Wu X W, Zhang X F, Yang Y Y, Kang J Q, Wang P G, Wang D R, Li L P, Liu W J, Ren J A
Research Institute of General Surgery, Jinling Hospital, Medical School of Nanjing University, Nanjing 210002, China.
Research Institute of General Surgery, Jinling Hospital, the Affiliated Second Clinical Hospital, Medical School of Southeast University, Nanjing 210002, China.
Zhonghua Wei Chang Wai Ke Za Zhi. 2022 Sep 25;25(9):804-811. doi: 10.3760/cma.j.cn441530-20220206-00044.
This study aims to survey the incidence of surgical site infection (SSI) in China and to analyze its risk factors, so as to prevent and control SSI after colorectal surgery. An observative study was conducted. Based on a program of Chinese SSI Surveillance from 2018 to 2020, the clinical data of all adult patients undergoing colorectal surgery during this time period were extracted. These included demographic characteristics and perioperative clinical parameters. Minors, pregnant women, obstetric or gynecological surgery, urological system surgery, retroperitoneal surgery, resection of superficial soft tissue masses, and mesh or other implants were excluded. A total of 2122 patients undergoing colorectal surgery from 50 hospitals were included, including 1252 males and 870 females. The median age was 63 (16) years and the median BMI was 23 (4.58) kg/m. The primary outcome was the incidence of SSI within 30 days after colorectal surgery. The secondary outcomes were mortality within 30 days postoperatively, length of ICU stays and postoperative hospital stays, and cost of hospitalization. Patients were divided into the SSI group and non-SSI group based on the occurrence of SSI. Multivariable logistic regression was performed to analyze risk factors of SSI after colorectal surgery, and subgroup analysis was conducted for open and laparoscopic surgery. The incidence of SSI after colorectal surgery was 5.6% (119/2122), including 47 cases (47/119, 39.5%) with superficial incisional infections, 24 cases (24/119, 20.2%) with deep incisional infections, and 48 cases (48/119, 40.3%) with organ/space infections. The occurrence of SSI significantly increased mortality [2.5% (3/119) vs. 0.1%(3/2003), χ=22.400, =0.003], the length of ICU stay [0 (1) day vs. 0(0) day, =131 339, <0.001], postoperative hospital stay [18.5 (12.8) days vs. 9.0 (6.0) days, =167 902, <0.001], and medical expenses [75 000 (49 000) yuan vs. 60 000 (31 000) yuan, =126 189, <0.001] (<0.05). Multivariate analysis revealed that hypertension (OR=1.782, 95%CI: 1.173-2.709, =0.007), preoperative albumin level (OR=1.680, 95%CI: 1.089-2.592, =0.019), a contaminated or infected incision (OR= 1.993, 95%CI: 1.076-3.689, =0.028), emergency surgery (OR=2.067, 95%CI: 1.076-3.972, =0.029), open surgery (OR=2.132, 95%CI: 1.396-3.255, <0.001), and surgical duration (OR=1.804, 95%CI: 1.188-2.740, =0.006) were risk factors for SSI, while preoperative skin preparation (OR=0.478, 95%CI: 0.310-0.737, =0.001) was a protective factor for SSI. Subgroup analysis was performed on patients undergoing open or laparoscopic surgery. The incidence of SSI in the open surgery group was 10.2%, which was significantly higher than that in the laparoscopic or robotic group (3.5%, χ=39.816, <0.001). Subgroup analysis identified that a contaminated or infected incision (OR=2.168, 95%CI: 1.042-4.510, =0.038) and surgical duration (OR=2.072, 95%CI: 1.171-3.664, =0.012) were risk factors for SSI after open surgery, while mechanical bowel preparation (OR=0.428, 95%CI: 0.227-0.807, =0.009) and preoperative skin preparation (OR=0.356, 95%CI: 0.199-0.634, <0.001) were protective factors for SSI after open surgery. In laparoscopic surgery, diabetes mellitus (OR= 2.292, 95%CI: 1.138-4.617, =0.020) and hypertension (OR=2.265, 95%CI: 1.234-4.159, =0.008) were risk factors for SSI. The incidence of SSI after colorectal surgery is 5.6%. Minimally invasive surgery should be selected to reduce the occurrence of postoperative SSI. To prevent the occurrence of SSI after open surgery, skin preparation and mechanical bowel preparation should be performed before the operation, and the duration of the operation should be shortened as much as possible. In the perioperative period, care of patients with hypertension, diabetes, and contaminated or infected incisions should be given particular attention.
本研究旨在调查我国外科手术部位感染(SSI)的发生率,并分析其危险因素,以预防和控制结直肠手术后的SSI。开展了一项观察性研究。基于2018年至2020年中国SSI监测项目,提取了该时间段内所有接受结直肠手术的成年患者的临床资料。这些资料包括人口统计学特征和围手术期临床参数。排除未成年人、孕妇、妇产科手术、泌尿系统手术、腹膜后手术、浅表软组织肿物切除术以及使用网片或其他植入物的手术。纳入了来自50家医院的2122例接受结直肠手术的患者,其中男性1252例,女性870例。年龄中位数为63(16)岁,BMI中位数为23(4.58)kg/m²。主要结局是结直肠手术后30天内SSI的发生率。次要结局包括术后30天内的死亡率、ICU住院时间和术后住院时间以及住院费用。根据SSI的发生情况将患者分为SSI组和非SSI组。进行多变量逻辑回归分析以分析结直肠手术后SSI的危险因素,并对开放手术和腹腔镜手术进行亚组分析。结直肠手术后SSI的发生率为5.6%(119/2122),其中浅表切口感染47例(47/119,39.5%),深部切口感染24例(24/119,20.2%),器官/腔隙感染48例(48/119,40.3%)。SSI的发生显著增加了死亡率[2.5%(3/119)对0.1%(3/2003),χ²=22.400,P=0.003]、ICU住院时间[0(1)天对0(0)天,Z=131.339,P<0.001]、术后住院时间[18.5(12.8)天对9.0(6.0)天,Z=167.902,P<0.001]以及医疗费用[75000(49000)元对60000(31000)元,Z=126.189,P<0.001](P<0.05)。多因素分析显示,高血压(OR=1.782,95%CI:1.173 - 2.709,P=0.007)、术前白蛋白水平(OR=1.680,95%CI:1.089 - 2.592,P=0.019)、污染或感染切口(OR=1.993,95%CI:1.076 - 3.689,P=0.028)、急诊手术(OR=2.067,95%CI:1.076 - 3.972,P=0.029)、开放手术(OR=2.132,95%CI:1.396 - 3.255,P<0.001)以及手术时长(OR=1.804,95%CI:1.188 - 2.740,P=0.006)是SSI的危险因素,而术前皮肤准备(OR=0.478,95%CI:0.310 - 0.737,P=0.001)是SSI的保护因素。对接受开放手术或腹腔镜手术的患者进行了亚组分析。开放手术组SSI的发生率为10.2%,显著高于腹腔镜或机器人手术组(3.5%,χ²=39.816,P<0.001)。亚组分析确定,污染或感染切口(OR=2.168,95%CI:1.042 - 4.510,P=0.038)和手术时长(OR=2.072,95%CI:1.171 - 3.664,P=0.012)是开放手术后SSI的危险因素,而机械肠道准备(OR=0.428,95%CI:0.227 - 0.807,P=0.009)和术前皮肤准备(OR=0.356,95%CI:0.199 - 0.634,P<0.001)是开放手术后SSI的保护因素。在腹腔镜手术中,糖尿病(OR=2.292,95%CI:1.138 - 4.617,P=0.020)和高血压(OR=2.265,95%CI:1.234 - 4.159,P=0.008)是SSI的危险因素。结直肠手术后SSI的发生率为5.6%。应选择微创手术以减少术后SSI的发生。为防止开放手术后发生SSI,术前应进行皮肤准备和机械肠道准备,并尽可能缩短手术时长。在围手术期,应特别关注高血压、糖尿病患者以及污染或感染切口患者的护理。
