Triclosan-coated barbed sutures in elective laparoscopic colorectal cancer surgery: a propensity score matched cohort study

[1]  J. Hudson,et al.  Reducing surgical site infection rates in colorectal surgery – a quality improvement approach to implementing a comprehensive bundle , 2021, Colorectal disease : the official journal of the Association of Coloproctology of Great Britain and Ireland.

[2]  E. Lermite,et al.  The Socioeconomic Impact of Surgical Site Infections , 2021, Frontiers in Public Health.

[3]  S. Johnston,et al.  Real-World Outcomes of Patients Undergoing Open Colorectal Surgery with Wound Closure Incorporating Triclosan-Coated Barbed Sutures: A Multi-Institution, Retrospective Database Study , 2021, Medical devices.

[4]  Zhaohui Xu,et al.  Update on risk factors of surgical site infection in colorectal cancer: a systematic review and meta-analysis , 2020, International Journal of Colorectal Disease.

[5]  S. Chevret,et al.  Performance of propensity score matching to estimate causal effects in small samples , 2020, Statistical methods in medical research.

[6]  J. Ruiz-Tovar,et al.  Incisional Surgical Site Infection after Abdominal Fascial Closure with Triclosan-Coated Barbed Suture vs Triclosan-Coated Polydioxanone Loop Suture vs Polydioxanone Loop Suture in Emergent Abdominal Surgery: A Randomized Clinical Trial. , 2020, Journal of the American College of Surgeons.

[7]  E. Dickenson,et al.  The use of triclosan-coated sutures to prevent surgical site infections: a systematic review and meta-analysis of the literature , 2019, BMJ Open.

[8]  J. Huh,et al.  Oncological outcome of surgical site infection after colorectal cancer surgery , 2018, International Journal of Colorectal Disease.

[9]  Ó. Peñuelas,et al.  Analysis of causality from observational studies and its application in clinical research in Intensive Care Medicine. , 2018, Medicina intensiva.

[10]  V. Ozben,et al.  An Effective Bundled Approach Reduces Surgical Site Infections in a High-Outlier Colorectal Unit , 2017, Diseases of the colon and rectum.

[11]  A. Muriel,et al.  Analysis of causality from observational studies and its application in clinical research in Intensive Care Medicine , 2018, Medicina Intensiva (English Edition).

[12]  M. Boermeester,et al.  Meta‐analysis and trial sequential analysis of triclosan‐coated sutures for the prevention of surgical‐site infection , 2017, The British journal of surgery.

[13]  E. P. Dellinger,et al.  American College of Surgeons and Surgical Infection Society: Surgical Site Infection Guidelines, 2016 Update. , 2017, Journal of the American College of Surgeons.

[14]  Mohamed Abbas,et al.  Surgical site infections 2 New WHO recommendations on intraoperative and postoperative measures for surgical site infection prevention: an evidence-based global perspective , 2016 .

[15]  M. Boermeester,et al.  Global Guidelines for the Prevention of Surgical Site Infection , 2016 .

[16]  L. Gianotti,et al.  Systematic review and meta-analysis of sutures coated with triclosan for the prevention of surgical site infection after elective colorectal surgery according to the PRISMA statement , 2016, Medicine.

[17]  Lequn Li,et al.  Efficacy of triclosan-coated sutures for reducing risk of surgical site infection in adults: a meta-analysis of randomized clinical trials. , 2016, The Journal of surgical research.

[18]  L. Gianotti,et al.  Multi-Center Randomized Controlled Trial on the Effect of Triclosan-Coated Sutures on Surgical Site Infection after Colorectal Surgery. , 2015, Surgical infections.

[19]  M. Kuchibhatla,et al.  The preventive surgical site infection bundle in colorectal surgery: an effective approach to surgical site infection reduction and health care cost savings. , 2014, JAMA surgery.

[20]  M. Büchler,et al.  Effectiveness of triclosan-coated PDS Plus versus uncoated PDS II sutures for prevention of surgical site infection after abdominal wall closure: the randomised controlled PROUD trial , 2014, The Lancet.

[21]  C. Edmiston,et al.  Is there an evidence-based argument for embracing an antimicrobial (triclosan)-coated suture technology to reduce the risk for surgical-site infections? A meta-analysis. , 2014, Surgery.

[22]  M. Schilling,et al.  Surgical-site infection after abdominal wall closure with triclosan-impregnated polydioxanone sutures: results of a randomized clinical pathway facilitated trial (NCT00998907). , 2013, Surgery.

[23]  T. Noji,et al.  Triclosan-coated sutures reduce the incidence of wound infections and the costs after colorectal surgery: a randomized controlled trial. , 2013, Surgery.

[24]  Mingxiang Li,et al.  Using the Propensity Score Method to Estimate Causal Effects , 2013 .

[25]  Z. Wang,et al.  Systematic review and meta‐analysis of triclosan‐coated sutures for the prevention of surgical‐site infection , 2013, The British journal of surgery.

[26]  F. Gudiol,et al.  Surveillance of surgical site infections in elective colorectal surgery. Results of the VINCat Program (2007-2010). , 2012, Enfermedades infecciosas y microbiologia clinica.

[27]  Õ. Horváth,et al.  Surgical site infections after abdominal closure in colorectal surgery using triclosan-coated absorbable suture (PDS Plus) vs. uncoated sutures (PDS II): a randomized multicenter study. , 2011, Surgical infections.

[28]  H. Kaufman,et al.  Surgical Site Infection Rates in Laparoscopic Versus Open Colorectal Surgery , 2011, The American surgeon.

[29]  V. Adam,et al.  Efficacy of antimicrobial triclosan-coated polyglactin 910 (Vicryl* Plus) suture for closure of the abdominal wall after colorectal surgery. , 2011, Collegium antropologicum.

[30]  F. Remzi,et al.  Laparoscopic approach significantly reduces surgical site infections after colorectal surgery: data from national surgical quality improvement program. , 2010, Journal of the American College of Surgeons.

[31]  S. Stain,et al.  The Effect of Diabetes Mellitus on Surgical Site Infections after Colorectal and Noncolorectal General Surgical Operations , 2010, The American surgeon.

[32]  C. Gatzen,et al.  Surgical site infection rate is lower in laparoscopic than open colorectal surgery , 2010, Colorectal disease : the official journal of the Association of Coloproctology of Great Britain and Ireland.

[33]  F. V. van Tiel,et al.  Surgical site infections: how high are the costs? , 2009, The Journal of hospital infection.

[34]  H. Stöltzing,et al.  Current practice of abdominal wall closure in elective surgery – Is there any consensus? , 2009, BMC surgery.

[35]  S. Rothenburger,et al.  In vivo and in vitro antibacterial efficacy of PDS plus (polidioxanone with triclosan) suture. , 2008, Surgical infections.

[36]  Rajeev Dehejia,et al.  Propensity Score-Matching Methods for Nonexperimental Causal Studies , 2002, Review of Economics and Statistics.

[37]  Donald Rubin,et al.  Estimating Causal Effects from Large Data Sets Using Propensity Scores , 1997, Annals of Internal Medicine.

[38]  J. Costerton,et al.  Bacterial colonization of percutaneous sutures. , 1985, Surgery.

[39]  D. Rubin,et al.  The central role of the propensity score in observational studies for causal effects , 1983 .