Veerasamy Sugashini, Kumar Lakshmi, Kartha Anandajith, Rajan Sunil, Kumar Niranjan, Purushottaman Shyam S
Department of Anaesthesiology and Critical Care, Amrita Institute of Medical Sciences, Amrita Vishwa Vidyapeetham, Kochi, Kerala, India.
Indian J Anaesth. 2022 Aug;66(Suppl 5):S243-S249. doi: 10.4103/ija.ija_902_21. Epub 2022 Aug 12.
Robotic surgery is increasingly prevalent as an advancement in care. Steep head-down positions in pelvic surgery can increase the ventilation-perfusion mismatch and increase ventilatory requirements to offset carbon dioxide (CO) increases consequent to pneumoperitoneum. The primary objective was to assess the impact of two ventilatory strategies, volume versus pressure-controlled ventilation on the arterial to end-tidal carbon dioxide gradient P (a-ET)CO in patients undergoing robotic surgery in the Trendelenburg position. The effects on alveolar to arterial oxygen gradient P (A-a)O, peak airway pressure (P) dynamic compliance (C) and haemodynamics were also assessed.
Fifty-one patients, 18-75 y, American Society of Anesthesiologists I-III undergoing robotic surgery in Trendelenburg position were randomised to volume-controlled ventilation (Group VCV) or pressure-controlled ventilation (Group PCV). The P (a-ET)CO was measured at baseline T0, 10 min after Trendelenburg position T1, 2 h of surgery T2, 4 h T3 and at T 10 min after deflation. The P (A-a) O, P, C, heart rate and blood pressure were also measured at the same time.
The P (a-ET)CO at T1, T2, T3 and at T was lower in Group PCV versus Group VCV. The P was lower at T1, T2, and T3 and C higher at T3 and Te in Group PCV at comparable minute ventilation. Haemodynamics and P (A-a)O were comparable between the groups.
Pressure-controlled ventilation reduces P (a-ET)CO gradient, P and improves C but does not affect P (A-a) O or haemodynamics in comparison to volume-controlled ventilation in robotic surgeries in the Trendelenburg position.
作为一种护理进展,机器人手术越来越普遍。盆腔手术中采用极度头低脚高位会增加通气-灌注不匹配,并增加通气需求以抵消气腹导致的二氧化碳(CO)增加。主要目的是评估两种通气策略,即容量控制通气与压力控制通气,对处于头低脚高位接受机器人手术患者的动脉血与呼气末二氧化碳分压差P(a-ET)CO的影响。还评估了对肺泡-动脉氧分压差P(A-a)O、气道峰压(P)、动态顺应性(C)和血流动力学的影响。
51例年龄在18 - 75岁、美国麻醉医师协会分级为I - III级、处于头低脚高位接受机器人手术的患者被随机分为容量控制通气组(VCV组)或压力控制通气组(PCV组)。在基线T0、头低脚高位后10分钟T1、手术2小时T2、4小时T3以及放气后10分钟T4测量P(a-ET)CO。同时还测量P(A-a)O、P、C、心率和血压。
与VCV组相比,PCV组在T1、T2、T3和T4时的P(a-ET)CO较低。在分钟通气量相当的情况下,PCV组在T1、T2和T3时的P较低,在T3和T4时的C较高。两组之间的血流动力学和P(A-a)O相当。
与处于头低脚高位的机器人手术中的容量控制通气相比,压力控制通气可降低P(a-ET)CO梯度、P并改善C,但不影响P(A-a)O或血流动力学。