Retrospective Study of Healthcare Resources Developed for Patients by Interprofessional Teams.

Wayne State University (WSU) emphasizes the importance of interdisciplinary education by having students participate in an Interprofessional Team Visit (IPTV) program. A 60-minute virtual visit is conducted to assess adults aged over 50 years within the Detroit Metropolitan Area (Metro Detroit) community. This project was designed to prepare healthcare students in evaluating the mental, physical, and social health aspects of assigned patients based on specific disciplinary assessments. Upon completion of assessments, the interdisciplinary team provided the patient with resources based on the team and the patient's agreed-upon area of concern. Twenty-eight IPTV teams, consisting of a medical and occupational therapy student and a healthcare professional student from another discipline studying at WSU, were randomly created. The IPTV resource guides created by each team were reviewed and sorted into two categories based on the health or social need of the individual patient. The data identified three main areas of interest, which included medication management, diet and exercise plans, and the use of technology to stay connected to medical professionals, friends, and family. The purpose of this report is to assess the IPTV program's findings and analyze patients' concerns based on health or social needs and the resources presented to them.

Non-invasive treatment with near-infrared light: A novel mechanisms-based strategy that evokes sustained reduction in brain injury after stroke.

Ischemic stroke is a debilitating disease that causes significant brain injury. While restoration of blood flow is critical to salvage the ischemic brain, reperfusion can exacerbate damage by inducing generation of reactive oxygen species (ROS). Recent studies by our group found that non-invasive mitochondrial modulation with near-infrared (NIR) light limits ROS generation following global brain ischemia. NIR interacts with cytochrome c oxidase (COX) to transiently reduce COX activity, attenuate mitochondrial membrane potential hyperpolarization, and thus reduce ROS production. We evaluated a specific combination of COX-inhibitory NIR (750 nm and 950 nm) in a rat stroke model with longitudinal analysis of brain injury using magnetic resonance imaging. Treatment with NIR for 2 h resulted in a 21% reduction in brain injury at 24 h of reperfusion measured by diffusion-weighted imaging (DWI) and a 25% reduction in infarct volume measured by T2-weighted imaging (T2WI) at 7 and 14 days of reperfusion, respectively. Additionally, extended treatment reduced brain injury in the acute phase of brain injury, and 7 and 14 days of reperfusion, demonstrating a >50% reduction in infarction. Our data suggest that mitochondrial modulation with NIR attenuates ischemia-reperfusion injury and evokes a sustained reduction in infarct volume following ischemic stroke.