Medication Adherence Apps: Review and Content Analysis

被引:154
作者
Ahmed, Imran [1 ]
Ahmad, Niall Safir [1 ]
Ali, Shahnaz [2 ]
Ali, Shair [1 ]
George, Anju [1 ]
Danish, Hiba Saleem [1 ]
Uppal, Encarl [1 ]
Soo, James [1 ]
Mobasheri, Mohammad H. [3 ]
King, Dominic [4 ]
Cox, Benita [5 ]
Darzi, Ara [4 ]
机构
[1] Imperial Coll London, Undergrad Dept Med, Level 2,Fac Bldg South Kensington Campus, London SW7 2AZ, England
[2] Brighton & Sussex Med Sch, Brighton, E Sussex, England
[3] Imperial Coll London, Dept Surg & Canc, Div Surg, London, England
[4] Imperial Coll London, Inst Global Hlth Innovat, London, England
[5] Imperial Coll London, South Kensington Campus, London, England
关键词
medication adherence; patient compliance; mobile apps; telemedicine; smartphone; reminder systems; treatment outcome;
D O I
10.2196/mhealth.6432
中图分类号
R19 [保健组织与事业(卫生事业管理)];
学科分类号
摘要
Background: Medication adherence is an expensive and damaging problem for patients and health care providers. Patients adhere to only 50% of drugs prescribed for chronic diseases in developed nations. Digital health has paved the way for innovative smartphone solutions to tackle this challenge. However, despite numerous apps available claiming to improve adherence, a thorough review of adherence apps has not been carried out to date. Objective: The aims of this study were to (1) review medication adherence apps available in app repositories in terms of their evidence base, medical professional involvement in development, and strategies used to facilitate behavior change and improve adherence and (2) provide a system of classification for these apps. Methods: In April 2015, relevant medication adherence apps were identified by searching the Apple App Store and the Google Play Store using a combination of relevant search terms. Data extracted included app store source, app price, documentation of health care professional (HCP) involvement during app development, and evidence base for each respective app. Free apps were downloaded to explore the strategies used to promote medication adherence. Testing involved a standardized medication regimen of three reminders over a 4-hour period. Nonadherence features designed to enhance user experience were also documented. Results: The app repository search identified a total of 5881 apps. Of these, 805 fulfilled the inclusion criteria initially and were tested. Furthermore, 681 apps were further analyzed for data extraction. Of these, 420 apps were free for testing, 58 were inaccessible and 203 required payment. Of the 420 free apps, 57 apps were developed with HCP involvement and an evidence base was identified in only 4 apps. Of the paid apps, 9 apps had HCP involvement, 1 app had a documented evidence base, and 1 app had both. In addition, 18 inaccessible apps were produced with HCP involvement, whereas 2 apps had a documented evidence base. The 420 free apps were further analyzed to identify strategies used to improve medication adherence. This identified three broad categories of adherence strategies, reminder, behavioral, and educational. A total of 250 apps utilized a single method, 149 apps used two methods, and only 22 apps utilized all three methods. Conclusions: To our knowledge, this is the first study to systematically review all available medication adherence apps on the two largest app repositories. The results demonstrate a concerning lack of HCP involvement in app development and evidence base of effectiveness. More collaboration is required between relevant stakeholders to ensure development of high quality and relevant adherence apps with well-powered and robust clinical trials investigating the effectiveness of these interventions. A sound evidence base will encourage the adoption of effective adherence apps, and thus improve patient welfare in the process.
引用
收藏
页数:13
相关论文
共 36 条
[1]  
[Anonymous], 2011, HUMAN FACTORS COMPUT, DOI DOI 10.1145/1979742.1979575
[2]   FUNCTIONAL ABILITY OF PATIENTS TO MANAGE MEDICATION PACKAGING - A SURVEY OF GERIATRIC INPATIENTS [J].
ATKIN, PA ;
FINNEGAN, TP ;
OGLE, SJ ;
SHENFIELD, GM .
AGE AND AGEING, 1994, 23 (02) :113-116
[3]  
Atreja Ashish, 2005, MedGenMed, V7, P4
[4]   Contemporary Vascular Smartphone Medical Applications [J].
Carter, Thomas ;
O'Neill, Stephen ;
Johns, Neil ;
Brady, Richard R. W. .
ANNALS OF VASCULAR SURGERY, 2013, 27 (06) :804-809
[5]   iPhone Applications for Eye Care Professionals: A Review of Current Capabilities and Concerns [J].
Cheng, Nicholas M. ;
Chakrabarti, Rahul ;
Kam, Jonathan K. .
TELEMEDICINE AND E-HEALTH, 2014, 20 (04) :385-387
[6]   Mobile Applications to Improve Medication Adherence: Existing Apps, Quality of Life and Future Directions [J].
Choi, Ashley ;
Lovett, Annesha White ;
Kang, Jinhyang ;
Lee, KyungMi ;
Choi, Lydia .
ADVANCES IN PHARMACOLOGY AND PHARMACY, 2015, 3 (03) :64-74
[7]   Features of Mobile Diabetes Applications: Review of the Literature and Analysis of Current Applications Compared Against Evidence-Based Guidelines [J].
Chomutare, Taridzo ;
Fernandez-Luque, Luis ;
Arsand, Eirik ;
Hartvigsen, Gunnar .
JOURNAL OF MEDICAL INTERNET RESEARCH, 2011, 13 (03) :e65
[8]   Contemporary hernia smartphone applications (apps) [J].
Connor, K. ;
Brady, R. R. W. ;
de Beaux, A. ;
Tulloh, B. .
HERNIA, 2014, 18 (04) :557-561
[9]   Medication compliance and persistence: Terminology and definitions [J].
Cramer, Joyce A. ;
Roy, Anuja ;
Burrell, Anita ;
Fairchild, Carol J. ;
Fuldeore, Mahesh J. ;
Ollendorf, Daniel A. ;
Wong, Peter K. .
VALUE IN HEALTH, 2008, 11 (01) :44-47
[10]  
Davies Michael J., 2015, Pharmacy Pract (Granada), V13, DOI 10.18549/PharmPract.2015.04.644