Durmaz Ayşegül, Arıkan Ali Ahmet, Bayram Hasan, Yavuz Şadan
Department of Cardiovascular Surgery, Kocaeli University Faculty of Medicine, Kocaeli, Türkiye.
Turk Gogus Kalp Damar Cerrahisi Derg. 2024 Dec 31;32(4 Suppl 2):106-107. doi: 10.5606/tgkdc.dergisi.2024.mep-11. eCollection 2024 Nov.
Reimplanting a traumatically amputated limb requires minimal ischemia duration with adequate perfusion at low temperatures. Cardiopulmonary bypass (CPB) techniques play a significant role in the limb salvage algorithm in reducing ischemia time, allowing planning, and preventing reperfusion injury. A 23-year-old female was admitted to the emergency department due to a traffic accident. The right arm at the shoulder and the left arm at the elbow were amputated. The patient was initially taken into surgery due to injuries to the liver and spleen. During this process, a CPB circuit was used to perfuse the amputated limb. The total cold ischemia time of the limbs was 90 min. The right arm's brachial and the left arm's radial arteries were used for arterial cannulation. A 10-Fr arterial cannula was placed in the left brachial artery. The right radial artery was cannulated with a 20-gauge branula and connected to the arterial cannula via a vascular line. The limbs were placed in a sterile container at an angle of 20°C. The venous flow was first accumulated and then returned to the CPB circuit using a sucker. Since the weights of the amputated limbs were unknown, appropriate cannula sizes and flow rates were determined using the rule of nine. The weight was calculated as 2 kg, and the surface area as 0.12 m . Tissues were perfused at 25°C for 224 min with a maximum flow rate of 288 mL/min. After CPB, replantation of both amputated limbs was performed by plastic surgery. The right arm was demarcated, and a secondary amputation was made on the 21 postoperative day. The left arm was consistent with positive findings in the motor and sensory examinations approximately six months later. Complex limb salvage procedures require a multidisciplinary approach. Cardiopulmonary bypass plays a critical role in the algorithm in prolonging the critical period of ischemia, facilitating replantation planning, and preventing reperfusion injury.
再植外伤性离断肢体需要在低温下尽量缩短缺血时间并保证充足灌注。体外循环(CPB)技术在肢体挽救方案中发挥着重要作用,可减少缺血时间、便于规划并预防再灌注损伤。一名23岁女性因交通事故被送往急诊科。其右臂在肩部、左臂在肘部被截肢。患者最初因肝脾损伤接受手术。在此过程中,使用CPB回路对离断肢体进行灌注。肢体的总冷缺血时间为90分钟。右臂的肱动脉和左臂的桡动脉用于动脉插管。一根10F动脉插管置于左肱动脉。右桡动脉用20号套管针插管,并通过血管管路与动脉插管相连。将肢体以20°C的角度置于无菌容器中。静脉血流先进行收集,然后用吸引器返回CPB回路。由于离断肢体的重量未知,根据九分法确定合适的插管尺寸和流速。计算出重量为2kg,表面积为0.12平方米。组织在25°C下灌注224分钟,最大流速为288mL/分钟。CPB后,由整形外科对双侧离断肢体进行再植。右臂出现坏死,术后第21天进行了二次截肢。大约六个月后,左臂在运动和感觉检查中结果良好。复杂的肢体挽救手术需要多学科方法。体外循环在延长关键缺血期、促进再植规划和预防再灌注损伤的方案中起着关键作用。
