Background Liver transplantation from donors after cardiac death (DCD) could increase the pool of organs. We previously reported that oxygenated subnormothermic (20°C-25°C) ex vivo liver perfusion (SELP) improved the graft viability in rats. This study aimed to compare the effectiveness of SELP and normothermic (37°C) ex vivo liver perfusion (NELP) after cold storage (CS) in DCD liver grafts. Methods Male Wistar rats were used, and grafts were retrieved 30 minutes after cardiac arrest. We performed oxygenated NELP and SELP with a Krebs-Henseleit buffer for different time points and durations Group 0, donation performed from heart-beating donors (control); Group 1 (DCD group), donation performed from DCD donors with no treatments; Group 2, NELP performed before CS (30 minutes); Group 3, NELP performed after CS (30 minutes); Group 4, SELP performed after CS (30 minutes); Group 5, SELP performed after CS (60 minutes); and Group 6, SELP performed after CS (90 minutes). After 15 minutes of incubation at room temperature, the grafts were reperfused under normothermic conditions for 60 minutes as a model of liver transplantation. Results No significant differences in body and liver weight were observed between all groups. In the SELP after CS groups, even 30 minutes of perfusion improved bile production, tumor necrosis factor-α, and interleukin-1β significantly compared with the DCD group (P less then .05), comparable with NELP groups. Conclusion SELP rescued DCD livers from ischemia-reperfusion injury the same as the normothermic perfusion before or after CS groups. SELP after CS is more convenient than normothermic perfusion; hence, this technique may increase the organ pool.Background Although hospital systems have largely halted elective surgical practices in preparing their response to the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic, transplantation remains an essential and lifesaving surgical practice. To continue transplantation while protecting immunocompromised patients and health care workers, significant restructuring of normal patient care practice habits is required. Methods This is a nonrandomized, descriptive study of the abdominal transplant program at 1 academic center (University of California, San Francisco) and the programmatic changes undertaken to safely continue transplantations. Patient transfers, fellow use, and patient discharge education were identified as key areas requiring significant reorganization. Results The University of California, San Francisco abdominal transplant program took an early and aggressive approach to restructuring inpatient workflows and health care worker staffing. The authors formalized a coronavirus disease 2019 (COVID-19) transfer system to address patients in need of services at their institution while minimizing the risk of SARS-CoV-2 in their transplant ward and used technological approaches to provide virtual telehealth where possible. They also modified their transplant fellow staffing and responsibilities to develop an adequate backup system in case of potential exposures. Conclusion Every transplant program is unique, and an individualized plan to adapt and modify standard clinical practices will be required to continue providing essential transplantation services. The authors' experience highlights areas of attention specific to transplant programs and may provide generalizable solutions to support continued transplantation in the COVID-19 era.Statement of problem The performance of endocrowns fabricated with different types of computer-aided design and computer-aided manufacturing (CAD-CAM) materials is unclear. Purpose The purpose of this finite element analysis (FEA) and in vitro study was to compare and evaluate the stress distribution, failure probability, and fracture resistance of endodontically treated teeth restored with endocrowns from CAD-CAM milling blocks including ceramic, polymer-infiltrated ceramic (PICN), and composite resin. Material and methods An endodontically treated first mandibular molar restored with an endocrown was modeled by using a CAD software program and imported into an FEA software program. The model was duplicated and received restorations made from CAD-CAM blocks Vita Suprinity (VS), IPS e.max CAD (EMX), Vita Enamic (VE), Lava Ultimate (LU), and Grandio blocs (GR). Stress distributions under axial and oblique loading were analyzed. The Weibull function was combined with the FEA results to predict long-term failureture resistance. More evidence from long-term clinical studies is needed to verify this effect.Aortic valve stenosis (AS) is the commonest primary valve disorder with increasing prevalence with age. Selleckchem PHA-767491 Trans-thoracic echocardiogram is the main imaging technique used to diagnose AS, but discrepancy in diagnosis has been described in almost one third of cases. Other imaging methods, particularly electrocardiogram (ECG)-gated computed tomography, have now emerged to further clarify the diagnosis of AS by both demonstrating the degree of calcification in the valve as well as aortic valve area. Cardiac magnetic resonance imaging allows accurate quantification of ventricular function and evaluation of the myocardium. This paper provides a comprehensive review of the diagnosis of AS for the radiologist.This article reviews the basic anatomy and physiology of tendon healing and ways to use biologics with tendon surgery. Many different products have been used, and this article reviews the literature to distinguish what is still recommended or proven effective through research.Union rates vary for arthrodesis sites and bone healing in foot and ankle surgery. The ultimate goal is to achieve complete bone healing within a reasonable time. There are many factors that surgeons cannot control, such as the patient's compliance and ability to heal. However, surgeons can control osseous preparation, stable fixation, preservation of soft tissue, and the osseous fusion initial healing environment. Modification of the healing environment can be achieved with the use of bone graft and orthobiologics. This article discusses the grafts and orthobiologics that can be used in bone healing for the foot and ankle.