Jergovic Iva, Cheesman Magnus A, Siika Antti, Khashram Manar, Paris Simon M, Roy Joy, Hultgren Rebecka
Department of Molecular Medicine and Surgery, Karolinska Institutet, Stockholm, Sweden; Department of Vascular Surgery, Karolinska University Hospital, Stockholm, Sweden.
Department of Vascular Surgery, Waikato Hospital, Hamilton, New Zealand.
J Vasc Surg. 2022 Jan;75(1):205-212.e3. doi: 10.1016/j.jvs.2021.07.243. Epub 2021 Sep 6.
The natural history of a cohort of patients monitored for popliteal artery aneurysms (PAAs) has not been well described. A prevailing uncertainty exists regarding the optimal surveillance strategies and timing of treatment. The primary aim of the present study was to describe the care trajectory of all patients with PAAs identified at two tertiary vascular centers, both in surveillance and eventually treated. The secondary aim was to define the PAA growth rates.
A retrospective, multicenter cohort study was performed of all patients with PAAs at two vascular centers in two countries (Sweden, 2009-2016; New Zealand, 2009-2017). Data were collected from electronic medical records regarding the comorbidities, treatment, and outcomes and analyzed on a patient- and extremity-specific level. Treatment was indicated at the occurrence of emergent symptoms or considered at a PAA threshold of >2 cm. The PAAs were divided into small (≤15 mm) and large (>15 mm) aneurysms. The mean surveillance follow-up was 5.1 years.
Most of the 241 identified patients (397 limbs) with a diagnosis of PAAs had bilateral aneurysms (n = 156). Most patients were treated within the study period (163 of 241; 68%), and one half of the diagnosed extremities with PAA had been treated (54%; 215 of 397). Among those who had undergone elective repair, treatment had usually occurred within 1 year after the diagnosis (66%; 105 of 158). More small PAAs were detected in the group that had required emergent repair compared with elective repair (6 of 57 [11%] vs 12 of 158 [8%]; P < .001). No differences were found in the mean diameters between the elective and emergent groups (30.1 mm vs 32.2 mm; P = .39). Growth was recorded in 110 PAAs and on multivariate analysis was associated with a larger index diameter (odds ratio, 1.138; 95% confidence interval, 1.040-1.246; P = .005) and a concurrent abdominal aortic aneurysm (odds ratio, 2.553; 95% confidence interval, 1.018-6.402; P = .046).
The present cohort of patients represented a true contemporary clinical setting of monitored PAAs and showed that most of these patients will require elective repair, usually within 1 year. The risk of emergent repair is not negligible for patients with smaller diameter PAAs. However, the optimal selection strategy for preventive early repair is still unknown. Future morphologic studies are needed to support the development of individualized surveillance protocols.
一组接受腘动脉动脉瘤(PAA)监测患者的自然病史尚未得到充分描述。关于最佳监测策略和治疗时机,目前仍存在不确定性。本研究的主要目的是描述在两个三级血管中心确诊的所有PAA患者的治疗轨迹,包括监测情况及最终治疗情况。次要目的是确定PAA的生长速率。
对两个国家(瑞典,2009 - 2016年;新西兰,2009 - 2017年)两个血管中心的所有PAA患者进行了一项回顾性多中心队列研究。从电子病历中收集有关合并症、治疗及结果的数据,并在患者和肢体特异性水平上进行分析。出现紧急症状时即进行治疗,或当PAA直径阈值>2 cm时考虑治疗。PAA分为小(≤15 mm)动脉瘤和大(>15 mm)动脉瘤。平均监测随访时间为5.1年。
241例确诊为PAA的患者(397条肢体)中,大多数患者患有双侧动脉瘤(n = 156)。大多数患者在研究期间接受了治疗(241例中的163例;68%),已确诊的PAA肢体中有一半接受了治疗(54%;397条肢体中的215条)。在接受择期修复的患者中,治疗通常在诊断后1年内进行(66%;158例中的105例)。与择期修复组相比,急诊修复组检测到更多小PAA(57例中的6例[11%] vs 158例中的12例[8%];P <.001)。择期和急诊组的平均直径无差异(30.1 mm vs 32.2 mm;P =.39)。110个PAA记录到生长情况,多因素分析显示生长与更大的初始直径(比值比,1.138;95%置信区间,1.040 - 1.246;P =.005)及同时存在腹主动脉瘤(比值比,2.553;95%置信区间,1.018 - 6.402;P =.046)相关。
本队列患者代表了真实的当代PAA监测临床情况,表明这些患者中的大多数通常需要在1年内进行择期修复。直径较小的PAA患者进行急诊修复的风险也不可忽视。然而,预防性早期修复的最佳选择策略仍不清楚。未来需要进行形态学研究以支持制定个体化监测方案。
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