OBJECTIVE: To implement and assess the effectiveness of adding a pharmaceutical care simulation program to an advanced therapeutics course. DESIGN: PharmaCAL (University of Pittsburgh), a software program that uses a branched-outcome decision making model, was used to create patient simulations to augment lectures given in the course. In each simulation, students were presented with a challenge, given choices, and then provided with consequences specific to their choices. ASSESSMENTS: A survey was administered at the end of the course and students indicated the simulations were enjoyable (92%), easy to use (90%), stimulated interest in critically ill patients (82%), and allowed for application of lecture material (91%). A 5-item presimulation and postsimulation test on the anemia simulation was administered to assess learning. Students answered significantly more questions correctly on the postsimulation test than on the presimulation test (p < 0.001). Seventy-eight percent of students answered the same 5 questions correctly on the final examination. CONCLUSION: Patient simulation software that used a branched-outcome decision model was an effective supplement to class lectures in an advanced pharmaceutics course and was well-received by pharmacy students.
OBJECTIVE: To implement and assess the effectiveness of adding a pharmaceutical care simulation program to an advanced therapeutics course. DESIGN: PharmaCAL (University of Pittsburgh), a software program that uses a branched-outcome decision making model, was used to create patient simulations to augment lectures given in the course. In each simulation, students were presented with a challenge, given choices, and then provided with consequences specific to their choices. ASSESSMENTS: A survey was administered at the end of the course and students indicated the simulations were enjoyable (92%), easy to use (90%), stimulated interest in critically illpatients (82%), and allowed for application of lecture material (91%). A 5-item presimulation and postsimulation test on the anemia simulation was administered to assess learning. Students answered significantly more questions correctly on the postsimulation test than on the presimulation test (p < 0.001). Seventy-eight percent of students answered the same 5 questions correctly on the final examination. CONCLUSION:Patient simulation software that used a branched-outcome decision model was an effective supplement to class lectures in an advanced pharmaceutics course and was well-received by pharmacy students.
Authors: Aimon C Miranda; Radha V Patel; Shyam R Gelot; Rowshan Chowdhury; Erini S Serag-Bolos Journal: Am J Pharm Educ Date: 2019-03 Impact factor: 2.047
Authors: Neal Benedict; Pamela Smithburger; Amy Calabrese Donihi; Philip Empey; Lawrence Kobulinsky; Amy Seybert; Thomas Waters; Scott Drab; John Lutz; Deborah Farkas; Susan Meyer Journal: Am J Pharm Educ Date: 2017-02-25 Impact factor: 2.047