The effect of a provisional diagnosis on intern diagnostic reasoning: a mixed methods study.

Objectives: Competency in diagnostic reasoning is integral to medical training and patient safety. Situativity theory highlights the importance of contextual factors on learning and performance, such as being informed of a provisional diagnosis prior to a patient encounter. This study aims to determine how being informed of a provisional diagnosis affects an intern's approach to diagnostic reasoning.

In Vitro Verification of Simulated Daily Activities Using Implant-Specific Kinematics from In Vivo Measurements.

The mechanism and boundary conditions used to drive experimental joint simulators have historically adopted standardized profiles developed from healthy, non-total knee arthroplasty (TKA) patients. The purpose of this study was to use implant-specific in vivo knee kinematics to generate physiologically relevant boundary conditions used in the evaluation of cadaveric knees post-TKA. Implant-specific boundary conditions were generated by combining in vivo fluoroscopic kinematics, musculoskeletal modeling-generated quadriceps loading, and telemetric knee compressive loading during activities of daily living (ADL) to dynamically drive a servo-hydraulic knee joint simulator.

A Survival Analysis of Rural-Urban Disparities in COVID-19 Vaccination Uptake in the United States.

Purpose: Though urban-rural disparities in COVID-19 vaccination coverage was documented at a point of time, little is known on the evolution of vaccination uptake over time. This study, using individual level time-to-event data, intend to assess the differences in monthly progression of vaccination uptake among U.S.

Impact of Surgical Alignment, Bone Properties, Anterior-Posterior Translation, and Implant Design Factors on Fixation in Cementless Unicompartmental Knee Arthroplasty.

Micromotion exceeding 150 μm at the implant-bone interface may prevent bone formation and limit fixation after cementless knee arthroplasty. Understanding the critical parameters impacting micromotion is required for optimal implant design and clinical performance. However, few studies have focused on unicompartmental knee arthroplasty (UKA).