View clinical trials related to Finger Injuries.
Filter by:Comparing outcomes of individuals treated with Kinesiotape and oval 8 versus quick cast for a conservatively managed mallet finger injury. Outcomes include DIP joint extension lag, patient satisfaction and function via the MHQ.
Reconstruction of soft-tissue defects in multiple digits poses a significant challenge. This article reports simultaneous reconstruction of multiple small-to-moderate soft-tissue defects using regional dorsal digital island flaps and evaluated the efficacy of their application in such complex situation. A retrospective study will be conducted with 26 patients who had multiple-digit soft-tissue defects treated with regional dorsal digital island flaps. At the final follow-up, we will evaluate the efficacy of their application in such complex situation.
This study aims to compare conservative treatment versus a new suture anchor technique for bony mallet finger in 29 patients.
Amputation injuries of the fingertip are common in all ages. For decades it is known that conservatively treated fingertips can regenerate skin and soft tissues to form a functionally and cosmetically excellent new fingertip. Unfortunately, little is known about the mechanisms controlling this ability that, in humans, is confined to the fingertips. Even less is known about the bacteria that regularly colonize these wounds without noticeable negative impact on regeneration and healing. Medical evidence on fingertip regeneration in humans is largely limited to retrospective studies and case reports. This study will be the first randomized controlled trial on the conservative treatment of fingertip amputations in children and adults. When managed without surgery, self-adhesive polyurethane film dressings are commonly used to establish a wet chamber around the injury. This provides the best conditions for tissue regeneration inhibiting the formation of scar tissue at the same time. Unfortunately these dressings do not offer mechanical protection, they do not stick to wet skin and leak malodorous wound fluid. The investigators therefore developed a silicone finger cap that deals with these problems offering a mechanically protected, wet chamber around the injury for optimal regeneration conditions. This finger cap also offers a puncturable reservoir for excess wound fluid, which by this route can be routinely analyzed for diagnostic and research purposes. This randomized controlled trial will for the first time test acceptance, safety and efficacy of this novel medical device in comparison with conventional self-adhesive film dressings while gathering information on the clinical course and outcome of conservatively treated fingertip amputation injuries. Based on sample size calculations for primary outcome, 22 patients older than 2 years will be enrolled within 24 hours after having suffered an injury distal to the distal interphalangeal joint comprising all layers of the skin with a substance defect that cannot be primarily adapted without further shortening of the finger or plastic surgery. Participants are randomly assigned to start their treatment for the first two weeks either with a conventional film dressing or with the novel silicone finger cap. They will be changed to the other modality for another two weeks before the patient or the guardian can decide, if they would want the film dressing or the finger cap for the rest of the treatment.
The purpose of this study is to compare two different injection sites for local anesthesia in patients having hand surgery. The hypothesis is that subjects receiving injections around the three nerves of the forearm will provide faster pain control and greater patient satisfaction than patients having one injection closer to the shoulder.
Multiple digital injuries are often complex and severe, and the commonly used local and regional flaps may not be feasible. The authors reconstruct soft tissue defects of the fingers using the dorsal digito-metacarpal flap and evaluate the efficacy of this technique.
Multiple finger defects are common in hand trauma and result in functional disability. These injuries are often complex and severe, and thus reconstructive alternatives are limited. In this study, we use the dorsal homodigital island flaps, based on the dorsal branch of the digital artery, for reconstruction of multiple finger defects. At the final follow-up, we would evaluate the efficacy of this technique.
Study objective: Fingertip injuries are common in the pediatric population. Considerable controversy exists about whether prophylactic antibiotics are necessary after repair of such injuries. Our goals were to estimate the rate of bacterial infection among pediatric patients with distal fingertip injuries overall and to compare the rate of bacterial infections among subgroups treated with and without prophylactic antibiotics. Methods: This was prospective randomized control study of pediatric patients presenting to an urban children's hospital with trauma to the distal fingertip requiring repair. Patients were randomized to two groups: those receiving prophylactic antibiotics (Cephalexin) and those who did not receive antibiotic therapy. Repairs were performed in a standardized fashion and all patients were re-evaluated in the same emergency department in 48 hours and by phone 7 days later. The primary outcome of this study was the incidence of infection.
The purpose of this study is to determine if the transthecal metacarpal block is superior to the traditional digital block for regional digital anesthesia in children.