View clinical trials related to Wound Heal.
Filter by:The aim of this study is to evaluate the efficacy and safety of a hydrogen carbamide/peroxide mouthwash, named UNISEPT® MOUTHWASH, regarding oral wound healing, postoperative symptoms, xerostomia (dry mouth) and oral hygiene improvement. Study participants have reported dry mouth and are scheduled for a diagnostic biopsy of minor labial salivary glands to investigate Sjögren's Syndrome, following consultation with their rheumatologist. This is a standardized diagnostic procedure that leads to healing by primary intention (i.e. wound edges are closely re-approximated with sutures). Researchers are comparing this mouthwash with a placebo (a look-and-taste-alike substance that contains no active ingredients) to see if it is helpful with healing of wounds in the mouth and associated symptoms, improving dry mouth and/or oral hygiene. Participants randomly get the hydrogen carbamide/peroxide mouthwash or the placebo one to use for 14 days after the biopsy. The investigators will not know which one they are providing as the bottles will be identical. Oral wound healing, postoperative symptoms (such as pain, eating and speech difficulties), oral hygiene (dental plaque and gingival inflammation), improvement of dry mouth and quality of life are assessed during a 14-day period after the biopsy. Participants are required to visit the clinic three times, one for the initial consultation and the biopsy, one at 7 days and one at 14 days after the biopsy. They are asked to fill in some questionnaires, while certain procedures (such as measuring saliva) and assessments (like evaluating the dental plaque and gingival inflammation) take place. During the first week they, also, keep a diary of their symptoms, as instructed.
This is a multi-center, pragmatic, parallel arm randomized controlled trial (RCT) of 352 patients with high-risk open or closed tibial plateau fracture, high-risk open or closed tibial pilon fracture, or open tibial shaft fracture with incision >3cm. Eligible participants will be randomized to receive either incisional negative pressure wound therapy (NPWT) or a non-suction standard-of-care wound dressing for their definitive wound management. The primary outcome will be a composite outcome to evaluate clinical status 3 months after randomization. The secondary outcomes will independently assess the components of the primary outcome.
Many patients suffer from chronic non-healing wounds as well as acute wounds. There is a need to develop treatments to accelerate and improve healing of chronic and acute wounds. More research is needed to evaluate the role of 4-aminopyridine (4-AP), a promising new agent with an excellent safety profile, on wound healing. The investigational treatment will be used to evaluate the role of (4-AP) on the treatment of wounds to accelerate wound healing in healthy adults. The purpose of this study is to evaluate the role of 4-AP on the treatment of wounds to accelerate healing. The investigational treatment will be used to test the hypothesis that 4-AP can speed wound healing.
The goal of this pilot study is to describe the early wound healing molecular events and the vascularization pattern associated with the treatment of supra-bony defects with access flap alone or in association with a combined formulation of hyaluronic acid and polydeoxyribonucleotides gel.
To evaluate the effect of PRP on wound healing in high risk patients undergoing abdominal hysterectomy.
This study aims to investigate the effectiveness of an optimized care management protocol for refractory postoperative wounds based on the TIME CDST tool. Through a randomized controlled trial approach, the investigators will conduct a rigorous comparative analysis of the experimental group and the control group. The intervention group will receive an intervention plan based on the TIME CDST tool led by wound specialist nurses at each dressing change, while the control group receive a routine wound care program of wound cleaning and dressing changes at each dressing change. The main research objective is to evaluate the superiority of the experimental group compared with the control group in terms of wound healing time, healing quality, and patient satisfaction. Through the implementation of this study, the investigators expect to provide an effective optimization scheme for the management of refractory postoperative wounds in clinical practice, thereby improving patient outcomes and quality of life.
The goal of this observational study is to evaluate the post-extraction hard and soft tissue dimension changes in patients requiring consecutive extractions and unassisted socket healing in the anterior maxilla. The main questions it aims to answer are: - Is significant alveolar ridge resorption observed at center sites after consecutive extractions - Is significant alveolar ridge resorption observed at the interalveolar septum after consecutive extractions, are different extraction sites associated with significantly different bone resorption - Is a thick or thin wall phenotype associated with the amount of bone resorption - Is soft tissue thickness change associated with the corresponding location (extraction site or interalveolar septum) and post-extraction thickness of the bone - Is the interdental papilla height significantly affected after extractions. Participants will undergo consecutive (two) extractions and will be evaluated after subsequent unassisted socket healing for 8 weeks.
By randomly assigning study subjects into groups, interventions with adipose tissue-derived extracellular vesicles (AT-EVs) and placebos are conducted to evaluate whether AT-EVs can promote effective healing of recalcitrant wounds.
The purpose of this study is to determine the efficacy of a novel decellularized dermal matrix (DDM) DermGEN™ for the treatment of diabetic foot ulcers (DFU). Despite several advances in wound treatments, hard-to-heal wounds, such as diabetic foot ulcer, still require 12 to 16 weeks to achieve complete closure. Although the focus of most research into wound-healing treatments has been on moisture and bacterial control, new approaches that target the instability of the extracellular matrix (ECM) in a wound are timely and much needed, particularly for hard-to-heal wounds such as DFUs. Innovative technologies that provide ECM interactions halt the chronic inflammatory cycle and stimulate cells that allow for tissue regeneration and wound healing. DermGEN™ is a human dermal allograft that has been minimally processed from human skin to remove epidermal and dermal cells while preserving the structure and intrinsic properties of the natural extracellular matrix of the dermis. This has potential to facilitate a shorter wound-healing time.
To evaluate the safety and efficacy of realSKIN® to provide complete wound closure of mixed-depth, full-thickness burn wounds as an alternative treatment to autografting.