Surgical site infection(SSI) is one of post-operative complications in gastrointestinal surgery. SSI may increase the morbidity and mortality of surgical patients and increase their hospital stay and expense. The risk factors can come from patients, physicians and hospital environments. Improving patients nutritional status and organ function, appropriate control of blood sugar level and abstinence from smoking can reduce the occurrence of SSI. Compare to current practice in China, the following recommendations have been identified as priorities for implementation: hair removal done immediately before operation; maintenance of normothermia intraoperatively; the abdominal wall should be closed with an absorbable suture and drains should be removed as early as possible. SSI could be diagnosed by symptoms, local signs and lab examinations and confirmed by physician. Source control is the key point in the management of SSI. Ultrasound and CT guided percutaneous abscess drainage is effective in the localized deep space surgical site infection and critically ill patients. Antibiotics should be used following clinical assessment and evidence based on local formulary.
Digestive System Surgical Procedures ; adverse effects ; Humans ; Infection Control ; Risk Factors ; Surgical Wound Infection ; diagnosis ; etiology ; prevention & control ; therapy

Objective To investigate the incidence of surgical site infection(SSI)following conversion from laparoscopic to open cholecystectomy and to analyze the related risk factors. Methods The clinical data of 179 patients who had experienced conversion from laparoscopic to open cholecystectomy in Peking Union Medical College Hospital from January 2014 to August 2019 were analyzed retrospectively.Univariate and multivariate logistic regression analyses were performed to evaluate the associations between clinical variables and SSI. Results The incidence of SSI was 19.0%(34/179)after conversion from laparoscopic to open cholecystectomy.The multivariable analysis demonstrated that preoperative endoscopic retrograde cholangiopancreatography(ERCP)(
Cholecystectomy ; Humans ; Laparoscopy ; Retrospective Studies ; Risk Factors ; Surgical Wound Infection/etiology*

Esophageal Neoplasms ; surgery ; Esophagectomy ; adverse effects ; Humans ; Mediastinum ; diagnostic imaging ; Surgical Wound Infection ; diagnostic imaging ; etiology

Objective: To explore the incidence and risk factors of postoperative surgical site infection (SSI) after colon cancer surgery. Methods: A retrospective case-control study was performed. Patients diagnosed with colon cancer who underwent radical surgery between January 2016 and May 2021 were included, and demographic characteristics, comorbidities, laboratory tests, surgical data and postoperative complications were extracted from the specialized prospective database at Department of General Surgery, Peking Union Medical College Hospital. Case exclusion criteria: (1) simultaneously multiple primary colon cancer; (2) segmental resection, subtotal colectomy, or total colectomy; (3) patients undergoing colostomy/ileostomy during the operation or in the state of colostomy/ileostomy before the operation; (4) patients receiving natural orifice specimen extraction surgery or transvaginal colon surgery; (5) patients with the history of colectomy; (6) emergency operation due to intestinal obstruction, perforation and acute bleeding; (7) intestinal diversion operation; (8) benign lesions confirmed by postoperative pathology; (9) patients not following the colorectal clinical pathway of our department for intestinal preparation and antibiotic application. Univariate analysis and multivariate analysis were used to determine the risk factors of SSI after colon cancer surgery. Results: A total of 1291 patients were enrolled in the study. 94.3% (1217/1291) of cases received laparoscopic surgery. The incidence of overall SSI was 5.3% (69/1291). According to tumor location, the incidence of SSI in the right colon, transverse colon, left colon and sigmoid colon was 8.6% (40/465), 5.2% (11/213), 7.1% (7/98) and 2.1% (11/515) respectively. According to resection range, the incidence of SSI after right hemicolectomy, transverse colectomy, left hemicolectomy and sigmoid colectomy was 8.2% (48/588), 4.5% (2/44), 4.8% (8 /167) and 2.2% (11/492) respectively. Univariate analysis showed that preoperative BUN≥7.14 mmol/L, tumor site, resection range, intestinal anastomotic approach, postoperative diarrhea, anastomotic leakage, postoperative pneumonia, and anastomotic technique were related to SSI (all P<0.05). Multivariate analysis revealed that anastomotic leakage (OR=22.074, 95%CI: 6.172-78.953, P<0.001), pneumonia (OR=4.100, 95%CI: 1.546-10.869, P=0.005), intracorporeal anastomosis (OR=5.288, 95%CI: 2.919-9.577,P<0.001) were independent risk factors of SSI. Subgroup analysis showed that in right hemicolectomy, the incidence of SSI in intracorporeal anastomosis was 19.8% (32/162), which was significantly higher than that in extracorporeal anastomosis (3.8%, 16/426, χ(2)=40.064, P<0.001). In transverse colectomy [5.0% (2/40) vs. 0, χ(2)=0.210, P=1.000], left hemicolectomy [5.4% (8/148) vs. 0, χ(2)=1.079, P=0.599] and sigmoid colectomy [2.1% (10/482) vs. 10.0% (1/10), χ(2)=2.815, P=0.204], no significant differences of SSI incidence were found between intracorporeal anastomosis and extracorporeal anastomosis (all P>0.05). Conclusions: The incidence of SSI increases with the resection range from sigmoid colectomy to right hemicolectomy. Intracorporeal anastomosis and postoperative anastomotic leakage are independent risk factors of SSI. Attentions should be paid to the possibility of postoperative pneumonia and actively effective treatment measures should be carried out.
Case-Control Studies ; Colonic Neoplasms/surgery* ; Humans ; Retrospective Studies ; Risk Factors ; Surgical Wound Infection/etiology*

Humans ; Leg Injuries ; surgery ; Male ; Middle Aged ; Surgical Procedures, Operative ; adverse effects ; Surgical Wound Infection ; etiology ; surgery

OBJECTIVEIn May 2013, an abnormal increase of surgical-site infection among post cesarean section patients was reported at one hospital in Zhongshan. An investigation was conducted to identify the risk factors and related control measures.

METHODSAll the reported surgical-site infection records among post cesarean section patients were checked. A review of cesarean section schedules of health workers was also performed. An 1 : 2 case-control study was conducted among surgical-site infection cases in May 2013. Microbiologic cultures were performed on 2 surgical site secretion samples and 12 samples from the environment. All the positive isolates were molecular typed by pulsed field gel electrophoresis (PFGE).

RESULTSIn May 2013, 4 post cesarean section patients who developed surgical-site infection symptom at one hospital in Zhongshan were reported, with an attack rate as 10.3% (4/39). The emergence time of symptom was 2-3 days after operation. All of the 4 cases underwent an emergency operation. The median time interval for cases from admission to operation was 7.2 hours (ranged from 2 to 9 hours), lower than that seen in the controls, with a median time of 20.8 hours (Z = 5.50, P = 0.03). Two of the 4 cases took type-B ultrasonic inspection 1.4 h and 8.4 h before the operation, and the other two cases took continuous fetal heart monitoring 2 hours before the operation. Skin of the operation area on the 4 cases had been exposed to ultrasonic couplant, without a thorough clean. The proportion of type-B ultrasonic inspection or continuous fetal heart monitoring was much higher in cases than in controls (χ² = 5.19, P = 0.01). Burkholderia cepacia (BC) isolates were discovered from:one surgical site secretion, 2 type-B ultrasonic probe samples, one ultrasonic couplant in use and one ultrasonic couplant unopened. All the isolates were identified as 100% identical by PFGE.

CONCLUSIONThe skin of operation area of cesarean section patients had been exposed to BC contaminated ultrasonic couplant without thorough cleaning, which seemed to be related to the outbreak of surgical-site infection, in our case.

Adolescent ; Adult ; Burkholderia cepacia ; Case-Control Studies ; Cesarean Section ; Cross Infection ; etiology ; Equipment Contamination ; Female ; Humans ; Pregnancy ; Surgical Wound Infection ; etiology ; Young Adult

Nontuberculous mycobacterial infections can cause destructive tenosynovitis of the hand. We report on and discuss the clinical course and distinctive radiologic findings of two patients with hand tenosynovitis secondary to M. marinum and intracellulare infection, which are different from those of the nontuberculous mycobacterial infections reported in the previous literature.
Female ; *Hand/radiography ; Humans ; Magnetic Resonance Imaging ; Male ; Middle Aged ; Mycobacterium Infections, Nontuberculous/*diagnosis/etiology/radiography ; Mycobacterium avium-intracellulare Infection/*diagnosis/etiology/radiography ; *Mycobacterium marinum ; Surgical Wound Infection/complications ; Tenosynovitis/diagnosis/*microbiology/radiography ; Wound Infection/complications

OBJECTIVETo investigate the surgical site infection (SSI) rate of pancreas operation and its related risk factors.

METHODWe retrospectively analyzed sex, age, hospitalization time before operation, wound class, American Society of Anesthesiologists (ASA) physical status score, and operation time in 196 patients after pancreas operation.

RESULTSSI occurred in 14 patients (7.1%). The sex, age, hospitalization time before operation, wound class, and ASA score had no significant difference between SSI group and non-SSI group (P>0.05), while statistically significant difference was found in the term of operation time (P<0.05).

CONCLUSIONSOperation time is a significant risk factor of SSI. There were no any relations between hospitalization time before operation, wound class, and ASA score.

Female ; Humans ; Length of Stay ; Male ; Pancreas ; surgery ; Retrospective Studies ; Risk Factors ; Sex Factors ; Surgical Wound Infection ; etiology ; Time Factors

Objective: 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. Methods: 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/m². 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. Results: 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), χ²=22.400, P=0.003], the length of ICU stay [0 (1) day vs. 0(0) day, U=131 339, P<0.001], postoperative hospital stay [18.5 (12.8) days vs. 9.0 (6.0) days, U=167 902, P<0.001], and medical expenses [75 000 (49 000) yuan vs. 60 000 (31 000) yuan, U=126 189, P<0.001] (P<0.05). Multivariate analysis revealed that hypertension (OR=1.782, 95%CI: 1.173-2.709, P=0.007), preoperative albumin level (OR=1.680, 95%CI: 1.089-2.592, P=0.019), a contaminated or infected incision (OR= 1.993, 95%CI: 1.076-3.689, P=0.028), emergency surgery (OR=2.067, 95%CI: 1.076-3.972, P=0.029), open surgery (OR=2.132, 95%CI: 1.396-3.255, P<0.001), and surgical duration (OR=1.804, 95%CI: 1.188-2.740, P=0.006) were risk factors for SSI, while preoperative skin preparation (OR=0.478, 95%CI: 0.310-0.737, P=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%, χ²=39.816, P<0.001). Subgroup analysis identified that a contaminated or infected incision (OR=2.168, 95%CI: 1.042-4.510, P=0.038) and surgical duration (OR=2.072, 95%CI: 1.171-3.664, P=0.012) were risk factors for SSI after open surgery, while mechanical bowel preparation (OR=0.428, 95%CI: 0.227-0.807, P=0.009) and preoperative skin preparation (OR=0.356, 95%CI: 0.199-0.634, P<0.001) were protective factors for SSI after open surgery. In laparoscopic surgery, diabetes mellitus (OR= 2.292, 95%CI: 1.138-4.617, P=0.020) and hypertension (OR=2.265, 95%CI: 1.234-4.159, P=0.008) were risk factors for SSI. Conclusions: 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.
Adult ; Albumins ; China/epidemiology* ; Colorectal Surgery/adverse effects* ; Female ; Humans ; Hypertension/complications* ; Male ; Middle Aged ; Pregnancy ; Surgical Wound Infection/etiology*

For elective surgery of colorectal cancer, current evidence supports preoperative mechanical bowel preparation combined with oral antibiotics. Meanwhile, for patients with varied degrees of intestinal stenosis, individualized protocol is required to avoid adverse events. We hereby summarize recent high-quality evidences and updates of guidelines and consensus, and recommend stratified bowel preparation based on the clinical practice of our institute as follows. (1) For patients with unimpaired oral intake, whose tumor can be passed by colonoscopy, mechanical bowel preparation and oral antibiotics are given. (2) For patients without symptoms of bowel obstruction but with impaired oral intake or incomplete colonoscopy due to tumor-related stenosis, small-dosage laxative is given for several days before surgery, and oral antibiotics the day before surgery. (3) For patients with bowel obstruction, mechanical bowel preparation or enema is not indicated. We proposed this evidence-based, individualized protocol for preoperative bowel preparation for the reference of our colleagues, in the hope of improving perioperative outcomes and reducing adverse events.
Anti-Bacterial Agents/therapeutic use* ; Colorectal Neoplasms/drug therapy* ; Constriction, Pathologic/etiology* ; Elective Surgical Procedures/adverse effects* ; Humans ; Preoperative Care/methods* ; Surgical Wound Infection/etiology*