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Risk factors and outcomes of organ-space surgical site infections after elective colon and rectal surgery
Antimicrobial Resistance & Infection Control volume 6, Article number: 40 (2017)
Organ-space surgical site infections (SSI) are the most serious and costly infections after colorectal surgery. Most previous studies of risk factors for SSI have analysed colon and rectal procedures together. The aim of the study was to determine whether colon and rectal procedures have different risk factors and outcomes for organ-space SSI.
A multicentre observational prospective cohort study of adults undergoing elective colon and rectal procedures at 10 Spanish hospitals from 2011 to 2014. Patients were followed up until 30 days post-surgery. Surgical site infection was defined according to the Centers for Disease Control and Prevention criteria. Oral antibiotic prophylaxis (OAP) was considered as the administration of oral antibiotics the day before surgery combined with systemic intravenous antibiotic prophylaxis.
Of 3,701 patients, 2,518 (68%) underwent colon surgery and 1,183 (32%) rectal surgery. In colon surgery, the overall SSI rate was 16.4% and the organ-space SSI rate was 7.9%, while in rectal surgery the rates were 21.6% and 11.5% respectively (p < 0.001). Independent risk factors for organ-space SSI in colon surgery were male sex (Odds ratio -OR-: 1.57, 95% CI: 1.14–2.15) and ostomy creation (OR: 2.65, 95% CI: 1.8–3.92) while laparoscopy (OR: 0.5, 95% CI: 0.38–0.69) and OAP combined with intravenous antibiotic prophylaxis (OR: 0.7, 95% CI: 0.51–0.97) were protective factors. In rectal surgery, independent risk factors for organ-space SSI were male sex (OR: 2.11, 95% CI: 1.34–3.31) and longer surgery (OR: 1.49, 95% CI: 1.03–2.15), whereas OAP with intravenous antibiotic prophylaxis (OR: 0.49, 95% CI: 0.32–0.73) was a protective factor. Among patients with organ-space SSI, we found a significant difference in the overall 30-day mortality, being higher in colon surgery than in rectal surgery (11.5% vs 5.1%, p = 0.04).
Organ-space SSI in colon and rectal surgery has some differences in terms of incidence, risk factors and outcomes. These differences could be considered for surveillance purposes and for the implementation of preventive strategies. Administration of OAP would be an important measure to reduce the OS-SSI rate in both colon and rectal surgeries.
Due to the clean-contaminated nature of the wound, rates of surgical site infections (SSI) after colorectal surgery are the highest among elective procedures, exceeding 20% in some institutions [1–3]. It has been suggested that the rates and risk factors for developing an SSI after colon and rectal surgery may be different [4, 5], due to the differences found in the surgical approach and the degree of bacterial contamination between both surgeries. Nevertheless, most studies carried out to date have analysed colon and rectal surgeries together [6, 7]. Separate assessments of patients undergoing colon and rectal surgery are scarce [4, 8].
It has been proposed that incisional SSI (I-SSI) and organ-space SSI (OS-SSI) may have distinct pathogenesis and risk factors. Incisional SSI has been associated with increased body mass index or the presence of an ostomy [6, 9]. On the other hand, OS-SSI has been more frequently related to blood transfusion, previous abdominal surgery or poor nutritional status [6, 7, 10]. Interestingly, the development of an OS-SSI has more severe consequences than the development of an I-SSI; in many cases OS-SSI requires reoperation and increases morbidity and length of stay (LOS) [11, 12]. Moreover, while many of the most significant advances in colon and rectal surgery such as laparoscopy and other minimally invasive techniques have decreased I-SSI rates, they have had a lesser impact on OS-SSI [13, 14].
Remarkably, the administration of mechanical bowel preparation (MBP) was discontinued in the last decades in most Spanish hospitals due to the lack of effectiveness . In this scenario, and for reasons not well established, the administration of oral antibiotic prophylaxis (OAP) was discontinued too. Currently, only some hospitals use it in the elective surgery of the colon and rectum in Spain. This situation contrasts with that of other European and American countries, where the OAP is part of the daily practice.
The aim of this study was to compare the incidence, risk factors and outcomes of OS-SSI in patients undergoing elective surgery of the colon or rectum in a large, representative cohort of Spanish hospitals.
Patients, design and setting
We performed a multicentre observational study of a prospective cohort of adult patients (≥18 years old) undergoing elective colon and rectal surgery from January 2011 to December 2014 at 10 hospitals participating in the VINCat program. All consecutive patients hospitalized in any surgical department at the different hospitals were included and followed up until 30 days after surgery. Patients with a pre-existing SSI at the time of surgery were excluded. Post-discharge surveillance of SSI was mandatory and consisted of a review of electronic clinical records (primary and secondary care), checking readmissions and emergency visits, and reviewing microbiological and radiological data. For the purposes of the present study, patients were differentiated according to whether colon or rectal surgery was performed.
VINCat surveillance program
The VINCat program  is a healthcare-associated infection surveillance program in Spain, based on the National Healthcare Safety Network (NHSN) model . It recruits hospitals on a voluntary basis and currently receives surveillance data from trained infection control staff at 66 hospitals, who submit information on preoperative demographics, comorbidities, operative characteristics, microbiology and treatment data, and 30-day postoperative outcomes for eligible surgical procedures .
SSIs were defined according to the Centers for Disease Control and Prevention (CDC) criteria  and divided into superficial incisional, deep incisional and OS. Surgical procedure categories were stratified according to the risk of surgical infection (−1 to 3) as defined by the NHSN.
Predictor variables considered for the development of an OS-SSI were: age, sex, American Society of Anesthesiologists (ASA) physical status classification, MBP, OAP, adequacy of intravenous antibiotic prophylaxis, surgical risk index category according to the National Nosocomial Infections Surveillance (NNIS) modified system criteria , date and prolonged operation time (≥75th percentile of the procedure), laparoscopy, wound classification, date of SSI, site of SSI (I-SSI or OS-SSI), microbiology and underlying disease (neoplasia, inflammatory bowel disease –IBD- or others). Age (<65 and ≥ 65 years), ASA (I-II and III-IV) score and NNIS modified risk index (−1-0 and 1–2) were dichotomized for the analysis.
Adequacy of intravenous antibiotic prophylaxis was established when all the following three factors were met: antibiotics administered according to local protocol at each hospital, completion of the infusion within 60 min before the surgical incision, and perioperative antibiotic redosing if indicated.
The OAP was always considered as the administration of oral antibiotic prophylaxis the day before surgery in combination with systemic intravenous antibiotic prophylaxis perioperatively. The administration was not mandatory and was done according to local protocols at each hospital. It was applied in 4 of the 10 participating hospitals.
The development of overall SSI and OS-SSI in both colon and rectal populations, readmission, LOS and mortality within 30 days of initial surgery were recorded. Readmission for any cause within 30 days of initial surgery was documented. LOS included readmission if there was. Overall mortality was defined as death due to any cause within 30 days of initial surgery.
Categorical variables were described as totals and frequencies; continuous variables were described as medians and interquartile ranges (IQR) and mean and standard deviation (SD) in some cases. Univariate analysis comparing the two populations was carried out using the chi-square test or Fisher exact test for categorical variables and the t-test or Mann-Whitney test for continuous variables. Comparisons between patients who developed an OS-SSI and those who did not (no OS-SSI) were performed separately for colon and rectal populations. Finally, multivariate analysis with all statistically significant variables (p ≤ 0.05) associated with OS-SSI in colon and rectal populations were performed separately to determine independent predictive factors for the development of OS-SSI. In these cases, results were given as odds ratios (OR) and 95% confidence intervals (95% CI). The final model’s goodness-of-fit was assessed by the Hosmer-Lemeshow test. Data were analysed with IBM SPSS 20.0 (Chicago, Ill.).
Characteristics of patients and incidence of SSI in colon and rectal surgery
During the study period, a total of 3,701 patients undergoing elective colorectal surgery were prospectively followed-up, 68% after colon surgery and 32% after rectal surgery.
Characteristics of patients undergoing colon or rectal surgery are shown in Table 1. Patients who underwent colon surgery were older (median age 70.6 years, interquartile range [IQR] 62–79 vs 68 years [IQR 60–76], p < 0.001) and had higher proportions of ASA score III-IV (42.2% vs 36.7%, p = 0.002) than patients undergoing rectal surgery. In contrast, patients undergoing rectal procedures were more likely to be male (67.2% vs 59.3%, p = 0.001), to have neoplasia (97% vs 93.5%, p < 0.001), to have a longer duration of surgery (42.7% vs 37.6%, p = 0.003), and to have an ostomy (64% vs 8.3%, p < 0.001). The administration of correct intravenous antibiotic prophylaxis was 84% in colon surgery and 81.6% in rectal surgery, p = 0.4. In colon surgery, the overall SSI rate was 16.4% and the OS-SSI rate 7.9%, while in rectal surgery, the overall SSI was 21.6% and the OS-SSI 11.5% (p < 0.001), as shown in Fig. 1. When patients who received OAP combined with correct intravenous antibiotic prophylaxis (n = 1.345) were analysed, significant differences in overall SSI rate between colon and rectal surgery (12.3% vs 19.9%, p < 0.001) were found, while there were no differences in the OS-SSI rate (6.2% vs 8.4%, p = 0.1).
Risk factors for OS-SSI in colon and rectal surgery
Univariate analyses of risk factors for OS-SSI in colon and rectal surgery are shown separately in Table 2. In colon surgery, male sex, NNIS ≥1 and ostomy creation were significantly associated with OS-SSI, while laparoscopic surgery and OAP had lower associations with OS-SSI. In rectal surgery, male sex, longer duration of surgery and NNIS ≥1 were associated with OS-SSI, whereas OAP had a lower association with OS-SSI.
A logistic regression multivariate analysis using significant predictive factors found in the univariate analysis is shown in Table 3. Independent risk factors for OS-SSI after colon surgery were male sex (OR 1.57, 95% CI 1.14–2.15) and ostomy creation (OR 2.65, 95% CI 1.8–3.9), while laparoscopy (OR 0.5, 95% CI 0.38–0.69) and the administration of OAP (OR 0.7, 95% CI 0.51–0.97) were independent protective factors. Independent risk factors for OS-SSI in rectal surgery were male sex (OR 2.11, 95% CI 1.34–3.31) and longer duration of surgery (OR 1.49, 95% CI 1–2.15), whereas the administration of OAP (OR 0.49, 95% CI 0.32–0.73) was the only independent protective factor.
Outcomes of patients with OS-SSI in colon and rectal surgery
Table 4 shows the outcomes of patients who developed an OS-SSI in colon and rectal surgery. There were no significant differences between colon and rectal procedures regarding median LOS (25 days [IQR 18–31] vs 23 days [IQR 16–33], p = 0.1), mean LOS (30.2 days ± SD 25 vs 32 days ± SD 28, p = 0.19) and readmission rate (19.5% vs 24.3%, p = 0.3). Overall 30-day mortality was significantly higher after colon surgery than after rectal surgery (11.5% [23/200] vs 5.1% [7/136], p = 0.04).
This large multicentre cohort study found significant differences in the incidence, predictive factors and outcomes of OS-SSI after elective colon and rectal surgery. This suggests that the two procedures should be considered as different surgical interventions.
The separation of procedures according to patients’ characteristics may allow more accurate assessment of their specific risk factors. Comparing colon and rectal populations, we found that they had different characteristics in terms of risk factors for SSI. Patients undergoing colon surgery were older, had more IBD and less laparoscopy, factors related to SSI. On the other hand, patients undergoing rectal surgery were younger but had more rate of malignancy; more frequently received chemoradiotherapy and had longer surgery duration. The surgical techniques were also different, something inherent to the anatomical location of the disease, in special with more ostomies performed in rectal resections. These factors, associated with the fact that the rectum has higher bacterial contamination load, conferred it greater risk of SSI. Accordingly, overall SSI and OS-SSI rates were higher in rectal surgery than in colon surgery. Although these rates were high, they were similar to these reported in previous studies [8, 21]. Data from surveillance systems in Europe an US vary widely [22, 23], being in most cases lower than ours, though post-discharge surveillance is not always performed.
We found significant differences in the predictive factors for developing an OS-SSI in colon and rectal surgeries. In colon surgery, independent risk factors predisposing to OS-SSI were male sex and ostomy creation, while laparoscopic surgery and OAP were protective factors. In rectal surgery, independent risk factors for OS-SSI were male sex and longer duration of surgery, whereas OAP was the only protective factor. Male sex was a common risk factor for developing OS-SSI in both colon and rectal surgeries; this association is well established [5, 7, 24], although the reasons are not known.
Ostomy creation was a strong risk factor for the development of OS-SSI in colon surgery but not in rectal surgery, as previously reported elsewhere . Ostomies are normally used to divert the faecal stream from a newly created immature anastomosis, or to definitively disconnect the gastrointestinal tract in some extensive colorectal surgeries. Nevertheless, ostomies have been associated with increased rates of SSI in previous studies [4–6, 9] because they allow organisms from the air, contaminated hands, or skin flora to reach the subcutaneous fat and the wound, and eventually the intraabdominal cavity . In our study, patients with colon surgery who received an ostomy more frequently underwent laparotomy due to complex pathology like IBD or diverticulitis. These diseases have been associated with OS-SSI , and ostomy creation may act, in part, as a marker of this complex pathology.
The laparoscopic approach significantly reduced SSI rates in several large-database studies and also offered other benefits such as faster recovery of pulmonary function, less pain and shorter postoperative stay [13, 14]. In our study it served as an independent protective factor for the development of OS-SSI in colon surgery, but not in rectal surgery. Probably, the beneficial effect of laparoscopy was exceeded by the higher frequency of risk factors for SSI inherent in rectal surgery.
Importantly, we found that OAP was a protective factor for the development of OS-SSI in both colon and rectal surgeries, although the impact was higher in rectal surgery, probably because the rectum has a higher level of bacterial contamination. During the study period there was not a national or regional recommendation for the application of OAP, and for this reason the use of the measure was decided by each participating hospital (it was only applied in 4 of the 10 hospitals). The findings of the present study lead to a change in the clinical practice of hospitals participating in the VINCat program and in 2016 the use of OAP was institutionally recommended. The OAP combined with intravenous prophylaxis and MBP significantly reduces SSI rates after colon and rectal surgery by decreasing the intraluminal bacterial load [27–30]; in a previous meta-analysis of randomized controlled trials comparing the effectiveness of OAP plus intravenous antibiotic prophylaxis vs intravenous antibiotic prophylaxis alone, the association of OAP was estimated to reduce the incidence of SSI by 43% . Nevertheless, the use of MBP has been widely questioned, due to its unpleasant gastrointestinal effects, and in many studies it has failed to reduce SSI rates . Currently, since almost all studies that demonstrate the effectiveness of OAP have been performed in combination with MBP, the use of MBP will have to be raised again. Last World Health Organization (WHO) recommendations on preoperative measures for surgical site infection prevention suggest using OAP with MBP in all adults undergoing elective colorectal surgery [32, 33].
Longer duration of surgery was an independent risk factor for the development of an OS-SSI in rectal surgery. This association has often been described in the colorectal surgery population [21, 34, 35], and it also favours other risk factors for SSI like the hyperglycaemia or hypothermia . Given the capacity of this parameter to predict SSI, it was included as one of the components of the NNIS risk index. Rectal tumours close to the anal verge usually require extensive surgery with additional organ resection, requiring longer operative time and causing greater bleeding, factors that have been associated with an increased risk of SSI [24, 36]. Moreover, in these prolonged surgeries, antibiotic redosing is not always administered correctly.
Significantly, mortality of patients with OS-SSI after colon surgery was higher than after rectal surgery. The fact that patients in the colon group were older and more frequently had complicated diseases other than neoplasia could explain this result.
Among the strengths of the study is its multicentre nature, the large number of patients included and the fact that all data were collected by trained infection control staff. However, the study has a number of limitations that should be acknowledged. Firstly, the retrospective analysis of prospectively collected data may lead to bias and is unable to control for confounding factors. Secondly, certain risk factors that have been linked to SSI such as perioperative hyperglycaemia, hypothermia and blood transfusion were not recorded here.
We found differences in the incidence, risk factors and outcomes of overall SSI and OS-SSI between colon and rectal surgery, suggesting that they could be considered as different surgical procedures. These differences should be borne in mind for the purpose of surveillance and for the implementation of preventive strategies. Administration of OAP would be an important measure to reduce the OS-SSI rate in both colon and rectal surgeries.
- 95% CI:
95% confidence interval
American Society of Anesthesiologists
Centers for disease control and prevention
Inflammatory bowel disease
- IBM SPSS:
International business machines Corp. Statistical package for the social sciences
Length of stay
Mechanical bowel preparation
National Healthcare Safety Network
National Nosocomial Infection Surveillance
Oral antibiotic prophylaxis
Organ-space surgical site infection
Surgical site infection
World Health Organization
Kirby A, Burnside G, Bretsztajn L, Burke D. Postoperative infections following colorectal surgery in an english teaching hospital. Infect Dis (Lond). 2015;47:825–9.
Limón E, Shaw E, Badia JM, Piriz M, Escofet R, Gudiol F, et al. Post-discharge surgical site infections after uncomplicated elective colorectal surgery: impact and risk factors. The experience of the VINCat Program. J Hosp Infect. 2014;86:127–32.
Petrosillo N, Drapeau CMJ, Nicastri E, Martini L, Ippolito G, Moro ML, et al. Surgical site infections in Italian Hospitals: a prospective multicenter study. BMC Infect Dis. 2008;8:34.
Konishi T, Watanabe T, Kishimoto J, Nagawa H. Elective colon and rectal surgery differ in risk factors for wound infection: results of prospective surveillance. Ann Surg. 2006;244:758–63.
Morikane K, Honda H, Yamagishi T, Suzuki S, Aminaka M. Factors associated with surgical site infection in colorectal surgery: the Japan nosocomial infections surveillance. Infect Control Hosp Epidemiol. 2014;35:660–6.
Blumetti J, Luu M, Sarosi G, Hartless K, Mcfarlin J, Parker B, et al. Surgical site infections after colorectal surgery: do risk factors vary depending on the type of infection considered? Surgery. 2007;142:704–11.
Tang R, Chen HH, Wang YL, Changchien CR, Chen J-S. Risk factors for surgical site infection after elective resection of the colon and rectum : a single-center prospective study of 2, 809 consecutive patients. Ann Surg. 2001;234:181–9.
Serra-Aracil X, Espin-Basany E, Biondo S, Guirao X, Orrego C, Sitges-Serra A, et al. Surgical site infection in elective operations for colorectal cancer after the application of preventive measures. Arch Surg. 2011;146:606.
Ho VP, Stein SL, Trencheva K, Barie PS, Milsom JW, Lee SW, et al. Differing risk factors for incisional and organ/space surgical site infections following abdominal colorectal surgery. Dis Colon Rectum. 2011;54:818–25.
Frasson M, Granero-Castro P, Ramos Rodriguez JL, Flor-Lorente B, Braithwaite M, Martí Martínez E, et al. Risk factors for anastomotic leak and postoperative morbidity and mortality after elective right colectomy for cancer: results from a prospective, multicentric study of 1102 patients. Int J Colorectal Dis. 2016;31:105–14.
de Lissovoy G, Fraeman K, Hutchins V, Murphy D, Song D, Vaughn BB. Surgical site infection: incidence and impact on hospital utilization and treatment costs. Am J Infect Control. 2009;37:387–97.
Eagye KJ, Nicolau DP. Deep and organ/space infections in patients undergoing elective colorectal surgery: incidence and impact on hospital length of stay and costs. Am J Surg. 2009;198:359–67.
Aimaq R, Akopian G, Kaufman HS. Surgical site infection rates in laparoscopic versus open colorectal surgery. Am Surg. 2011;77:1290–4.
Kiran RP, El-Gazzaz H, Vogel JD, Remzi FH. Laparoscopic approach significantly reduces surgical site infections after colorectal surgery: data from national surgical quality improvement program. J Am Coll Surg. 2010;211:232–8.
Dahabreh IJ, Steele DW, Shah N, Trikalinos TA. Oral mechanical bowel preparation for colorectal surgery: systematic review and meta-analysis. Dis Colon Rectum. 2015;58:698–707.
VINCat Program. Generalitat de Catalunya. http://vincat.gencat.cat/ca/. Accessed 8 May 2016.
National Healthcare Safety Network | Centers for Disease Control and Prevention. http://www.cdc.gov/nhsn/. Accessed 8 May 2016.
Pujol M, Limón E, López-Contreras J, Sallés M, Bella F, Gudiol F. Surveillance of surgical site infections in elective colorectal surgery. Results of the VINCat program (2007–2010). Enferm Infecc Microbiol Clin. 2012;30 Suppl 3:20–5.
CDC Surgical Site Infection (SSI) Event definition. http://www.cdc.gov/nhsn/pdfs/pscmanual/9pscssicurrent.pdf. Accessed 8 May 2016.
Horan TC, Emori G, Atlanta M. Definitions of key terms used in the NNIS system. Am J Infect Control. 1997;25:112–6.
Hennessey DB, Burke JP, Ni-Dhonochu T, Shields C, Winter DC, Mealy K. Risk factors for surgical site infection following colorectal resection: a multi-institutional study. Int J Colorectal Dis. 2016;31:267–71.
Surveillance of surgical site infections in NHS hospitals in England 2015/16. https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/577418/Surgical_site_infections_NHS_hospitals_2015_to_2016.pdf.. Accessed Mar 2017.
Young H, Knepper B, Moore EE, Johnson JL, Mehler P, Price CS. Surgical site infection after colon surgery: national healthcare safety network risk factors and modeled rates compared with published risk factors and rates. J Am Coll Surg. 2012;214:852–9.
Bakker IS, Grossmann I, Henneman D, Havenga K, Wiggers T. Risk factors for anastomotic leakage and leak-related mortality after colonic cancer surgery in a nationwide audit. Br J Surg. 2014;101:424–32. discussion 432.
Fraccalvieri D, Biondo S, Saez J, Millan M, Kreisler E, Golda T, et al. Management of colorectal anastomotic leakage: differences between salvage and anastomotic takedown. Am J Surg. 2012;204:671–6.
Eskicioglu C, Nelson J, Roberts PL, Marcello PW, Read TE, Hall JF, et al. Is patient diagnosis a risk factor for organ space infection after colorectal resections? Dis Colon Rectum. 2014;57:733–9.
Morris MS, Graham LA, Chu DI, Cannon JA, Hawn MT. Oral antibiotic bowel preparation significantly reduces surgical site infection rates and readmission rates in elective colorectal surgery. Ann Surg. 2015;261:1034–40.
Englesbe MJ, Brooks L, Kubus J, Luchtefeld M, Lynch J, Senagore A, et al. A statewide assessment of surgical site infection following colectomy: the role of oral antibiotics. Ann Surg. 2010;252(3):514–9. discussion 519–20.
Scarborough JE, Mantyh CR, Sun Z, Migaly J. Combined mechanical and oral antibiotic bowel preparation reduces incisional surgical site infection and anastomotic leak rates after elective colorectal resection: an analysis of colectomy-targeted ACS NSQIP. Ann Surg. 2015;262:331–7.
Machuca I, Gutiérrez-Gutiérrez B, Pérez Cortés S, Gracia-Ahufinger I, Serrano J, Madrigal MD, et al. Oral decontamination with aminoglycosides is associated with lower risk of mortality and infections in high-risk patients colonized with colistin-resistant, KPC-producing Klebsiella pneumoniae. J Antimicrob Chemother. 2016;71:3242–9.
Bellows CF, Mills KT, Kelly TN, Gagliardi G. Combination of oral non-absorbable and intravenous antibiotics versus intravenous antibiotics alone in the prevention of surgical site infections after colorectal surgery: a meta-analysis of randomized controlled trials. Tech Coloproctol. 2011;15:385–95.
De Jonge S, Atema JJ, Gans S, Boermeester MA, Gomes SM, Solomkin JS, et al. New WHO recommendations on preoperative measures for surgical site infection prevention: an evidence-based global perspective. Lancet Infect Dis. 2016;16:e276–87.
Allegranzi B, Zayed B, Bischoff P, Kubilay NZ, de Jonge S, de Vries F, et al. New WHO recommendations on intraoperative and postoperative measures for surgical site infection prevention: an evidence-based global perspective. Lancet Infect Dis. 2016;16:e288–303.
Gervaz P, Bandiera-Clerc C, Buchs NC, Eisenring M-C, Troillet N, Perneger T, et al. Scoring system to predict the risk of surgical-site infection after colorectal resection. Br J Surg. 2012;99:589–95.
Watanabe M, Suzuki H, Nomura S, Hanawa H, Chihara N, Mizutani S, et al. Performance assessment of the risk index category for surgical site infection after colorectal surgery. Surg Infect (Larchmt). 2015;16:84–9.
Kwaan MR, Melton GB, Madoff RD, Chipman JG. Abdominoperineal resection, pelvic exenteration, and additional organ resection increase the risk of surgical site infection after elective colorectal surgery: An American College of Surgeons National Surgical Quality Improvement Program Analysis. Surg Infect (Larchmt). 2015;16:675–83.
We want to thanks the other collaborators at Hospital Universitari de Bellvitge, Doménico Fraccavieri, Rosa Escofet, at Corporació Sanitària Parc Taulí, Xavier Serra-Aracil, Marta Piriz, at Parc Sanitari Sant Joan de Déu de Sant Boi, Vicens Diaz-Brito, Encarna Moreno, at Hospital Universitari Sant Joan de Reus, Antoni Castro, Simona Iftimie, at Consorci Sanitari de Terrassa, Elena Espejo, Lurdes Pagespetit, at Consorci Sanitari de l’Anoia, Montse Brugués, at Fundació Althaia, Fina Obradors, at Hospital de Viladecans, Ana Lérida, Camilo Sanz, at Fundació Privada Hospital Asil de Granollers, Jordi Cuquet, Nares Arroyo and at Hospital Universitari Mútua de Terrassa, Albert Navarro, Núria Freixas.
Writing assistance was provided by the Department of Languages in the Faculty of Medicine of Barcelona University.
No specific grant was received for this research from funding agencies in the public, commercial, or not-for-profit sectors.
Availability of data and materials
The datasets used and/or analysed during the current study available from the corresponding author on reasonable request.
AG and MP conceived and designed the study, AG analyzed and interpreted the patient data regarding surgical site infections after colon and rectal surgery. AG, JC and MP were major contributors in writing the manuscript. All authors read and approved the final manuscript.
The authors declare that they have no competing interests.
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This study was approved by the Ethics Committee at Hospital Universitari de Bellvitge (reference: PR305/15).
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Gomila, A., Carratalà, J., Camprubí, D. et al. Risk factors and outcomes of organ-space surgical site infections after elective colon and rectal surgery. Antimicrob Resist Infect Control 6, 40 (2017). https://0-doi-org.brum.beds.ac.uk/10.1186/s13756-017-0198-8
- Surgical site infections
- Organ-space surgical site infections
- Colorectal surgery