Impact of Passaging Primary Skeletal Muscle Cell Isolates on the Engineering of Skeletal Muscle.

Volumetric muscle loss (VML) is a clinical state that results in impaired skeletal muscle function. Engineered skeletal muscle can serve as a treatment for VML. Currently, large biopsies are required to achieve the cells necessary for the fabrication of engineered muscle, leading to donor-site morbidity.

Repairing Volumetric Muscle Loss with Commercially Available Hydrogels in an Ovine Model.

Volumetric muscle loss (VML) is the loss of skeletal muscle that exceeds the muscle's self-repair mechanism and leads to permanent functional deficits. In a previous study, we demonstrated the ability of our scaffold-free, multiphasic, tissue-engineered skeletal muscle units (SMUs) to restore muscle mass and force production. However, it was observed that the full recovery of muscle structure was inhibited due to increased fibrosis in the repair site.

Impact of Human Recombinant Irisin on Tissue-Engineered Skeletal Muscle Structure and Function.

Tissue engineering of exogenous skeletal muscle units (SMUs) through isolation of muscle satellite cells from muscle biopsies is a potential treatment method for acute volumetric muscle loss (VML). A current issue with this treatment process is the limited capacity for muscle stem cell (satellite cell) expansion in cell culture, resulting in a decreased ability to obtain enough cells to fabricate SMUs of appropriate size and structural quality and that produce native levels of contractile force. This study determined the impact of human recombinant irisin on the growth and development of three-dimensional (3D) engineered skeletal muscle.

Engineered Tissue Graft for Repair of Injured Infraspinatus Rotator Cuff Tendon.

Rotator cuff tears constitute a vast majority of shoulder-related injuries, occurring in a wide population range and increasing in incidence with age. Current treatments for full thickness tears use suture to secure the ruptured tendon back to its native attachment site and often retear due to improper enthesis regeneration. To reduce the occurrence of retear, our laboratory developed an engineered tendon graft for rotator cuff repair (ETG-RC) to serve as an underlayment to traditional suture repair.

Simulation-Based System Analysis: Testing Preparedness for Extracorporeal Membrane Oxygenation Cannulation in Pediatric COVID-19 Patients.

Introduction: Coronavirus Disease-2019 presents risk to both patients and medical teams. Staff-intensive, complex procedures such as extracorporeal membrane oxygenation (ECMO) or extracorporeal cardiopulmonary resuscitation (eCPR) may increase chances of exposure and spread. This investigation aimed to rapidly deploy an in situ Simulation-based Clinical Systems Testing (SbCST) framework to identify Latent Safety Threats (LSTs) related to ECMO/eCPR initiation during a pandemic.

A tissue engineering approach for repairing craniofacial volumetric muscle loss in a sheep following a 2, 4, and 6-month recovery.

Volumetric muscle loss (VML) is the loss of skeletal muscle that results in significant and persistent impairment of function. The unique characteristics of craniofacial muscle compared trunk and limb skeletal muscle, including differences in gene expression, satellite cell phenotype, and regenerative capacity, suggest that VML injuries may affect craniofacial muscle more severely. However, despite these notable differences, there are currently no animal models of craniofacial VML.

Simulation in Pediatric Emergency Medicine Fellowships.

Background And Objectives: Graduate medical education faces challenges as programs transition to the next accreditation system. Evidence supports the effectiveness of simulation for training and assessment. This study aims to describe the current use of simulation and barriers to its implementation in pediatric emergency medicine (PEM) fellowship programs.

A randomized clinical trial of oral transmucosal fentanyl citrate versus intravenous morphine sulfate for initial control of pain in children with extremity injuries.

Background: Extremity injury is a common condition that requires pain management in an emergency department. In pediatric patients, the most frequently used method of pain control is intravenous (IV) morphine sulfate. Oral transmucosal fentanyl citrate (OTFC) is a potential alternative to morphine, which may obviate the need to place an IV before addressing pain.

Evaluation of a curriculum for intimate partner violence screening in a pediatric emergency department.

Objective: We sought to describe the assessment of course participant changes in attitudes, self-efficacy, and behaviors after completion of the Its Time to Ask training curriculum for screening for intimate partner violence (IPV) in a pediatric emergency department (PED).

Methods: A 22-item Likert scale questionnaire was administered at baseline (before training), after training, and at 6-month follow-up to PED employee participants in a 2-hour IPV education program. Mean participant responses were compared between baseline/posttraining and baseline/6-month follow-up.