups using a Friedman test or a Kruskal-Wallis signed-rank test when applicable. Tidal volumes (V Te and V Ti) were higher in PRE than in POST during all the considered periods but the difference between groups was only significant during P2 (V Te in mL kg(-1) in PRE: 13 [9, 15], in POST: 9 [8, 9], p = 0.01). None of the other variables were significantly different between and within groups. Under our experimental conditions, skin incision did not affect respiratory variables. Administration of pre- versus postoperative phenylbutazone and morphine did not influence recovery quality, HR, f R, or animal behavior.
本前瞻性、双盲、随机研究旨在确定吗啡和苯丁唑酮给药时间是否会影响行跗关节内窥镜检查的马对皮肤切开的呼吸反应、恢复质量、行为以及心肺变量。10 匹赛驹接受了乙酰丙嗪(0.04mg/kg,肌内注射)和罗米非定(0.04mg/kg,静脉注射)的预给药。在 T0 时,使用地西泮(0.05mg/kg)和氯胺酮(2.2mg/kg)静脉注射诱导麻醉。组 PRE(n=5)中的马在诱导后接受吗啡(0.1mg/kg)和苯丁唑酮(2.2mg/kg)静脉注射,手术后接受等量生理盐水。组 POST(n=5)中的马接受相反的治疗。使用 100%氧气中的 2%异氟醚维持麻醉。低血压(平均动脉压 <60mmHg)用多巴酚丁胺治疗。所有马均自主呼吸。每 5min 测量一次多巴酚丁胺需求、呼吸频率(fR)、心率(HR)、平均动脉压、呼气末 CO2、吸入(i)和呼出(e)潮气量和分钟通气量(VT 和[Formula: see text])、吸气时间(IT)和吸气气流(VT i/IT)。在切口前(P1 和 P2)和切口后(P3 和 P4)四个 15min 期间进行数据平均。还进行了连续血气分析。马匹的恢复情况未经协助,由三位麻醉师进行视频记录和评分,他们对治疗情况不知情。马匹的术后行为(25 种行为)、HR 和 fR 在诱导前三个时间点(T0-24h、T0-12h 和 T0-2h)和恢复后六个时间点(TR)(TR+2、4、6、12、24 和 48h)进行记录。使用 Wilcoxon 检验比较组间数据,使用 Friedman 检验或 Kruskal-Wallis 秩和检验在适用时比较组内数据。在所有考虑的时间段内,PRE 组的潮气量(VT e和 VT i)均高于 POST 组,但组间差异仅在 P2 时具有统计学意义(PRE 组每千克潮气量在毫升:13[9,15],POST 组:9[8,9],p=0.01)。组间和组内的其他变量均无显著差异。在我们的实验条件下,皮肤切开不会影响呼吸变量。与术后相比,术前给予苯丁唑酮和吗啡并未影响恢复质量、HR、fR 或动物行为。
