© 2020 Elsevier Inc. Purpose: Simulation-based medical education is an effective tool for medical teaching, but simulation-based medical education deployment in radiation oncology (RO) is limited. Flexible nasopharyngoscopy (FNP), an essential skill for RO residents, requires practice that typically occurs on volunteer patients, introducing the potential for stress and discomfort. We sought to develop a high-fidelity simulator and intervention that provides RO residents the opportunity to develop FNP skills in a low-pressure environment. Methods and Materials: Computed tomography images were used to create an anatomically accurate 3-dimensional–printed model of the head and neck region. An intervention incorporating didactic instruction, mu...
BACKGROUND: In a variety of surgical specialties, simulation-based technologies play an important ro...
Objectives: Whilst radiology is central to the modern practice of medicine, graduating doctors often...
ObjectiveTo evaluate the benefits of simulation to teach flexible bronchoscopy.Study designA prospec...
OBJECTIVE: The purpose of this study was to evaluate the effectiveness of a multifaceted simulation-...
© 2015 Elsevier Inc. All rights reserved. Background Radiation therapy treatment planning has advanc...
Radiation science education students are considered to be adult learners. According to Fanning & Gab...
Background As new treatments and technologies have been introduced in radiation oncology, the clini...
Simulators have revolutionized medical education and training across various disciplines, offering u...
BackgroundEndoscopic skull base surgery (ESBS) is complex, requiring methodical and unremitting surg...
Abstract Purpose To evaluate the feasibility and educ...
Background Lack of data regarding efficiency of simulation-based teaching, in particular high-fidel...
Background: Increasing technico-manual complexity of procedures and time constraints necessitates ef...
The traditionally accepted form of training is direct supervision by an expert; however, modern tren...
UNLABELLED: The traditionally accepted form of training is direct supervision by an expert; however,...
peer reviewedIntroduction and Aim: We aimed to evaluate high-fidelity virtual reality simulation in ...
BACKGROUND: In a variety of surgical specialties, simulation-based technologies play an important ro...
Objectives: Whilst radiology is central to the modern practice of medicine, graduating doctors often...
ObjectiveTo evaluate the benefits of simulation to teach flexible bronchoscopy.Study designA prospec...
OBJECTIVE: The purpose of this study was to evaluate the effectiveness of a multifaceted simulation-...
© 2015 Elsevier Inc. All rights reserved. Background Radiation therapy treatment planning has advanc...
Radiation science education students are considered to be adult learners. According to Fanning & Gab...
Background As new treatments and technologies have been introduced in radiation oncology, the clini...
Simulators have revolutionized medical education and training across various disciplines, offering u...
BackgroundEndoscopic skull base surgery (ESBS) is complex, requiring methodical and unremitting surg...
Abstract Purpose To evaluate the feasibility and educ...
Background Lack of data regarding efficiency of simulation-based teaching, in particular high-fidel...
Background: Increasing technico-manual complexity of procedures and time constraints necessitates ef...
The traditionally accepted form of training is direct supervision by an expert; however, modern tren...
UNLABELLED: The traditionally accepted form of training is direct supervision by an expert; however,...
peer reviewedIntroduction and Aim: We aimed to evaluate high-fidelity virtual reality simulation in ...
BACKGROUND: In a variety of surgical specialties, simulation-based technologies play an important ro...
Objectives: Whilst radiology is central to the modern practice of medicine, graduating doctors often...
ObjectiveTo evaluate the benefits of simulation to teach flexible bronchoscopy.Study designA prospec...