View clinical trials related to Soft Tissue Injuries.
Filter by:In addition to the well-known toxicological harms of intravenous drug (IVD) use, there can also be local tissue complications, including infections, venous sclerosis, tissue necrosis, and drug needle fragment retentions. Drug needle fragments in subcutaneous tissue may cause local symptoms (usually pain and infections), but they have also been identified as causing emboli to organs. The literature has described numerous case reports of people who inject drugs (PWIDs) and have retained needle fragments. The prevalence of the condition is not known, and the researchers therefore aim to perform the first cross-sectional study of PWIDs to estimate how common needle fragment retentions are and what their risk factors are in this population.
Postoperative bone infection is a severe complication in the treatment of fractures and is more frequent than in elective joint replacement surgeries. Surgical treatment is based on meticulous debridement of bone and soft tissue, dead space management, soft tissue reconstruction when necessary, and restoration of bony stability in the non-union fracture. In addition, local antibiotic therapy is recommended in certain circumstances. This study aims to evaluate the results of surgical treatment of fracture-related infection in Latin America.
A multi-center, prospective, open-label, controlled study of the pharmacokinetics and safety of the LicartTM topical system in pediatric and adult participants with minor soft tissue injuries. 150 male and female participants aged 6-16 and 18-45 with soft tissue injuries meeting the following criteria will be enrolled to evaluate the pharmacokinetics and safety of the Licart topical system in pediatric and adult participants with minor soft tissue injuries over a 14-day treatment course. The analgesic effects will also be evaluated of the topical system in pediatric and adult participants with minor soft tissue injuries over a 14-day treatment course. To collect principal investigator-reported global response to therapy.
Although other methods (e.g., autologous fat transfer, dermal-/collagen-based fillers) for soft tissue reconstruction exist, each has distinct disadvantages leaving room for improvement in this treatment area. Investigators in the Elisseeff Laboratory (Johns Hopkins University Department of Biomedical Engineering) have recently generated a novel tissue-derived material to create instructive matrices for soft tissue reconstruction called Acellular Adipose Tissue (AAT). This material takes advantage of the inherent bioactivity and unique mechanical properties of subcutaneous adipose tissue. Investigators' preclinical data suggest that AAT is safe for use in small and large animals; investigators' clinical (Phase I) data suggest that AAT is safe for use in humans. These data indicate that a Phase II, dose-escalation study of AAT's safety and efficacy in human subjects is warranted.
Extremity wounds with exposed critical structures, including bone and tendon are a major burden on the American healthcare system with limited treatment options. Free Flap reconstructions of lower extremity wounds have an increased failure rate in comparison to elective free flap procedures.These procedures are long and are associated with a high cost of care, prolonged hospital stays, and are limited by the need for surgical specialist availability and patient vessels suitable for anastomoses. This study will use a new treatment modality which is a commercially ready human amniotic membrane allograft (EpiFix) to promote a granulation tissue wound base that will be suitable for skin grafting, thus forgoing the need for a flap-based for reconstruction. The study goals are to reduce the overall cost of providing definitive treatment by decreasing operative time, length of hospital stay, decrease the need for intensive nursing care and rehabilitation. This study will aim to provide a treatment option that is readily accessible to all patients with these complex wounds in any healthcare setting across the country.
The purpose of this study is to measure the mechanical properties of healing Achilles tendons in humans after early controlled weightbearing, compared with a control group in a randomized, single-blinded trial. The mechanical properties are measured using radiostereophotogrammetic x-rays (RSA). Hypothesis: Early weightbearing improves mechanical properties of the healing Achilles tendon.
The purpose of this study is to determine if adding shock wave therapy to standard-of-care wound treatment for traumatic extremity wounds helps them heal faster.