32 Clinical Trials for Various Conditions
This randomized control trial aims to compare the efficacy of triclosan-coated barbed suture (TCB) versus conventional non-barbed polydioxanone (PDS) suture in the closure of the abdominal fascia after emergency exploratory laparotomy. The study addresses the common complications of incisional surgical site infections (SSI) and fascial dehiscence (FD) following emergency exploratory laparotomy. The primary objective is to assess the effectiveness of triclosan-coated barbed suture and conventional non-barbed suture in reducing the rates of incisional SSI and FD within 30 days postoperatively. The study population comprises adult patients undergoing emergent laparotomy for traumatic injuries or acute intraabdominal pathology. This prospective, single-blinded randomized control trial will be conducted at Los Angeles General Medical Center. Patients will be randomized to receive either triclosan-coated barbed suture or conventional non-barbed suture for abdominal fascial closure, with a standard closure technique employed. Patients will be followed up for 30 days postoperatively to monitor surgical site infections, fascial dehiscence, and other outcomes. Statistical analysis will be conducted to compare outcomes between the study arms, assessing the efficacy of triclosan-coated barbed suture in reducing the incidence of SSI and FD, along with secondary outcomes.
The main questions the study aims to answer are: * How much do wounds improve when using the Avelle™ Negative Pressure Wound Therapy System for a maximum of 14 days? * How safe is the Avelle™ Negative Pressure Wound Therapy System?
This is an observational study designed to evaluate the safety and clinical outcomes of Myriad™ in soft tissue reconstruction procedures. The study will enroll participants who are undergoing a surgical procedure, where the attending physician will use Myriad™ as part of the surgical intervention.
Post-cesarean section wound infections are responsible for longer hospital stays, readmissions, and ultimately, increased costs to the healthcare system. Silver-containing dressings may prevent wound infections. The purpose of the current study is to determine if the use of a silver-impregnated dressing decreases the occurence of wound infection following cesarean delivery.
It is increasingly recognised that the debridement of devitalised, bacterially contaminated or senescent tissue is an essential component of the effective treatment of delayed healing wounds. Whilst surgical debridement procedures have conventionally been performed with scalpels and other sharp instrumentation, alternative techniques such as the VERSAJET Hydrosurgery System are becoming more widespread. To increase the adoption of this new technology, it is essential that clinical improvements are assessed alongside the potential impact on the costs of debridement and the net financial impact on the hospital. It is hypothesised that a decrease in the time to achieve stable wound closure will not only lead to a patient benefit, but also a potential reduction in the cost of treatment due to e.g. repeat procedures, longer hospital stay, infection etc. The purpose of this study is to investigate the difference in time to closure of wounds surgically excised with VERSAJET Hydrosurgery System and those surgically excised using conventional operating room techniques.
Wound complications after Cesarean section (C-section) are common in obese women. Approximately 25% of obese women having a C-section will have a wound complication. This research study is designed to assess whether applying a source of vacuum (suction) to the wound can reduce the risk of wound complications. The investigators plan to enroll 220 women into the study. Women will be randomly selected to receive standard stitching and stapling of the incision (cut on the abdomen) or closure with stitches, staples and wound suction. Subjects will be seen for follow-up visits in 7-14 days and again at 4-6 weeks after surgery. The number of wound complications in each group will be compared. If the wound suction technique is successful in preventing wound complications, this may substantially reduce pain and suffering in a large number of women undergoing C-section for delivery.
Enhancing Wound Perfusion in High-Risk Lower Extremity Orthopaedic Surgery: A Feasibility Study on Nitropaste Using Intraoperative SPY Imaging.
This clinical study is being conducted to evaluate how well the Miro3D Wound Matrix helps heal difficult wounds and ulcerations in an outpatient care setting. Miro3D is a biologic wound dressing made from porcine (pig) liver tissue. It is processed to remove all cells, creating a clean scaffold that can support the body's natural healing process. The goal of this study is to see how effective Miro3D is when used alongside standard wound care for helping wounds close and reducing pain and discomfort. The study is designed as a post-market, proof-of-concept trial, meaning the product is already commercially available, and researchers are evaluating how it works in real-world clinical settings. A total of up to 20 adult participants will be enrolled. Participants may have wounds such as diabetic foot ulcers, venous leg ulcers, pressure ulcers, or surgical wound dehiscence. These wounds may be complex in nature, including tunneling or undermining, which often makes them more difficult to treat. Participants will receive standard wound care along with weekly Miro3D applications for the first 4 weeks. If the wound is not fully healed after 4 weeks, Miro3D will then be applied every 2 weeks until healing is achieved or up to 12 weeks total. Throughout the study, participants will return weekly for wound assessments and to complete brief questionnaires about their pain levels and quality of life. The main goals of the study are: 1. To measure how much the wound size shrinks (known as percent area reduction or PAR). 2. To evaluate how much healthy granulation tissue (new tissue) forms in the wound. 3. To compare healing outcomes when Miro3D is used weekly versus every two weeks. 4. To understand how the treatment affects patients' quality of life, including pain, mobility, and emotional wellbeing. Each participant will be closely monitored by the clinical team throughout the 12-week study period. If a wound heals earlier, the participant will finish the study at that time. If the wound does not heal, the participant may return to their regular physician for follow-up care.
The objective of this study is to make Dermacyte Liquid available on an expanded access basis to treat cutaneous ulcers and wounds refractory to initial treatment or that do not have adequate alternative treatments. Minimal data will be collected to evaluate the efficacy and safety of Dermacyte Liquid.
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.
Prospective, single-blinded, single-center, parallel group, randomized controlled trial (RCT) to assess rate and frequency of wound healing and associated financial savings, when using Medaxis debritom+ versus standard of care as a choice of debridement method, where both arms follow normal wound care practice in use of advanced wound care treatments.
The goal of this study is to perform a randomized clinical trial to assess the effects of vitamin C versus placebo on wound healing in mandibular fracture patients.
This study will evaluate the use of free autologous dermal fat grafting (also called free dermal fat autografting) to treat complex craniofacial wounds that have failed standard treatment and to understand how well these grafts work to repair wounds long term. Patients who have undergone free autologous dermal fat grafting to treat complex craniofacial wounds 2-30 years ago will have photographs and small biopsies taken of the area that was grafted.
This study will evaluate the use of free autologous dermal fat grafting (also called free dermal fat autografting) to treat complex craniofacial wounds that have failed standard treatment and to understand how well these grafts work to repair wounds long term. Patients who have undergone free autologous dermal fat grafting to treat complex craniofacial wounds less than 1 week ago will have photographs and small biopsies taken of the area that was grafted. Patients will be followed for 2 years to monitor the area that was grafted.
This study is a prospective, multi-center, two-arm, unblinded, and randomized controlled trial with a goal of evaluating the impact of a closed incision negative pressure dressing (PREVENA) on incidence of post-operative wound complications and medical costs in patients undergoing lower extremity amputation.
A randomized controlled, parallel group, superiority, open-label, single-institution, Phase 3 interventional clinical trial to evaluate clinical outcomes in obese gravidas undergoing elective cesarean delivery whose wounds were dressed with the PICO Negative Pressure Wound Therapy (NPWT) versus the standard dressing. We hypothesize that the PICO NPWT will reduce the incidence of surgical site occurrences and interventions and postoperative readmissions in obese women. The study will compare surgical site occurrences and surgical incision intervention incidence within 42 +/- 10 days post cesarean delivery in obese women who have the current standard-of-care dressing versus the PICO NPWT.
The investigators wish to determine how suture spacing (5 mm vs. 10 mm) affects cosmetic outcome and development of "train tracking" in wounds. Linear wounds with sutures spaced closer together may not be as cosmetically appealing when compared to those that have larger spacing between sutures. Suturing closer together constricts blood flow and increases tension that ultimately results in more tissue necrosis and a less appealing outcome. The investigators also aim to conclude if 5 mm or 10 mm suture spacing results in less complications.
The purpose of this study is to determine if the application of a negative pressure dressing intraoperatively (Prevena; KCI, Inc) to vascular groin incisions decreases the wound complication rate in high risk patients.
The goal of the Negative Pressure Wound Therapy Registry (NPWTR) for Wounds is to provide real world patient data from electronic health records submitted to meet Stage 2 Meaningful Use in order to understand the effectiveness and safety of various NPWT devices and methods among patients with chronic wounds and ulcers. Randomized, controlled trials to establish product efficacy routinely exclude patients with the co-morbid conditions common to patients seen in usual clinical practice and thus the results of these Randomized Controlled Trials (RCTs) tend to be non-generalizable. Little is known about the effectiveness of NPWT among typical patients. Patient registries are also ideal for assessing long term safety issues in these devices.
The goal of the Cellular and Tissue Based Therapy Registry (CTPR) for Wounds is to provide real world patient data from electronic health records submitted to meet Stage 2 Meaningful Use in order to understand the value of these products among patients with chronic wounds and ulcers. Randomized, controlled trials to establish product efficacy routinely exclude patients with the co-morbid conditions common to patients seen in usual clinical practice and thus the results of these RCTs tend to be non-generalizable. Little is known about the effectiveness of CTPs among typical patients.
More than 100 hospital based outpatient wound centers in the USA and Puerto Rico agree to transmit structured data on all patients followed with chronic wounds and ulcers (e.g. diabetic foot ulcers, venous ulcers, pressure ulcers, arterial ulcers, surgical wounds, and traumatic wounds). Data are collected at point of care including adherence to wound care quality measures developed by the USWR as a Qualified Clinical Data Registry (QCDR).
The specific aim of this study is to improve post-operative wound care in the morbidly-obese body-contouring patient population following massive weight loss undergoing either panniculectomy or formal abdominoplasty, those patients undergoing complex abdominal wall reconstruction (i.e. ventral hernia repair) and breast reconstruction with acellular dermal matrix, as well as patients undergoing regular lipo-abdominoplasty by comparing the effectiveness of standard closed-suction drains versus the immediate application of continuous negative pressure via a NPWT (negative pressure wound therapy) device attached to non-compressible drains. Additionally, we aim to demonstrate increases both in cost-effectiveness and quality of life in these patients with the use of the NPWT wound care apparatus. Hypothesis 1 Continuous negative pressure devices decrease the incidence of wound complications in comparison with conventional closed suction drains when used in patients after massive weight loss undergoing body-contouring procedures (panniculectomies alone and formal abdominoplasties), and in patients undergoing VHR and breast reconstruction with acellular dermal matrix, as well as those undergoing regular lipo-abdominoplasty. Hypothesis 2 Although initially more costly than traditional closed suction drains, the use of continuous negative pressure devices will in the long-term result in lower total health care costs in the above-stated patient population due to a decreased need for additional procedures and/or clinical management, including surgical interventions, hospital admissions, administration of antibiotics, multiple follow-up office visits, and chronic wound care. Hypothesis 3 Better quality of life is associated with the use of continuous negative pressure devices compared to closed suction drains in these patient populations.
Researchers in the Orthopaedic surgery department at LSU Medical Center-Shreveport hope to learn if patterns of blood-flow around the incision site of patients undergoing surgery for heel-bone fractures can help predict whether complications will arise after a specific type of operation.The goals of this research study are to effectively answer as many of the following research questions as possible: 1. Can a drug normally used to evaluate adequate blood flow in plastic surgery and tissue transfer be used to identify altered patterns of blood flow at the operative site of Calcaneus fractures, when compared to the uninjured extremity? 2. Are changes in blood flow identifiable at the operative site post operatively? 3. Are there certain patterns of blood flow present preoperatively or postoperatively that can predict wound complication? 4. Can certain patterns of blood flow predict the location of slough or dehiscence after surgery? 5. Does the incision site and its proximity to specific patterns of blood flow possibly predict wound complication? The hypothesis is that the study drug will show a correlation between certain patterns of blood flow and whatever post-operative complications may arise.
The purpose of this study is to determine if acupuncture improves wound healing. Since we, the investigators at the University of California, San Francisco (UCSF), know that how much oxygen is delivered to tissue is the best predictor of how well a wound will heal, we are measuring changes in tissue oxygen of wounds before and after acupuncture treatments. We are focusing on the leg wounds of coronary artery bypass graft (CABG) patients who have their saphenous veins harvested in an open fashion since this is a fairly well controlled patient model.
This study will gather information on the use of microMend® to repair lacerations in children and compare the efficacy of microMend® to sutures for laceration repair. microMend® has previously been shown to be less painful and easier to use than sutures, which are the current standard of care for primary wound closures. Results of this research will inform how the treatment of laceration repairs in the pediatric patient population.
When elderly patients need help caring for wounds, physicians may refer patients to home health care providers. The home health provider sees the patient in the patient's home and assists the patient with wound care. Working with the patient's physician, the home health provider will use the appropriate wound covering ("dressing" or "bandage") to cover the wound. The goal of the home health provider is to ensure that the wound stays clean and progresses toward closure. The home health provider will conduct in-home patient visits at appropriate intervals to assess the status of the wound. Extensive resources are required to see patients in their own homes. If a dressing could effectively manage wounds and allow longer time between in-home visits (without affecting patient safety or progress of the wound toward closure), then resources could be saved. Thus, newer dressings are designed for longer wear times, using advanced foam pads and adhesives that help keep the dressing in place. The hypothesis of this study is that the use of Allevyn Life will decrease the number of in-home visits by home health providers without sacrificing patient safety.
The purpose of this study is to compare the post-surgical standard-of-care dressing to the Prevena™ Incision Management System in women undergoing Cesarean section surgery.
The objective of this study is to investigate whether the use of Human Peritoneal Membrane (HPM) in a temporary loop ileostomy is beneficial to patients. Benefit will be defined, for purposes of this study, as a decrease in adhesions resulting in decreased operative time during ileostomy closure, with promotion of peritoneal remodeling.
The purpose of this study is to determine if use of the Medela Invia Motion NPWT system supports acceptable progress towards the goal of therapy when treating patients with a variety of wound types during the evaluation period.
The investigators will test the efficacy of the novel oxygen diffusion dressing allows delivery tissue oxygenation via TransCu O2® Oxygen Delivery System for use in caring for patients with surgically closed wounds. The investigators hypothesize that using this novel oxygen diffusion dressing will reduce the likelihood of necrotic tissue as well as severe incisional scar post-surgical closure by improving transcutaneous oxygen levels during wound healing process. TransCu O2 Oxygen Delivery System is a novel wound healing therapy that promises to enhance tissue hydration, which in turn may lead to quick epithelialization essential to reduce the likelihood of formation of necrotic tissue and excessive scars.