Published on in Vol 6, No 1 (2018): January

Comparing Diet and Exercise Monitoring Using Smartphone App and Paper Diary: A Two-Phase Intervention Study

Comparing Diet and Exercise Monitoring Using Smartphone App and Paper Diary: A Two-Phase Intervention Study

Comparing Diet and Exercise Monitoring Using Smartphone App and Paper Diary: A Two-Phase Intervention Study

Journals

  1. Turner-McGrievy G, Dunn C, Wilcox S, Boutté A, Hutto B, Hoover A, Muth E. Defining Adherence to Mobile Dietary Self-Monitoring and Assessing Tracking Over Time: Tracking at Least Two Eating Occasions per Day Is Best Marker of Adherence within Two Different Mobile Health Randomized Weight Loss Interventions. Journal of the Academy of Nutrition and Dietetics 2019;119(9):1516 View
  2. Chu Y, Cheng Y, Lai Y, Tsao Y, Tu T, Young S, Chen T, Chung Y, Lai F, Liao W. A Mobile Phone–Based Approach for Hearing Screening of School-Age Children: Cross-Sectional Validation Study. JMIR mHealth and uHealth 2019;7(4):e12033 View
  3. Ahn J, Lee H, Kim J, Park H, Kim D, Lee J. Use of a Smartphone App for Weight Loss Versus a Paper-Based Dietary Diary in Overweight Adults: Randomized Controlled Trial. JMIR mHealth and uHealth 2020;8(7):e14013 View
  4. Bond D, Hammond J, Shand A, Nassar N. Comparing a Mobile Phone Automated System With a Paper and Email Data Collection System: Substudy Within a Randomized Controlled Trial. JMIR mHealth and uHealth 2020;8(8):e15284 View
  5. Choi E, Jung E, Bae E, Ji Y, Lee A. Two-Step Integrative Education Program and mHealth for Korean Children with Spina Bifida: A Quasi-Experimental Pre-Post Study. Journal of Pediatric Nursing 2020;51:e92 View
  6. Astley S. Exploitation of European Union Framework Programme results in food, health and wellbeing by small‐ and medium‐sized enterprises: The ‘Quantify Life – Feed Yourself’ (QuaLiFY) project. Nutrition Bulletin 2018;43(2):195 View
  7. Villasana M, Pires I, Sá J, Garcia N, Zdravevski E, Chorbev I, Lameski P, Flórez-Revuelta F. Promotion of Healthy Nutrition and Physical Activity Lifestyles for Teenagers: A Systematic Literature Review of The Current Methodologies. Journal of Personalized Medicine 2020;10(1):12 View
  8. Srivastav P, Broadbent S, K V, Nayak B, Bhat H. Prevention of adolescent obesity: The global picture and an indian perspective. Diabetes & Metabolic Syndrome: Clinical Research & Reviews 2020;14(5):1195 View
  9. Villasana M, Pires I, Sá J, Garcia N, Teixeira M, Zdravevski E, Chorbev I, Lameski P. Promotion of Healthy Lifestyles to Teenagers with Mobile Devices: A Case Study in Portugal. Healthcare 2020;8(3):315 View
  10. Orlemann T, Reljic D, Zenker B, Meyer J, Eskofier B, Thiemt J, Herrmann H, Neurath M, Zopf Y. A Novel Mobile Phone App (OncoFood) to Record and Optimize the Dietary Behavior of Oncologic Patients: Pilot Study. JMIR Cancer 2018;4(2):e10703 View
  11. Lee A, Chavez S, Bian J, Thompson L, Gurka M, Williamson V, Modave F. Efficacy and Effectiveness of Mobile Health Technologies for Facilitating Physical Activity in Adolescents: Scoping Review. JMIR mHealth and uHealth 2019;7(2):e11847 View
  12. McKinney P, Cox A, Sbaffi L. Information Literacy in Food and Activity Tracking Among Parkrunners, People With Type 2 Diabetes, and People With Irritable Bowel Syndrome: Exploratory Study. Journal of Medical Internet Research 2019;21(8):e13652 View
  13. Widhalm K, Schöber V, Schmiedl G. Die Cally-App. Journal für Klinische Endokrinologie und Stoffwechsel 2021;14(1):34 View
  14. San Giovanni C, Dawley E, Pope C, Steffen M, Roberts J. The Doctor Will “Friend” You Now: A Qualitative Study on Adolescents’ Preferences for Weight Management App Features. Southern Medical Journal 2021;114(7):373 View
  15. Ragelienė T, Aschemann-Witzel J, Grønhøj A. Efficacy of a smartphone application-based intervention for encouraging children’s healthy eating in Denmark. Health Promotion International 2022;37(1) View
  16. Tanweer A, Khan S, Mustafa F, Imran S, Humayun A, Hussain Z. Improving dietary data collection tools for better nutritional assessment – A systematic review. Computer Methods and Programs in Biomedicine Update 2022;2:100067 View
  17. Ptomey L, Oreskovic N, Hendrix J, Nichols D, Agiovlasitis S. Weight management recommendations for youth with Down syndrome: Expert recommendations. Frontiers in Pediatrics 2023;10 View
  18. Chen J, Grech A, Allman-Farinelli M. Using Popular Foods Consumed to Inform Development of Digital Tools for Dietary Assessment and Monitoring. Nutrients 2022;14(22):4822 View
  19. Zhao K, Liu W, Qu Z. The Design of the Exercise Load Monitoring System Based on Internet of Things. Wireless Communications and Mobile Computing 2022;2022:1 View
  20. Khayat S, Palizvan M, Navidian A, Fanaei H, Sheikhi Z. Comparison of the effect of face-to-face training and telemedicine on self-care in adolescent pregnant women: A quasi-experimental study. Journal of Education and Health Promotion 2022;11(1):326 View
  21. McNitt K, Hohman E, Rivera D, Guo P, Pauley A, Gernand A, Symons Downs D, Savage J. Underreporting of Energy Intake Increases over Pregnancy: An Intensive Longitudinal Study of Women with Overweight and Obesity. Nutrients 2022;14(11):2326 View
  22. Devonport T, Chen-Wilson C, Nicholls W, Robazza C, Cagas J, Fernández-Montalvo J, Choi Y, Ruiz M. Brief Remote Intervention to Manage Food Cravings and Emotions During the COVID-19 Pandemic: A Pilot Study. Frontiers in Psychology 2022;13 View
  23. Kumar D, Bhardwaj A, Sharma S, Malhotra B, Amadi-Mgbenka C, Grover A, Joshi A. Designing and Evaluating a Personalized, Human-Centered Dietary Decision Support System for Use Among People With Diabetes in an Indian Setting: Protocol for a Quasi-Experimental Study. JMIR Research Protocols 2022;11(3):e13635 View
  24. Evans S, Ashmore C, Daly A, Dhadwar P, Syed A, Lecocq O, Jackson R, Pinto A, MacDonald A. Efficacy of a New Low-Protein Multimedia Diet App for PKU. Nutrients 2022;14(11):2182 View
  25. Hinojosa-Nogueira D, Pérez-Burillo S, Navajas-Porras B, Ortiz-Viso B, de la Cueva S, Lauria F, Fatouros A, Priftis K, González-Vigil V, Rufián-Henares J. Development of an Unified Food Composition Database for the European Project “Stance4Health”. Nutrients 2021;13(12):4206 View
  26. Ptomey L, Washburn R, Goetz J, Sullivan D, Gibson C, Mayo M, Krebill R, Gorczyca A, Montgomery R, Honas J, Helsel B, Donnelly J. Weight Loss Interventions for Adolescents With Intellectual Disabilities: An RCT. Pediatrics 2021;148(3) View
  27. Truman E, Elliott C. Testing a Mobile App for Participatory Research to Identify Teen-Targeted Food Marketing: Mixed Methods Study. JMIR Formative Research 2022;6(5):e35886 View
  28. Tanweer A, Zia M, Riaz K, Mushtaq H, Siddique M, Imran S, Humayun A, Hussain Z. Comparing the web-based and traditional self-reported 24-hour dietary recall data in the PakNutriStudy. Computer Methods and Programs in Biomedicine 2023;240:107682 View
  29. Crumbley C, Cepni A, Taylor A, Thompson D, Moran N, Olvera N, O’Connor D, Johnston C, Ledoux T. Exploring Factors Associated With Accelerometer Validity Among Ethnically Diverse Toddlers. Pediatric Exercise Science 2024;36(2):66 View
  30. Schaafsma H, Jantzi H, Seabrook J, McEachern L, Burke S, Irwin J, Gilliland J. The impact of smartphone app–based interventions on adolescents’ dietary intake: a systematic review and evaluation of equity factor reporting in intervention studies. Nutrition Reviews 2024;82(4):467 View
  31. Bianchini C, Bonomo P, Bossi P, Caccialanza R, Fabi A. Bridging gaps in cancer cachexia Care: Current insights and future perspectives. Cancer Treatment Reviews 2024;125:102717 View
  32. Prapkree L, Deringer R, Coccia C, Huffman F, Palacios C. Effect of using the snackability app on snack quality among US college students with overweight and obesity: A randomized controlled trial. Journal of American College Health 2024:1 View

Books/Policy Documents

  1. Villasana M, Pires I, Sá J, Garcia N, Zdravevski E, Chorbev I, Lameski P. IoT Technologies for HealthCare. View