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This study investigates fluorescence image-guided surgery to allow precise identification of necrotic tissue both preoperatively and intraoperatively in burn patients. Furthermore, it uses a multi-model approach to elucidate the localization of ICG in inflammation and necrosis to determine how this novel use of a well-known fluorescence marker can be optimized to aid in surgical decision making. This proposal will provide the necessary data to support the design of a larger clinical trial to study the feasibility and efficacy of this technology to improve the precision of necrosis detection and removal and improve wound healing outcomes. Up to 100 participants will be on study for up to approximately 24 days.
The purpose of the study is to identify novel blood-based biomarkers for prediction and diagnosis of infected pancreatic necrosis (IPN) in patients with necrotizing pancreatitis (NP). Acute pancreatitis (AP) is the leading cause of gastrointestinal hospital admissions, accounting for over 300,000 emergency department visits annually and imposing a significant socio-economic burden. It is an acute inflammatory condition of the pancreas characterized by damage to the acinar cells, which triggers an inflammatory response and causes widespread systemic damage. In about 20% of cases, the disease progresses to necrotizing pancreatitis (NP), a severe form characterized by tissue necrosis. NP poses serious health risks, especially when the necrotic tissue becomes infected, leading to infected (peri-)pancreatic necrosis (IPN), which is associated with secondary organ failure (OF), sepsis, and mortality rates as high as 40%. While patients with sterile (peri-)pancreatic necrosis (SPN) can often be managed conservatively, those with IPN typically require antibiotics and therapeutic interventions such as endoscopic drainage or surgery. Timely recognition and treatment of IPN are crucial for improving patient outcomes, yet current diagnostic methods based on clinical symptoms and routine lab markers lack the specificity to reliably distinguish SPN from IPN in the early stages. Furthermore, while multifactorial scoring systems like Ranson, Imrie, and APACHE II predict necrosis and overall severity in AP, they are not accurate for identifying IPN or predicting mortality in NP. The diagnostic gap delays appropriate treatment, allowing the infection to advance and limiting available therapeutic options. The growing incidence and significant impact of AP and NP in the general population underscore the urgent need to better understand IPN pathophysiology and to develop specific diagnostic biomarkers that can improve prognosis, guide therapeutic decisions, and enhance patient outcomes.
This trial uses magnetic resonance elastography (MRE) to estimate tissue stiffness (hardness or softness of the tissue) in tissue that is affected by radiation treatment (radiation necrosis) and tumor tissue that has come back (recurrent) after treatment in patients with gliomas. Diagnostic procedures, such as MRE, may estimate the differences in tissue stiffness between radiation necrosis and recurrent glioma post treatment and ultimately lead to a more accurate diagnosis and/or surgery, and/or a better assessment of the disease's response to treatment.
This research study is investigating the value of an imaging study of the brain called an MRI (which stands for magnetic resonance imaging), utilized in unique way, to delineate whether the tumor has recurred or whether radiation changes have occurred after a brain metastasis treated with focused radiation has enlarged.
Pancreatic necrosis is a serious complication of acute pancreatitis. Pancreatic necrosis involves the irreversible death of pancreatic tissue, which can lead to severe health issues, including infections and an increased risk of death. An endoscopic procedure called direct endoscopic necrosectomy (DEN) is typically performed to remove this necrotic pancreatic tissue as a minimally invasive treatment. This procedure is performed using a thin, flexible, lighted tube called an endoscope and endoscopic instruments that are used with working channels through the scope. Current methods for removing necrotic tissue involve using endoscopic devices such as snares, baskets, nets, and forceps. However, these standard methods are often not very effective because the necrotic tissue can be sticky and hard to grasp. This DEN procedure is part of regular clinical care to treat this condition and remove necrotic tissue from the pancreas. For this research study, the same DEN procedure will be followed with the exception of the device used for the removal of the necrotic tissue. Instead of using forceps, snares, or other traditional tools, a cryoprobe will be used. Cryoprobes work by using extremely cold temperatures to freeze and adhere to the necrotic tissue, making it easier to remove. This method might be better because it can secure larger tissue samples and potentially reduce complications associated with traditional methods. Cryotechnology is successfully used in endoscopy to remove necrotic tissue, foreign bodies and more, but has not been extensively tested in pancreatic necrosis. Cryoprobes are FDA approved medical devices with an established safety record. They are used successfully in very sensitive areas such as the lungs. This study aims to evaluate the safety and effectiveness of cryotechnology for DEN.
The purpose of this study is to understand the effect that 3 different types of root canal procedures have on bacteria.
The purpose of this study is to compare the efficacy of GentleWave versus EdgePro irrigation in the disinfection of infected root canals of human permanent teeth with necrotic pulp.
Humanitarian Device Exemption Approved Patient Specific Talus Spacer Post Approval Study.
Avascular necrosis of the talus is a difficult problem to manage, especially in the young and healthy. The only option, historically, has been a talectomy and hindfoot fusion. While this is a viable option, it is not without its morbidity. Arthritis of surrounding joints is common, occurring anywhere from 1-10 years after the procedure. This is especially true in younger patients, where loss of motion can be life altering both physically and mentally. The search for alternatives has been limited. Recently, 3D printing has become more ubiquitous and affordable and newer medical alternatives have arisen thanks to this technology. The 3D custom talus is relatively new in the orthopaedic community, but has been used at several centers with good success. It has been shown to re-establish the normal alignment of the foot, preserve motion (with some achieving almost physiologic motion), and allow for almost normal ambulation. However, the data is still limited and further study is necessary. Our facility was recently approved to perform this procedure. Our hypothesis is that custom 3D printed talar body replacements, either used alone or with total ankle replacements, will maintain physiologic motion, have no difference in complications when compared to hindfoot fusions with allograft, lead to good outcome scores and patient satisfaction scores. Patients diagnosed with avascular necrosis of the talus who have already decided to undergo a procedure involving a 3D custom talus as part of their standard care (talar replacement, total ankle/total talus, etc) will be enrolled in the study. Patients will follow standard post-operative protocols and return to clinic at designated time periods (2 weeks, 6 weeks, 3 months, 6 months, 1 year). X-ray evaluation, Range of motion, return to ambulation, walking speed and patient reported outcomes will be evaluated at each visit. Data will then be compared with baseline measurements and use to determine the progression of patients over time after the procedure
Osteonecrosis of the femoral head (ONFH) is a debilitating musculoskeletal disease that is characterized by localized death of bone cells and associated cellular elements within the subchondral bone. If it progresses, it results in the collapse of the femoral head (ball part of the hip) giving rise to secondary arthritis. This condition is associated with marked pain and loss of function, often necessitating a joint replacement. Due to the relatively young age of onset of ONFH (often in 20s and 30s), there is great interest in utilizing joint-preserving procedures prior to the need for joint replacement. Joint-preserving procedures include core decompression (CD) with and without bone grafts or cells, vascularized and non-vascularized bone grafting, as well as osteotomies. Inconsistent results for each of these procedures have been reported and there are no Clinical Practice Guidelines or medical community consensus opinions regarding the treatment of early-stage ONFH. The hypothesis to be tested is "Participants who have early-stage ONFH undergoing CD augmented with autogenous bone marrow aspirate concentrate will have better clinical and radiological outcomes than CD alone." This multi-center randomized controlled trial for early-stage ONFH is prospective and controlled for participant stage (only early-stage pre-collapse individuals) and surgical technique. Participants will be evaluated as per routine surgical follow-up, and at 6 months (telemedicine), 1- and 2- years using radiographs, MRIs, and questionnaires. This project will also explore the scientific basis for success vs. failure in individuals who have osteonecrosis, and have different demographics and bone marrow aspirate cell profiles.