Exploring the features of mobile phone application of anatomy in basic medical sciences: a qualitative study

Mansouri, Mahmoud; Bigdeli, Shoaleh; Dehnad, Afsaneh; Sohrabi, Zohreh; Alizadeh, Somayeh; Keshavarzi, Mohammad Hasan

doi:10.1186/s12909-020-02145-x

Cited by 12 publications

(17 citation statements)

References 18 publications

(25 reference statements)

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“…Their multifunctionality characterizes them, as they bring an interactive interface, in which the user can explore images, texts, and sometimes manipulate 3D AR software that is inserted into the platform (Tworek et al, 2013; Von Sass et al, 2015) or conduct videoconferences (Allsop et al, 2020). Part of them was designed to be accessed by smartphones, such as applications that bring 3D anatomical content or important theoretical texts (Li et al, 2014; Mansouri et al, 2020). Other platforms are accessed mainly on the desktop.…”

Section: Resultsmentioning

confidence: 99%

Technological resources for teaching and learning about human anatomy in the medical course: Systematic review of literature

Santos

Barreira

Saad

2021

Anatomical Sciences Ed

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The consolidation of technology as an alternative strategy to cadaveric dissection for teaching anatomy in medical courses was accelerated by the recent Covid‐19 pandemic, which caused the need for social distance policies and the closure of laboratories and classrooms. Consequently, new technologies were created, and those already been developed started to be better explored. However, information about many of these instruments and resources is not available to anatomy teachers. This systematic review presents the technological means for teaching and learning about human anatomy developed and applied in medical courses in the last ten years, besides the infrastructure necessary to use them. Studies in English, Portuguese, and Spanish were searched in MEDLINE, Scopus, ERIC, LILACS, and SciELO databases, initially resulting in a total of 875 identified articles, from which 102 were included in the analysis. They were classified according to the type of technology used: three‐dimensional (3D) printing (n = 22), extended reality (n = 49), digital tools (n = 23), and other technological resources (n = 8). It was made a detailed description of technologies, including the stage of the medical curriculum in which it was applied, the infrastructure utilized, and which contents were covered. The analysis shows that between all technologies, those related to the internet and 3D printing are the most applicable, both in student learning and the financial cost necessary for its structural implementation.

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Section: Resultsmentioning

confidence: 99%

Technological resources for teaching and learning about human anatomy in the medical course: Systematic review of literature

Santos

Barreira

Saad

2021

Anatomical Sciences Ed

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“…They suggested utilizing minimal data entry into the mobile application using selection controls such as checkboxes in the user interface design [ 33 ]. This is highlighted by Mansouri et al who mentioned that mobile applications will be acceptable and enhance learning if they are designed to be user-friendly [ 39 ]. In line with the current study, different studies have highlighted various features in the development of mobile applications such as easy-to-use and simple design [ 38 ], approved information by medical staff [ 32 ], links to reliable websites and information resources [ 35 ], and a mix of educational materials like video, images, voice, and text [ 34 , 39 – 41 ].…”

Section: Discussionmentioning

confidence: 99%

Identifying the content, functionalities, and features of a mobile application for contact lens wearers

Falahati-Marvast

Pucker

Alipour

et al. 2022

BMC Med Inform Decis Mak

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Background Lack of attention to end-users' requirements and preferences may lead to the failure of health information technology (IT) interventions. Identifying users’ needs for designing a mobile application can lead to the development of an acceptable intervention. This study aimed to determine the requirements for designing a mobile application to educate and provide needed information to contact lens (CL) wearers. Methods A qualitative study was conducted on 24 CL wearers and nine eye care practitioners from the three CL clinics in Iran. Data were collected through semi-structured interviews and analyzed using the conventional content analysis proposed by Lundman and Graneheim. Lincoln and Guba's criteria were used to ensure the trustworthiness of the data. Results The three main categories that emerged from the interviews were mobile application content, mobile application functionalities, and mobile application features. Ten subcategories and 57 sub-subcategories were also identified. It was determined that mobile content should focus on advice and information for optimizing the CL wearing experience and training regarding the use of CLs. Entering information required for self-care, computational capability, interactivity, updates, and reminders were determined as needed functionalities. The participants recommended features for the structure and user interface of the mobile application and information presentation methods. Conclusion This study identified the information needed to develop a mobile application for CL wearers. This also provides insights regarding required functionalities when applying IT interventions. These findings can be used by CL clinics, developers of health information systems, policymakers, and health planners to design better CL-related care and compliance interventions.

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“… 21 Some researchers have attempted to evaluate the valuable mobile health app of learning in basic medical sciences and clinical skills acquisition from features with visual richness, scientific comprehensiveness, auditory richness, usability, user-friendliness, self-assessment and professional. 22 , 23 Then, mobile health apps, usually serve as interventions, have showed better efficacy in medical education or clinical practice by randomized controlled trial (RCT). A RCT involving physiotherapy students has suggested the effectiveness of a mobile health apps as a complement to traditional education for developing skills in ultrasound and palpation of the shoulder region.…”

Section: Introductionmentioning

confidence: 99%

Factors Affecting Medical Students’ Continuance Intention to Use Mobile Health Applications

Hou

Ting-chao

et al. 2022

JMDH

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Background With the dramatic growth in smartphones, mobile health applications (apps) in the field of healthcare or medicine, which are characterized by strong operability, flexibility and interactivity, provide a supplementary approach to medical learning. The aims of this study were to awaken medical students to pay more attention to the learning function of mobile health app and gain deeper insight into our understanding of the factors influencing medical students’ mobile health apps continuance intention for enhancing practical utilization. Methods A cross-sectional survey was conducted with a self-designed questionnaire administered to medical students at Chongqing Medical University. Data were collected from 450 participants from March to April 2019. SPSS V.25 was used for the descriptive statistical analysis of the results. Smart PLS 3.2.7 was used to construct a structural equation modelling framework to estimate the influencing factors of medical students’ continuance intention to use mobile health apps. Results The external characteristics of mobile health apps had a positive influence on perceived ease of use (β = 0.378, P < 0.001). Perceived ease of use had a positive impact on perceived usefulness (β = 0.573, P < 0.001). Perceived ease of use (β = 0.195, P = 0.011), perceived usefulness (β = 0.450, P < 0.001) and subjective norms (β = 0.255, P < 0.001) had a positive impact on attitude towards using mobile health apps. Additionally, perceived usefulness (β = 0.202, P < 0.001) and attitude (β = 0.730, P < 0.001) had a remarkable influence on continuance intention. Furthermore, the mediating effect of attitude between perceived usefulness and continuance intention was significant (β = 0.329, P < 0.001). Conclusion Both perceived usefulness and attitude have a significant effect on medical students’ mobile health apps continuance intention. So, we suggest apps providers and developers evoking and maintaining users’ interest in mobile health apps and perfecting apps’ features from various aspect. Also, more attention should be paid on social relationship to introduce medical students to familiarize mobile health apps and strengthen adhesiveness of medical students.

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Exploring the features of mobile phone application of anatomy in basic medical sciences: a qualitative study

Cited by 12 publications

References 18 publications

Technological resources for teaching and learning about human anatomy in the medical course: Systematic review of literature

Technological resources for teaching and learning about human anatomy in the medical course: Systematic review of literature

Identifying the content, functionalities, and features of a mobile application for contact lens wearers

Factors Affecting Medical Students’ Continuance Intention to Use Mobile Health Applications

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