TY - JOUR
T1 - Compliance of Type 2 Diabetes Applications to International Guidelines
T2 - Protocol for a Quantitative App Assessment
AU - Rebus, David
AU - Iskander, Andrew
AU - Deonarine, Felicia
AU - Almas, Asad
AU - Rattigan, Darren
AU - Henn, Patrick
AU - Fadahunsi, Kayode Philip
AU - O'Donoghue, John
N1 - Publisher Copyright:
© David Rebus, Andrew Iskander, Felicia Deonarine, Asad Almas, Darren Rattigan, Patrick Henn, Kayode Philip Fadahunsi, John O'Donoghue.
PY - 2024/1
Y1 - 2024/1
N2 - Background: Diabetes is among the most common chronic conditions people live with across the world. While it can be managed to a substantial degree, it can result in significant complications. As such, easy access to accurate tools to aid diabetes management is useful in minimizing these complications. Mobile apps are highly accessible and widely used, but there is a gap in the literature examining their compliance with medical guidelines. Objective: The aims of this study are to develop the Analysis of Diabetes Apps (ADA) checklist to evaluate apps’ compliance to guidelines set by the International Diabetes Federation (IDF) on the treatment and management of type 2 diabetes; to assess type 2 diabetes apps in the Apple App Store and the Android Google Play Store, and their compliance with international guidelines using the ADA framework; and to compare the novel ADA checklist against both the Mobile App Rating Scale (MARS) tool kit and app ratings for each store. Methods: We will develop a checklist based on the “IDF Clinical Practice Recommendations for Managing Type 2 Diabetes in Primary Care.” Type 2 diabetes apps will be scraped from 6 countries’ app stores using web scraping tools. These countries include Australia, Brazil, India, Nigeria, the United States, and the United Kingdom, which were selected based on the largest population of English-speaking people in each continent. The apps will be searched on the web-based scraper using the search terms “blood sugar,” “diabetes,” “glucose level,” “insulin,” “sugar level,” and “type 2 diabetes.” Apps will be excluded if they are paid or are not in English. The apps will be assessed using the ADA checklist to evaluate their compliance to the international diabetes guidelines. Once scored, the results will be analyzed with descriptive statistics. The most popular apps will be further analyzed using the MARS tool kit. The ADA checklist scores will then be compared to both the MARS tool kit score and app ratings for each store. Results: The ADA checklist developed based on the IDF guidelines focuses on general information, risk factors, diagnosis, pharmacology, lifestyle modification, glycemic recommendations, and medications. The initial stress testing of the protocol resulted in 173 included apps. This will vary in the final search as the app stores are constantly changing. Conclusions: The protocol presents the development of a checklist to investigate the compliance of type 2 diabetes apps with international guidelines. The checklist will hopefully form the basis of a scoring system for future research on compliance of mobile apps with international guidelines. High standardization of the ADA checklist will make it a robust tool for people with diabetes and their health care providers alike in assessing type 2 diabetes apps in the future.
AB - Background: Diabetes is among the most common chronic conditions people live with across the world. While it can be managed to a substantial degree, it can result in significant complications. As such, easy access to accurate tools to aid diabetes management is useful in minimizing these complications. Mobile apps are highly accessible and widely used, but there is a gap in the literature examining their compliance with medical guidelines. Objective: The aims of this study are to develop the Analysis of Diabetes Apps (ADA) checklist to evaluate apps’ compliance to guidelines set by the International Diabetes Federation (IDF) on the treatment and management of type 2 diabetes; to assess type 2 diabetes apps in the Apple App Store and the Android Google Play Store, and their compliance with international guidelines using the ADA framework; and to compare the novel ADA checklist against both the Mobile App Rating Scale (MARS) tool kit and app ratings for each store. Methods: We will develop a checklist based on the “IDF Clinical Practice Recommendations for Managing Type 2 Diabetes in Primary Care.” Type 2 diabetes apps will be scraped from 6 countries’ app stores using web scraping tools. These countries include Australia, Brazil, India, Nigeria, the United States, and the United Kingdom, which were selected based on the largest population of English-speaking people in each continent. The apps will be searched on the web-based scraper using the search terms “blood sugar,” “diabetes,” “glucose level,” “insulin,” “sugar level,” and “type 2 diabetes.” Apps will be excluded if they are paid or are not in English. The apps will be assessed using the ADA checklist to evaluate their compliance to the international diabetes guidelines. Once scored, the results will be analyzed with descriptive statistics. The most popular apps will be further analyzed using the MARS tool kit. The ADA checklist scores will then be compared to both the MARS tool kit score and app ratings for each store. Results: The ADA checklist developed based on the IDF guidelines focuses on general information, risk factors, diagnosis, pharmacology, lifestyle modification, glycemic recommendations, and medications. The initial stress testing of the protocol resulted in 173 included apps. This will vary in the final search as the app stores are constantly changing. Conclusions: The protocol presents the development of a checklist to investigate the compliance of type 2 diabetes apps with international guidelines. The checklist will hopefully form the basis of a scoring system for future research on compliance of mobile apps with international guidelines. High standardization of the ADA checklist will make it a robust tool for people with diabetes and their health care providers alike in assessing type 2 diabetes apps in the future.
KW - accuracy
KW - application
KW - assistance
KW - chronic condition
KW - diabetes
KW - diabetes application
KW - management
KW - mHealth
KW - mobile apps
KW - Mobile Apps Rating Scale
KW - mobile health
KW - monitoring
KW - safety
KW - tool
KW - treatment
KW - type 2 diabetes
UR - http://www.scopus.com/inward/record.url?scp=85185178300&partnerID=8YFLogxK
U2 - 10.2196/48781
DO - 10.2196/48781
M3 - Article
AN - SCOPUS:85185178300
SN - 1929-0748
VL - 13
SP - e48781
JO - JMIR Research Protocols
JF - JMIR Research Protocols
IS - 1
M1 - e48781
ER -