View clinical trials related to Surgical Site Infection.
Filter by:A Randomized controlled trail to To assess the efficacy of povidone-iodine wash before wound closure in preventing surgical site infections.
This is a implementation research study of a surgical wound tele-monitoring online tool developed at the University of Edinburgh and demonstrated in the "Tracking wound infection with smartphone technology" (TWIST) randomised control trial (NCT02704897) conducted in NHS Lothian. The study design is based on the Medical Research Council (MRC) "Guidance for developing and evaluating complex interventions".
The study will examine the effect of using Negative Pressure Wound Therapy (NPWT) compared with standard wound dressing among patients undergoing elective open surgery for incisional hernia. The study's main hypothesis is that NPWT will decrease the post-operative incidence of surgical site infections and also improve the patients' quality of life including less scar-related pain and higher cosmetic satisfaction.
Sternal Wound Infection (SWI) in open heart surgery is one of the most annoying and avoidable complications that one encounters during work. Investigators investigate the rates of sternal wound infection (SWI) in patients in whom were used locking compression plates (LCP) versus in patients in whom were used wires to fixate the sternum for variable causes. SWI increases the overall cost and burden in the medical service and increases the patients suffering and disability. investigators aim to provide our patients with the most suitable means for sternal fixation.
The aim of the study is to evaluate the gut microbiome (i.e. bacteria, viruses, and fungi that reside in the gut) of people undergoing abdominal surgery, evaluate whether specific diets can change the gut microbiome, and, if so, whether those changes translate into better surgical outcomes.
Evaluating the effectiveness of the existing 'linear suture + wound drain placement' and 'purse-string suture + negative pressure wound therapy' through a prospective comparative study
The purpose of the study is to study the incidence of surgical site infection when patients are given local versus parenteral antibiotics
The goal of open extremity fracture (OEF) treatment is to promote fracture healing and restore function while preventing the development of infection. This is achieved through systematic and timely wound debridement and irrigation, fracture stabilization, tetanus prophylaxis, systemic and local antimicrobial therapy, and judicious timing of wound closure based on cleanliness. Early prophylactic systemic antibiotics lower infection rates in open fractures but have limitations of achieving adequate concentration at the hypoperfused wound area. OEF wounds are frequently poor in vasculature secondary to the soft tissue injury, hence adequate concentration of antibiotic cannot permeate to the tissue at risk. If systemic antibiotic concentrations are increased to achieve minimum inhibitory concentration (MIC) for pathogens at the wound, there is heightened concern for systemic drug toxicity. In sharp contrast, locally administered antibiotics achieve high drug concentration directly within the wound cavity with minimal systemic side effects. Local antibiotic therapy has shown to reduce rates of open fracture wound infection. With the serious implications of postoperative infections in OEF, it is imperative that all measures including further use of prophylactic local antibiotics be considered to prevent fracture-related infection (FRI). The overarching hypothesis for this project is that a novel synergistic combination of local aqueous tobramycin plus perioperative weight-based IV cephalosporin antibiotic prophylaxis will reduce the rate of FRI one year after OEF surgery. This in turn will improve OEF patient outcomes, decreasing morbidity and return to the operating room (OR) without any adverse effect on fracture healing. Regardless of the treatment group, bacterial speciation will be determined for patients that do develop FRI to help guide future treatment. The goal is to improve the clinical outcome and recovery of the population that sustains an OEF by decreasing the rate of FRI and fracture nonunions while concurrently educating on bacterial speciation and resistance.
The goal of this study is to test a new way to diagnose and track treatment of spine infections caused by the bacteria Staphylococcus aureus.
The purpose of this study is to assess the feasibility of using a mobile application (app) called how2trak to improve people's experience, wound surveillance, and detection of surgical site infections (SSI) after colorectal surgery while reducing in-person interactions for patients during the COVID-19 pandemic. This will inform the implementation of a full-scale trial to establish if surveillance of someone's incision and symptoms using how2trak improves SSI detection and management compared to standard care (involving a single post-operative surgery clinic visit). The data collected will contribute to a broader dataset of people with SSI surveillance to be used in developing a clinical decision support system.