View clinical trials related to Wounds and Injuries.
Filter by:The aim of this study is to assess the prevention of incision healing complications in patients undergoing revision TKA and THA treated with either Single-Use NPWT (PICO) compared to standard of care dressings (AQUACEL Ag Surgical Dressing). All patients undergoing a revision TKA and THA who consent to taking part in the study, and meet the eligibility criteria will be included onto the study. Patients will be followed up for a period of up to 3 months to determine if there are any latent incision healing complications
1. The wound healing time of STSG donor sites which are treated with the novel biocellulose wound dressing containing silk sericin and PHMB should be less or equal to Bactigras®. 2. The wound quality of STSG donor sites which are treated with the novel biocellulose wound dressing containing silk sericin and PHMB should be less or equal to Bactigras®. 3. The amounts of STSG donor site infection which are treated with the novel biocellulose wound dressing containing silk sericin and PHMB should not be more than Bactigras®. 4. The pain level of STSG donor sites which are treated with the novel biocellulose wound dressing containing silk sericin and PHMB should be less or equal to Bactigras®. 5. Adverse events which are occurred from the novel biocellulose wound dressing containing silk sericin and PHMB treatment for STSG donor sites and Bactigras® will be reported, if they occur.
82 patients aged 18-49 years with an isolated focal cartilage defect in the knee will be randomized to either receive autologous cartilage implantation or arthroscopic debridement. Both groups will then undergo a systematic physiotherapy training regime for 6-9 months. The Groups will then be compared for results, after 3, 6, 12 and 24 months, by using validated patient reported outcome scores (Lysholm, KOOS, Tegner) and EQ5D (European Quality of Life 5 dimensions) as well as clinical examination and radiological findings at 2 years (MRI).
This clinical study will be a prospective, placebo-controlled, double-blind, randomized and centrally evaluated intra-individual comparative study to assess the safety and efficacy of AR/101 concomitantly administered with Standard of Care (SoC) in accelerating re epithelialization of split thickness wounds compared with placebo and concomitantly with SoC, in the pannus of volunteers undergoing elective abdominoplasty.
This study will assess the benefits of using mobile health system designed for individuals with chronic and complex health conditions (such as those with Spinal Cord Injury,Cerebral Palsy, Spina Bifida, and Traumatic Brain Injury) to improve their wellness and self-management skills compared to those who receive standard of care only.
Traumatic injury is a leading cause of morbidity and mortality in young adults, and remains a substantial economic and health care burden. Despite decades of promising preclinical and clinical investigations in trauma, investigators understanding of these entities is still incomplete, and few therapies have shown success. During severe trauma, bone marrow granulocyte stores are rapidly released into the peripheral circulation. This release subsequently induces the expansion and repopulation of empty or evacuated space by hematopoietic stem cells (HSCs). Although the patient experiences an early loss of bone marrow myeloid-derived cells, stem cell expansion is largely skewed towards the repopulation of the myeloid lineage/compartment. The hypothesis is that this 'emergency myelopoiesis' is critical for the survival of the severely traumatized and further, failure of the emergency myelopoietic response is associated with global immunosuppression and susceptibility to secondary infection. Also, identifying the release of myeloid derived suppressor cells (MDSCs) in the circulation of human severe trauma subjects. This process is driven by HSCs in the bone marrow of trauma subjects. Additionally, MDSCs may have a profound effect on the nutritional status of the host. The appearance of these MDSCs after trauma is associated with a loss of muscle tissue in these subjects. This muscle loss and possible increased catabolism have huge effects on long term outcomes for these subjects. It is the investigator's goal to understand the differences that occur in these in HSCs and muscle cells as opposed to non-injured and non-infected controls. This work will lead to a better understanding of the myelopoietic and catabolic response following trauma.
The purpose of this study is to analyze the safety and efficacy of autologous bone marrow mesenchymal stem cell transplantation in patients with cervical chronic and complete spinal cord injury.
This observational study includes patients undergoing major non-cardiac surgery, and screens them for the occurrence of perioperative myocardial injuries (PMI). Incidence, patient characteristics, pathophysiology, potential prevention and therapy strategies and 1-year outcomes of PMI will be described.
The study is designed to assess the safety and efficacy of functional neural regeneration collagen scaffold transplanted into acute spinal cord injury patients.
Assessment of the evolution of fibrinogen plasma level within the first ten days after major trauma in order to determine prevalence of hyperfibrinogenemia (Fg > 4 g/L) and its time to onset.