View clinical trials related to Surgical Site Infection.
Filter by:The goal of this individual patient data meta-analysis is to estimate the attributed and the associated health burden related to bloodstream infections, pneumonia, skin and soft tissue infections, surgical site infections and urinary tract infections, caused by target drug-resistant pathogens, in high income countries. The main question[s] it aims to answer are: - Are common infections caused by drug-resistant pathogens associated with an increased health burden, when compared with individuals with the same infection caused by a susceptible strain (attributed burden)? - Are common infections caused by drug-resistant pathogens associated with an increase health burden, when compared with individuals without the infection under study (associated burden)?
Surgical site infection (SSI) is one of main complication in surgery. It usually occurs within 30 days post operation. The superficial SSI is an infection of skin and subcutaneous layer, clinically presented by pus oozing. Furthermore, seroma hematoma and wound dehiscence are also clinical signs of superficial SSI. Nowadays, there are studies which report methods reducing SSI by placing negative pressure drain within surgical wound. It can reduce serum in subcutaneous layer which is found in every surgical wound, especially in clean-contaminated and contaminated wound. Many studies show that placing negative pressure drainage within a surgical wound can reduce superficial SSI and decrease hospital length of stay by comparing with the control group. The objective in this study to compare the rate of SSI of clean-contaminated and contaminated surgical wounds between the patients whose wounds are placed with negative pressure drainage and patients who were not placed with negative pressure drainage.
Surgical site infection (SSI) is the second cause of healthcare-associated infections (HAIs). Its appearance increase mobidity and post-operatice hospital stays, increasing costs aswell, although its one of the most preventable HAI. The diagnosis and detection of SSI is usually carried out late by non-especialists once the patient has consulted to the emergency services or primary care with an already obvious infections. This raise both the direct and indirect costs and saturaties the emergency department and primary care, while delays treatment and increase disconfort and morbidity. A smart phone aplication (RedScar© ) was developped in order to detect and monitor wound infection remotely based on an automated algorithm with no medical intervention.This app allows the patient to upload a photography and answer a short questionary, the aplication will then give a diagnosis of possible infection and recommendations. This study is the first one to use a smartphone-based automatic aplication on real patients to diagnosis wound infection . This is a prospective, single-institution not randomized quasy-experimental study protocol. The study design and protocol were reviewed and approved by Research Ethics Committee of the Balearic Islands (CEI-IB). This paper is part of the R+D+i Project PID2020-113870GB-I00- "Desarrollo de herramientas de Soft Computing para la Ayuda al Diagnóstico Clínico y a la Gestión de Emergencias (HESOCODICE)", funded by MCIN/AEI/10.13039/501100011033/.
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.
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.
In this study, patients undergoing ear surgery (cochlear implantation, stapedotomy, tympanoplasty) will be randomized to one of two antibiotic treatment groups. One group will receive a single treatment with an antibiotic at induction The other group will receive the single intravenous treatment, plus a one week course or oral antibiotic
Prior studies investigating the etiopathogenesis of surgical site infection (SSI) traditionally suggested three main ways for the infection to occur: local contamination occurring during the surgery, hematogenous translocation of bacteria during concomitant bacteraemia, and contamination from adjacent infected tissues by the progression of the infective process. While most of the research on SSI focused on minimizing any source of pathogens at the time of the surgery, emerging evidence shows how acute and chronic SSI can emerge more often from bacteraemia or other tissues in the body, such as the gastrointestinal system, especially when dysbiosis and high permeability are retrieved. Intercellular tight junctions (TJs) tightly regulate paracellular antigen trafficking. TJs are extremely dynamic structures that operate in several critical functions of the intestinal epithelium under both physiological and pathological circumstances. This paradigm was subverted in 1993 by the discovery of zonula occludens 1 (ZO-1) as the first component of the TJ complex 11 now being comprised of more than 150 proteins, including occludin, claudins, junctional adhesion molecules (JAMs), tricellulin , and angulins . However, despite major progress in our knowledge on the composition and function of the intercellular TJ, the mechanisms by which they are regulated are still incompletely understood. One of the breakthroughs in understanding the role of gut permeability in health and disease has been the discovery of zonulin, and the only physiologic intestinal permeability modulator described so far. Since then, zonulin has been used as a marker for increased intestinal permeability and associated with soluble CD14 (sCD14) and lipopolysaccharide (LPS), other common markers associated with surgical complication, inflammation, and bacterial translocations. As such, Zonulin could be a biomarker for mid- and long-term complications after total joint replacement such as infection, loosening, and mechanical complications associated with painful symptomatology.
Negative pressure wound dressings have been studied and shown to have applications in decreasing rates of surgical wound infections. This study studies the effect of a low cost needle-aspirated negative pressure compression dressing on rates of wound infection at prior ostomy site in patients undergoing ostomy reversal surgery.
Despite the wide variety of products and antiseptic agents, no agent is ideal for every situation. The investigators would like to evaluate the difference in reducing bacterial load, using 4% chlorhexidine digluconate and 3% parachlorometaxylenol after a preoperative surgical scrubbing.