Published on in Vol 20, No 12 (2018): December

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/12460, first published .
Continuous Temperature-Monitoring Socks for Home Use in Patients With Diabetes: Observational Study

Continuous Temperature-Monitoring Socks for Home Use in Patients With Diabetes: Observational Study

Continuous Temperature-Monitoring Socks for Home Use in Patients With Diabetes: Observational Study

Journals

  1. Golledge J, Fernando M, Lazzarini P, Najafi B, G. Armstrong D. The Potential Role of Sensors, Wearables and Telehealth in the Remote Management of Diabetes-Related Foot Disease. Sensors 2020;20(16):4527 View
  2. Dabó S, Brandão M, Araújo T, Frota N, Veras V. Tecnologias digitais na prevenção de pé diabético: uma revisão sobre aplicativos móveis. ESTIMA, Brazilian Journal of Enterostomal Therapy 2020 View
  3. Armstrong D. Subscription prescription: remote patient monitoring using smart shoes, socks and insoles. Journal of Wound Care 2019;28(Sup9):S3 View
  4. Hazenberg C, Stegge W, Van Baal S, Moll F, Bus S. Telehealth and telemedicine applications for the diabetic foot: A systematic review. Diabetes/Metabolism Research and Reviews 2020;36(3) View
  5. Liu Y, Shao S, Guo H. Schwann cells apoptosis is induced by high glucose in diabetic peripheral neuropathy. Life Sciences 2020;248:117459 View
  6. Macdonald E, Perrin B, Kingsley M. Factors influencing Australian podiatrists’ behavioural intentions to adopt a smart insole into clinical practice: a mixed methods study. Journal of Foot and Ankle Research 2020;13(1) View
  7. Jones P, Bibb R, Davies M, Khunti K, McCarthy M, Webb D, Zaccardi F. Prediction of Diabetic Foot Ulceration: The Value of Using Microclimate Sensor Arrays. Journal of Diabetes Science and Technology 2020;14(1):55 View
  8. Dabó S, Brandão M, Araújo T, Frota N, Veras V. Digital technologies in the prevention of diabetic foot: a review on mobile applications. ESTIMA, Brazilian Journal of Enterostomal Therapy 2020 View
  9. Aldana P, Khachemoune A. Diabetic Foot Ulcers: Appraising Standard of Care and Reviewing New Trends in Management. American Journal of Clinical Dermatology 2020;21(2):255 View
  10. Najafi B, Reeves N, Armstrong D. Leveraging smart technologies to improve the management of diabetic foot ulcers and extend ulcer‐free days in remission. Diabetes/Metabolism Research and Reviews 2020;36(S1) View
  11. Angelucci A, Cavicchioli M, Cintorrino I, Lauricella G, Rossi C, Strati S, Aliverti A. Smart Textiles and Sensorized Garments for Physiological Monitoring: A Review of Available Solutions and Techniques. Sensors 2021;21(3):814 View
  12. Drăgulinescu A, Drăgulinescu A, Zincă G, Bucur D, Feieș V, Neagu D. Smart Socks and In-Shoe Systems: State-of-the-Art for Two Popular Technologies for Foot Motion Analysis, Sports, and Medical Applications. Sensors 2020;20(15):4316 View
  13. Rodrigues da Silva A, De Carvalho Neto F, Rosa Guimarães M, Alves Bernardes R, Reges Brito V, Vilarouca da Silva A. <b> Tecnologia móvel no cuidado com os pés em pessoas com diabetes mellitus: Revisão Integrativa / Mobile technology to promotefoot management among people with diabetes mellitus: An Integrative Review <b>. Ciência, Cuidado e Saúde 2020;19 View
  14. Beach C, Casson A. Inertial Kinetic Energy Harvesters for Wearables: The Benefits of Energy Harvesting at the Foot. IEEE Access 2020;8:208136 View
  15. Yeh C, Chung Y, Chuang K, Shu Y, Kao H, Chen P, Ko W, Ko N. An Innovative Wearable Device For Monitoring Continuous Body Surface Temperature (HEARThermo): Instrument Validation Study. JMIR mHealth and uHealth 2021;9(2):e19210 View

Books/Policy Documents

  1. Najafi B, Swerdlow M, Murphy G, Armstrong D. Diabetes Digital Health. View
  2. Mirghani H. Diabetic Foot Ulcer. View
  3. Najafi B, Swerdlow M, Murphy G, Armstrong D. Telemedicine, Telehealth and Telepresence. View