View clinical trials related to Soft Tissue Infections.
Filter by:Severe necrotizing soft tissue infection (NSTI), including necrotizing fasciitis, is a life threatening infection that spreads quickly to cutis, sub-cutis, fasciae and muscles. Approximately 40% of all patients with infections caused by S. Pyogenes develop a streptococcal toxic-shock syndrome. In these cases the mortality rates exceed 40% in spite of adequate treatment with antimicrobials. Due to the rapid progress, the extensive damage on soft tissues and high risk of death, the microbes are called "flesh-eating bacteria". The present study is a spin-off of the larger EU funded INFECT study, looking at the experiences of patient and family to understand the impact on every day life. The present prospective mixed methods study has the potential to provide important knowledge regarding the occurrence of early signs and symptoms of NSTI, quality of life 6 and 24 months after diagnosis, and how the care and treatment can be optimized and organized in a person/patient and family centered way. The study also aims at validate the SF 36 questionnaire for this group of patients.
Treatment of infections in critically ill patients remains a significant challenge to intensivists world-wide with persisting high mortality and morbidity. Compelling evidence suggests that source control of the pathogen and appropriate antibiotic therapy remain the most important interventions to improve patients' outcome, the latter including the administration of a suitable molecule at an optimized dosage regimen. Daptomycin is the first representative of a new family of antibiotics, the cyclic lipopeptides. Its bactericidal effect against Gram-positive bacteria, including meticillin-resistant strains, and its low renal toxicity, make it a useful antibiotic in critically ill patients having infections due to resistant Gram positive strains. Unfortunately, no PK study has been performed in infected critically ill patients without renal replacement therapy. A vast array of pathophysiological changes can occur in infected critically ill patients, leading to changes in volume of distribution and clearance of antibiotics in these patients, which may affect the antibiotic concentration at the target site. It is therefore important to better characterize daptomycin PK in infected patients with various degrees of renal failure in order to define optimal dosing regimens. This project aims to identify optimal daptomycin administration schemes in critical care patients with various degrees of renal impairment
The purpose of this study is to estimate the effect of intravenous polyspecific immunoglobulin G (IVIG) compared with placebo (saline) on the patient-reported outcome measure Physical Component Summary Score (PCS) of the SF-36 in patients with necrotizing soft tissue infections (NSTI).
To examine the effect of Point-of-Care Ultrasound (POCUS) management guidance on pediatric skin and soft tissue infections treatment failure rate, as well as emergency department process outcome.
At present research has generated controversy regarding the utility of antiseptics in wound management for diabetic foot ulcers syndrome. However, these studies have been done in tissues and animal models. This study involves the best presently antiseptic for residual effect and low toxicity in an approach to eliminate microorganisms promoters formation of biofilm, contributing to the treatment for accelerated closure the diabetic foot ulcers syndrome . So it is necessary to determine if irrigation ulcer diabetic foot syndrome with chlorhexidine 0.125 % aqueous solution determines the decrease of the surface to a greater extent than the standard treatment using irrigation with sterile deionized water .
Hypothesis: We hypothesize that RNAseq will allow us to learn more about the causative agents of necrotizing soft tissue infections (NSTI) and risk factors involved in acquiring these devastating infections Tissue biopsies will be obtained from consented patients admitted with NSTI. Biopsies will be used for standard clinical analysis of bacterial species present or stored for later RNA sequencing. RNA sequencing will identify bacteria that are present within the infection site that may not be detected using standard culture techniques as well as reveal bacterial gene expression profiles within the NSTI site. Medical charts will also be reviewed for basic patient information as well as wound care management practices. We hope to identify bacterial species commonly present in these types of infections as well as risk factors predisposing individuals to NSTI's.
The purpose of this study is to evaluate the effects of Delafloxacin versus Vancomycin plus Aztreonam in the treatment of patients with acute bacterial skin and soft tissue infections.
The aim of this study is to see the efficacy and safety of BAY1192631 in Japanese patients with methicillin-resistant staphylococcus aureus (MRSA) (skin and soft tissue infections (SSTI) and SSTI-related bacteremia).
This proposal focuses on highly lethal destructive tissue infections, i.e. necrotizing fasciitis and other necrotizing soft tissue infections (NSTIs), which are associated with high morbidity and mortality. The fulminant course of NSTIs demands immediate diagnosis and adequate interventions in order to salvage lives and limbs. However, diagnosis and management are difficult due to heterogeneity in clinical presentation, in co-morbidities and in microbiological aetiology. Thus, there is an urgent need for novel diagnostics and therapeutics in order to improve outcome of NSTIs. A comprehensive knowledge of diagnostic features, causative microbial agent, treatment strategies, and pathogenic mechanisms (host and bacterial disease traits and their underlying interaction network) is required for an improved diagnosis and management of NSTIs. The current proposal is designed to obtain such insights through an integrated systems biology approach in patients and experimental models. The project is based on a prospective NSTI patients cohort including a clinical registry to document clinical data and treatment strategies, combined with an isolate and biobank collection. The samples will be analyzed through advanced bioinformatics and computational modelling work flow to identify and quantify pathogen signatures and underlying networks that contribute to disease outcome. One aim is to translate clinical and systems biology data into development of novel diagnostics.
Objectives: This study aims to characterize severe skin and soft tissue infections (SSTIs) in the emergency department through the acquisition of ultrasound images. A wide range of SSTIs will be imaged and recorded, leading to a registry of these infections. The registry will show whether ED (emergency department) sonographers can accurately characterize these infections, as compared to the final hospital diagnosis. The registry will also provide data for a case-control study comparing ultrasonographic characteristics of necrotizing skin and soft tissue infections (NSTIs) to those of non-necrotizing SSTIs. Research procedures: In this study, the investigators will approach patients who present to the Emergency Department with a possible skin and/or tissue infection. Study subjects must be ED patients requiring admission to the hospital for the primary problem of an SSTI due to the need for follow-up. If the patient consents to participating in the study, the investigator will obtain and record an ultrasound image of the infected area. An ultrasound image of an uninfected area of skin will also be recorded for comparison. Patient information regarding personal history, physical examination, blood tests and x-rays will also be gathered from participants.