Your search keyword '"Eirik Årsand"' showing total 4 results

1. The COVID-19 Pandemic Revealed the Importance and Shortcomings of Technologies for Diabetes Support

Author

Eirik Årsand

Subjects

Special Issue Articles, Telemedicine, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), social media, Endocrinology, Diabetes and Metabolism, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), diabetes technologies, Pneumonia, Viral, Biomedical Engineering, Bioengineering, Betacoronavirus, Special Section: Personal Experiences With COVID-19 and Diabetes: An International Perspective, Diabetes mellitus, Political science, Pandemic, Diabetes Mellitus, Internal Medicine, medicine, Humans, Hypoglycemic Agents, Medication Distribution, Pandemics, Norway, SARS-CoV-2, business.industry, COVID-19, Public relations, medicine.disease, Online Social Networking, video conferencing, medication distribution, Coronavirus Infections, business

Published

2020

2. Integrating Visual Dietary Documentation in Mobile-Phone-Based Self-Management Application for Adolescents With Type 1 Diabetes

Author

Eirik Årsand and Dag Helge Frøisland

Subjects

Blood Glucose, Male, Knowledge management, Adolescent, Endocrinology, Diabetes and Metabolism, media_common.quotation_subject, Biomedical Engineering, Bioengineering, Documentation, Eating, Young Adult, Carbohydrate counting, Insulin Infusion Systems, Internal Medicine, Humans, Medicine, Empowerment, media_common, Glycated Hemoglobin, Self-efficacy, Medical education, Type 1 diabetes, Self-management, business.industry, medicine.disease, Mobile Applications, Self Efficacy, Self Care, Diabetes Mellitus, Type 1, Feeling, Mobile phone, Female, Special Section: Image-Based Dietary Assessment, business, Cell Phone

Abstract

The goal of modern diabetes treatment is to a large extent focused on self-management to achieve and maintain a healthy, low HbA1c. Despite all new technical diabetes tools and support, including advanced blood glucose meters and insulin delivery systems, diabetes patients still struggle to achieve international treatment goals, that is, HbA1c < 7.5 in children and adolescents. In this study we developed and tested a mobile-phone-based tool to capture and visualize adolescents’ food intake. Our aim was to affect understanding of carbohydrate counting and also to facilitate doctor–adolescent communication with regard to daily treatment. Furthermore, we wanted to evaluate the effect of the designed tool with regard to empowerment, self-efficacy, and self-treatment. The study concludes that implementing a visualization tool is an important contribution for young people to understand the basics of diabetes and to empower young people to define their treatment challenges. By capturing a picture of their own food, the person’s own feeling of being in charge can be affected and better self-treatment achieved.

Published

2015

3. Performance of the First Combined Smartwatch and Smartphone Diabetes Diary Application Study

Author

Gunnar Hartvigsen, Jan Muzik, Miroslav Muzny, Meghan Bradway, and Eirik Årsand

Subjects

Adult, Blood Glucose, Male, Endocrinology, Diabetes and Metabolism, Internet privacy, Biomedical Engineering, Wearable computer, Bioengineering, Diabetes self management, Diet Records, Smartwatch, Young Adult, Surveys and Questionnaires, Diabetes mellitus, Dietary Carbohydrates, Internal Medicine, Humans, Hypoglycemic Agents, Insulin, Medicine, business.industry, Original Articles, Blood Pressure Monitoring, Ambulatory, Middle Aged, medicine.disease, Mobile Applications, Self Care, Diabetes Mellitus, Type 1, Mobile phone, Self care, Feasibility Studies, Female, Smartphone, Diabetic patient, business

Abstract

Background: Wearable computing has long been described as the solution to many health challenges. However, the use of this technology as a diabetes patient self-management tool has not been fully explored. A promising platform for this use is the smartwatch—a wrist-worn device that not only tells time but also provides internet connection and ability to communicate information to and from a mobile phone. Method: Over 9 months, the design of a diabetes diary application for a smartwatch was completed using agile development methods. The system, including a two-way communication between the applications on the smartwatch and mobile phone, was tested with 6 people with type 1 diabetes. A small number of participants was deliberately chosen due to ensure an efficient use of resources on a novel system. Results: The designed smartwatch system displays the time, day, date, and remaining battery time. It also allows for the entry of carbohydrates, insulin, and blood glucose (BG), with the option to view previously recorded data. Users were able to record specific physical activities, program reminders, and automatically record and transfer data, including step counts, to the mobile phone version of the diabetes diary. The smartwatch system can also be used as a stand-alone tool. Users reported usefulness, responded positively toward its functionalities, and also provided specific suggestions for further development. Suggestions were implemented after the feasibility study. Conclusions: The presented system and study demonstrate that smartwatches have opened up new possibilities within the diabetes self-management field by providing easier ways of monitoring BG, insulin injections, physical activity and dietary information directly from the wrist.

Published

2015

4. Mobile Health Applications to Assist Patients with Diabetes: Lessons Learned and Design Implications

Author

Naoe Tatara, Gunnar Hartvigsen, James T. Tufano, Eirik Årsand, Taridzo Chomutare, Stein Olav Skrøvseth, and Dag Helge Frøisland

Subjects

Telemedicine, Short Message Service, Computer science, Endocrinology, Diabetes and Metabolism, Biomedical Engineering, Bioengineering, Review Article, computer.software_genre, Models, Biological, Phone, Health care, Diabetes Mellitus, Internal Medicine, Humans, Learning, mHealth, Text Messaging, Self-management, Multimedia, business.industry, Equipment Design, Mobile phone, InformationSystems_MISCELLANEOUS, User interface, business, computer, Cell Phone, Information Systems

Abstract

Self-management is critical to achieving diabetes treatment goals. Mobile phones and Bluetooth® can supportself-management and lifestyle changes for chronic diseases such as diabetes. A mobile health (mHealth) research platform--the Few Touch Application (FTA)--is a tool designed to support the self-management of diabetes. The FTA consists of a mobile phone-based diabetes diary, which can be updated both manually from user input and automatically by wireless data transfer, and which provides personalized decision support for the achievement of personal health goals. Studies and applications (apps) based on FTAs have included: (1) automatic transfer of blood glucose (BG) data; (2) short message service (SMS)-based education for type 1diabetes (T1DM); (3) a diabetes diary for type 2 diabetes (T2DM); (4) integrating a patient diabetes diary with health care (HC) providers; (5) a diabetes diary for T1DM; (6) a food picture diary for T1DM; (7) physical activity monitoring for T2DM; (8) nutrition information for T2DM; (9) context sensitivity in mobile self-help tools; and (10) modeling of BG using mobile phones. We have analyzed the performance of these 10 FTA-based apps to identify lessons for designing the most effective mHealth apps. From each of the 10 apps of FTA, respectively, we conclude: (1) automatic BG data transfer is easy to use and provides reassurance; (2) SMS-based education facilitates parent-child communication in T1DM; (3) the T2DM mobile phone diary encourages reflection; (4) the mobile phone diary enhances discussion between patients and HC professionals; (5) the T1DM mobile phone diary is useful and motivational; (6) the T1DM mobile phone picture diary is useful in identifying treatment obstacles; (7) the step counter with automatic data transfer promotes motivation and increases physical activity in T2DM; (8) food information on a phone for T2DM should not be at a detailed level; (9) context sensitivity has good prospects and is possible to implement on today's phones; and (10) BG modeling on mobile phones is promising for motivated T1DM users. We expect that the following elements will be important in future FTA designs: (A) automatic data transfer when possible; (B) motivational and visual user interfaces; (C) apps with considerable health benefits in relation to the effort required; (D) dynamic usage, e.g., both personal and together with HC personnel, long-/short-term perspective; and (E) inclusion of context sensitivity in apps. We conclude that mHealth apps will empower patients to take a more active role in managing their own health.

Published

2012