Division of Vascular and Endovascular Surgery, Louisville, University of Louisville, Louisville, KY, USA.
Vasc Endovascular Surg. 2024 Aug;58(6):581-587. doi: 10.1177/15385744241230151. Epub 2024 Jan 29.
Traumatic axillary and subclavian artery injuries are uncommon. Limited data are available regarding patient and injury characteristics, as well as management strategies and outcomes.
Retrospective chart review was performed on patients presenting to University of Louisville Hospital, an urban Level One Trauma Center, with traumatic axillary and subclavian artery injuries from 2015-2021. Patients were identified using University of Louisville trauma, radiology, and billing database searches based on ICD9/10 codes for axillary and subclavian artery injuries. Descriptive statistics are expressed as frequencies and percentages. Comparisons were performed using Fisher's Exact and Chi-squared tests.
Forty-four patients with traumatic axillary-subclavian arterial injuries were identified for analysis. Blunt and penetrating trauma were equally represented (n = 22 for both). A variety of injury types were seen, including minimal/intimal injury, laceration, pseudoaneurysm, transection, occlusion, and arteriovenous fistula. Management strategies were also variable, including non-operative, endovascular, planned hybrid, open, and endovascular converted to open. In operative patients, revascularization technical success was high (n = 31, 97%) with low likelihood of thrombosis (n = 2, 6%) and no infections. Among all patients, amputation rate was 5% (n = 2) and mortality rate was 9% (n = 3). Regarding arterial involvement, blunt injury was more likely to affect the subclavian (n = 18) than the axillary artery (n = 6) ( = .04). No significant difference was seen in brachial plexus injury based on artery involved (subclavian = 9 vs axillary = 11, = .14) or mechanism (blunt = 6 vs penetrating = 11, = .22). Non-operative management was more likely with subclavian artery injury (n = 11) vs axillary artery injury (n = 1) ( = .008). There was no significant difference between decision for non-operative (blunt = 9, penetrating = 3) vs operative (blunt = 13, penetrating = 19) management based on mechanism ( = .09). Transection injury was associated with an open repair strategy (endovascular/hybrid = 1, open/endovascular to open conversion = 11, = .0003). Of the three patients requiring endovascular to open conversion, two required amputation, which were the only two patients in the study undergoing amputation.
Both open and endovascular/hybrid strategies are useful when treating traumatic axillary and subclavian artery injuries and are associated with high likelihood of revascularization technical success, with low rates of thrombosis or infection, when treated promptly at a trauma center with vascular specialists available. Transection injuries were most often treated with open revascularization. Patients undergoing amputation had blunt transection injuries to the subclavian artery and underwent endovascular to open conversion after failed attempts at endovascular revascularization.
创伤性腋动脉和锁骨下动脉损伤并不常见。关于患者和损伤特征,以及管理策略和结果,可用的数据有限。
对 2015 年至 2021 年期间在路易斯维尔大学医院(城市一级创伤中心)因创伤性腋动脉和锁骨下动脉损伤就诊的患者进行了回顾性图表审查。使用路易斯维尔大学创伤、放射学和计费数据库搜索,根据腋动脉和锁骨下动脉损伤的 ICD9/10 代码识别患者。描述性统计数据表示为频率和百分比。使用 Fisher 精确检验和卡方检验进行比较。
共确定了 44 例创伤性腋-锁骨下动脉损伤患者进行分析。钝性和穿透性损伤的比例相等(n = 22)。观察到各种损伤类型,包括最小/内膜损伤、撕裂伤、假性动脉瘤、横断、闭塞和动静脉瘘。治疗策略也多种多样,包括非手术、血管内、计划的杂交、开放和血管内转为开放。在手术患者中,再血管化技术成功率高(n = 31,97%),血栓形成的可能性低(n = 2,6%),无感染。在所有患者中,截肢率为 5%(n = 2),死亡率为 9%(n = 3)。关于动脉受累,钝性损伤更可能影响锁骨下动脉(n = 18)而不是腋动脉(n = 6)( =.04)。根据受累动脉(锁骨下动脉= 9 与腋动脉= 11,=.14)或机制(钝性= 6 与穿透性= 11,=.22),臂丛神经损伤无显著差异。锁骨下动脉损伤更可能采用非手术治疗(n = 11)而不是腋动脉损伤(n = 1)( =.008)。根据机制(钝性= 9,穿透性= 3),非手术(钝性= 13,穿透性= 19)与手术(钝性= 13,穿透性= 19)治疗之间无显著差异(=.09)。横断损伤与开放修复策略相关(血管内/杂交= 1,开放/血管内转为开放= 11,=.0003)。在需要血管内转为开放的 3 名患者中,有 2 名需要截肢,这是研究中仅有的 2 名接受截肢的患者。
在治疗创伤性腋动脉和锁骨下动脉损伤时,开放和血管内/杂交策略都很有用,并且在创伤中心及时治疗,有血管专家可用时,再血管化技术成功率高,血栓形成或感染率低。横断损伤最常采用开放血管重建治疗。接受截肢的患者患有钝性锁骨下动脉横断损伤,并在血管内再血管化失败后转为开放。
Zotero 插件