Active clinical trials for "Wounds and Injuries"

This investigation is a randomized pragmatic trial of a brief stepped care intervention delivered from an acute care medical trauma center that may both reduce the symptoms of posttraumatic stress disorder (PTSD) and diminish emergency department health service utilization.

The overall objective of this trial is to characterize the safety and effectiveness of the Networked Neuroprosthesis Device - Upper Extremity (NP-UE) in individuals living with cervical SCI.

This site-specific project will focus on a novel non-pharmacologic approach to stabilizing BP during AIR after acute traumatic SCI. Current forms of pharmacologic and non-pharmacologic treatments for hypotension and OH remain inadequate in the SCI population. A critical need exists for the identification of safe, practical and effective treatment options that stabilize BP after traumatic SCI. Transcutaneous Spinal Cord Stimulation (TSCS) has several advantages: (1) does not exacerbate polypharmacy, (2) can be activated/deactivated rapidly, and (3) can be applied in synergy with physical exercise. TSCS represents an alternate approach to epidural SCS, with far greater potential to reach large numbers of individuals, thus providing for a greater likelihood of clinical implementation with far fewer risks. We are asking the key question: what if applying SCS earlier after injury could prevent the development of BP instability? To facilitate adoption of TSCS for widespread clinical use, we have designed a spatial-temporal mapping and parameter configuration approach that will result in a key deliverable for SCI care: a standard, easy to follow algorithm that will maximize individual benefits of spinal neuromodulation, while minimizing the burden on healthcare professionals. This project will provide the foundational evidence to support the feasible and safe application of TSCS for widespread clinical utility in the newly injured population, thereby overcoming barriers to engagement in prescribed AIR regimens that are imposed by ANS dysfunction.

Autografting is a surgical procedure to transplant healthy skin (donor skin) from another part of the participant's own body (donor site) to the burned part. Autografting is the usual treatment for DPT burns. It works to close the wound, but can cause other problems: Donor sites are painful, can become infected or scarred, or can even become full thickness (FT) wounds themselves Treatment problems can require more grafting Additional surgery increases the risk of medical problems caused by the treatment Stratatech is trying to find a safe and effective alternative to autografting to promote the healing of severe burns. The purpose of this study is to evaluate whether StrataGraft treatment eliminates or reduces the need for autografting and promotes wound closure in a pediatric population with thermal burns that contain intact dermal elements and for which autografting is clinically indicated (DPT burns). Participants will be enrolled into one of two age-based cohorts: 2 to < 12 years and 12 to ≤ 17 years to receive a single application of StrataGraft, in up to 3 non-contiguous DPT burn areas located on the same extremity or plane of the torso. The study will last for approximately 2.5 years.

Spasticity develops months after spinal cord injury (SCI) and persists over time. It presents as a mixture of tonic features, namely increased muscle tone (hypertonia) and phasic features, such as hyperactive reflexes (hyperreflexia), clonus, and involuntary muscle contractions (spasms). Spasticity is often disabling because it interferes with hygiene, transfers, and locomotion and can disturb sleep and cause pain. For these reasons, most individuals seek treatments for spasticity after SCI. New developments in electrical neuromodulation with transcutaneous spinal stimulation (TSS) show promising results in managing spasticity non-pharmacologically. The underlying principle of TSS interventions is that the afferent input generated by posterior root stimulation modifies the excitability of the lumbosacral network to suppress pathophysiologic spinal motor output contributing to distinctive features of spasticity. However, the previous TSS studies used almost identical protocols in terms of stimulation frequency and intensity despite the great flexibility offered by this treatment strategy and the favorable results with the epidural stimulation at higher frequencies. Therefore, the proposed study takes a new direction to systematically investigate the standalone and comparative efficacy of four TSS interventions, including those used in previous studies. Our central hypothesis is that electrical neuromodulation with the selected TSS protocols (frequency: 50/100 Hz; intensity: 0.45 or 0.9 times the sub-motor threshold) can reduce and distinctly modify tonic and phasic components of spasticity on short- and long-term basis. We will test our hypothesis using a prospective, experimental, cross-over, assessor-masked study design in 12 individuals with chronic SCI (more than 1-year post-injury). Aim 1. Determine the time course of changes and immediate after-effects of each TSS protocol on tonic and phasic spasticity. The results will reveal the evolution of changes in spasticity during 30-min of TSS and the most effective protocol for producing immediate aftereffects. Aim 2. Determine the effect of TSS on spasticity after a trial of home-based therapy with each protocol. The participants will administer 30 min of TSS daily for six days with each of the four TSS protocols selected randomly. This aim will reveal the long-term carry-over effects of TSS intervention on various components of spasticity after SCI. Aim 3. Determine the participants' experience with TSS as a home-based therapy through focus group meetings. We will conduct focus group meetings after participants finish the home-based therapy trial. Accomplishing this specific aim will provide a valuable perspective on the value, challenges, and acceptability of TSS as a home-based intervention. The study addresses important questions for advancing scientific knowledge and clinical management of spasticity after SCI. Specifically, it will examine the efficacy of TSS frequencies and intensities on tonic and phasic spasticity. The study results will be relevant for a high proportion of individuals living with SCI that could benefit from this novel and low-cost non-pharmacological approach to managing spasticity after SCI.

This study aims to explore the effect of trans cranial direct current stimulation (tDCS) combined with self-exercise at home for 1 month training (3 sessions/week, for 4 weeks). The outcome assessment including motor function, functional activity, spasticity through neurological assessment (H reflex latency and H/M amplitude ratio) and quality of life will be assessed before, after the intervention and at 1- month follow-up. Participant will communicate with physical therapist via video online platform for every sessions (12 sessions).

We will Choose patients with tooth loosening caused by tooth trauma and requiring fix in the department of Pediatric Dentistry and emergency of Stomatology Hospital, Zhejiang University School of Medicine, from July 2022 to May 2025. These patients will be randomly divided into digital impression module (experimental group) and ordinary impression group (control group).The operation time, comfort index and efficacy index of the two groups were compared to investigate the advantages of digital impressions in the application of traumatic dental injuries in children.

After acquired brain injury (ABI), persons can experience emotional and behavioral difficulties, that can be painful both for the person and his/her family. This clinical study aims at measuring the effectiveness of a third wave cognitive behavioral therapy called "dialectical behavior therapy" (DBT). DBT aims at teaching persons emotion regulation skills, interpersonal effectiveness skills, mindfulness and distress tolerance skills through group and individual sessions. The study's hypothesis is that DBT, in an adapted format for persons with ABI can lead to a better quality of life, emotional and behavioral regulation, and self-esteem decrease in problematic behaviors progress in life goals increase post traumatic growth and spirituality better family functioning and lesser burden for care givers experiencing more emotions and more free will 45 persons with an ABI sustained more than 18 month back, will follow a 3 phases, follow-up with care as usual for 5 months, followed by 5 months of DBT, followed by 5 months of care as usual + DBT monthly sessions. Self- and family-questionnaire will explore quality of life, emotional regulation, self-esteem, stress, anxiety, cognitive difficulties, family functioning and coping, post traumatic growth and spirituality and will be compared across the 3 phases. Results will be analyzed at a group level but also at an individual level (each patient separately) to test for decrease in unwanted behaviors and at a dyadic level (the person and his/her spouse) to test for the mutual effect of regulating emotions. Persons' memories will by analyzed at 3 time points by a linguistic analysis, and experience of free will after ABI will be analyzed by transcribed narratives of participants.

This is a self-controlled single-site study of 10 healthy subjects receiving an ablative fractional CO2 laser procedure followed by topical application of NanoDOX® Hydrogel (1% doxycycline). The study includes skin biopsies to evaluate the effects of NanoDOX® Doxycycline Monohydrate Gel on wound healing after the ablative laser procedure. Study subjects will be asked to do two visits of approximately 4 hours over two weeks.

Introduction: Trauma accounts for nearly 10% of the global burden of disease. Several trauma life support programs aim to improve trauma outcomes. There is no evidence from controlled trials to show the effect of these programs on patient outcomes. We describe the protocol of a pilot study that aims to assess the feasibility of conducting a cluster randomised controlled trial comparing Advanced Trauma Life Support (ATLS) and Primary Trauma Care (PTC) with standard care. Methods and analysis: We will pilot a pragmatic three-armed parallel, cluster randomised, controlled trial in India, where neither of these programs are routinely taught. We will recruit tertiary hospitals and include trauma patients and residents managing these patients. Two hospitals will be randomised to ATLS, two to PTC, and two to standard care. The primary outcome will be all cause mortality at 30 days from the time of arrival to the emergency department. Our secondary outcomes will include patient, provider, and process measures. All outcomes except time to event outcomes will be measured both as final values as well as change from baseline. We will compare outcomes in three combinations of trial arms: ATLS versus PTC, ATLS versus standard care, and PTC versus standard care using absolute and relative differences along with associated confidence intervals. We will conduct subgroup analyses across the clinical subgroups men, women, blunt multisystem trauma, penetrating trauma, shock, severe traumatic brain injury, and elderly. In parallel to the pilot study we will conduct community consultations to inform the planning of the full-scale trial.