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Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception

Background: Augmented reality (AR) is a technological approach which combines virtual objects such as text, pictures or videos with physical objects (real-world). The study aimed to design, implement and validate a mobile-based AR application, as a self-paced, interactive, student-centered learning...

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Autores principales: Nounou, Mohamed Ismail, Eassa, Heba A., Orzechowski, Kamila, Eassa, Hadeer A., Edouard, Jerry, Stepak, Nicole, Khdeer, Mohammad, Kalam, Mohammed, Huynh, Diana, Kwarteng, Eric, Mohamed, Kamilia H. A., Helal, Nada A., Ahmed, Nehal A., Edafiogho, Ivan O., Ghoneim, Ola
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9326741/
https://www.ncbi.nlm.nih.gov/pubmed/35893710
http://dx.doi.org/10.3390/pharmacy10040072
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author Nounou, Mohamed Ismail
Eassa, Heba A.
Orzechowski, Kamila
Eassa, Hadeer A.
Edouard, Jerry
Stepak, Nicole
Khdeer, Mohammad
Kalam, Mohammed
Huynh, Diana
Kwarteng, Eric
Mohamed, Kamilia H. A.
Helal, Nada A.
Ahmed, Nehal A.
Edafiogho, Ivan O.
Ghoneim, Ola
author_facet Nounou, Mohamed Ismail
Eassa, Heba A.
Orzechowski, Kamila
Eassa, Hadeer A.
Edouard, Jerry
Stepak, Nicole
Khdeer, Mohammad
Kalam, Mohammed
Huynh, Diana
Kwarteng, Eric
Mohamed, Kamilia H. A.
Helal, Nada A.
Ahmed, Nehal A.
Edafiogho, Ivan O.
Ghoneim, Ola
author_sort Nounou, Mohamed Ismail
collection PubMed
description Background: Augmented reality (AR) is a technological approach which combines virtual objects such as text, pictures or videos with physical objects (real-world). The study aimed to design, implement and validate a mobile-based AR application, as a self-paced, interactive, student-centered learning tool be used in the pharmaceutical compounding laboratory course for first year pharmacy students. Method: A mobile-based AR application (Amplified Rx app; HeyPayLess Inc) compatible with iOS and android operating system was developed. A cross-over study design was conducted where alternatively, one group was subjected to ARx app implementation in 8 formulations and the other group served as control. The reception and benefits to students were assessed via a 10 questions survey. In this case, 69 (2019) and 55 (2020) students participated in the study. Result: Students’ use of ARx app was increased in 2020 which indicates its usefulness. For acceptability, leaners enjoyed interactive materials and tutorial videos were the most used and appealing item. Learners described the installation, scanning and operation to be very easy in both years. 86.95% of learners were confident conducting the experiments with the assistance of ARx app in 2019 and increased to 92.73% in 2020. 33.33% considered ARx app to be the most helpful resource in 2019, and the percent was significantly increased to 76.36% in 2020. Conclusion: AR technology implementation in pharmaceutical education could create student-centered engaging and interactive learning experience in fundamental areas such as pharmaceutical compounding laboratories.
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spelling pubmed-93267412022-07-28 Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception Nounou, Mohamed Ismail Eassa, Heba A. Orzechowski, Kamila Eassa, Hadeer A. Edouard, Jerry Stepak, Nicole Khdeer, Mohammad Kalam, Mohammed Huynh, Diana Kwarteng, Eric Mohamed, Kamilia H. A. Helal, Nada A. Ahmed, Nehal A. Edafiogho, Ivan O. Ghoneim, Ola Pharmacy (Basel) Article Background: Augmented reality (AR) is a technological approach which combines virtual objects such as text, pictures or videos with physical objects (real-world). The study aimed to design, implement and validate a mobile-based AR application, as a self-paced, interactive, student-centered learning tool be used in the pharmaceutical compounding laboratory course for first year pharmacy students. Method: A mobile-based AR application (Amplified Rx app; HeyPayLess Inc) compatible with iOS and android operating system was developed. A cross-over study design was conducted where alternatively, one group was subjected to ARx app implementation in 8 formulations and the other group served as control. The reception and benefits to students were assessed via a 10 questions survey. In this case, 69 (2019) and 55 (2020) students participated in the study. Result: Students’ use of ARx app was increased in 2020 which indicates its usefulness. For acceptability, leaners enjoyed interactive materials and tutorial videos were the most used and appealing item. Learners described the installation, scanning and operation to be very easy in both years. 86.95% of learners were confident conducting the experiments with the assistance of ARx app in 2019 and increased to 92.73% in 2020. 33.33% considered ARx app to be the most helpful resource in 2019, and the percent was significantly increased to 76.36% in 2020. Conclusion: AR technology implementation in pharmaceutical education could create student-centered engaging and interactive learning experience in fundamental areas such as pharmaceutical compounding laboratories. MDPI 2022-06-28 /pmc/articles/PMC9326741/ /pubmed/35893710 http://dx.doi.org/10.3390/pharmacy10040072 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Nounou, Mohamed Ismail
Eassa, Heba A.
Orzechowski, Kamila
Eassa, Hadeer A.
Edouard, Jerry
Stepak, Nicole
Khdeer, Mohammad
Kalam, Mohammed
Huynh, Diana
Kwarteng, Eric
Mohamed, Kamilia H. A.
Helal, Nada A.
Ahmed, Nehal A.
Edafiogho, Ivan O.
Ghoneim, Ola
Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title_full Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title_fullStr Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title_full_unstemmed Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title_short Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students’ Benefits and Reception
title_sort mobile-based augmented reality application in pharmacy schools implemented in pharmaceutical compounding laboratories: students’ benefits and reception
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9326741/
https://www.ncbi.nlm.nih.gov/pubmed/35893710
http://dx.doi.org/10.3390/pharmacy10040072
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