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Year Number of Results
1982 1
1991 1
1993 1
1995 3
1996 1
1997 1
2000 3
2001 1
2002 1
2007 1
2008 1
2010 1
2013 1
2014 1
2015 2
2016 1
2018 5
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2020 2
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2023 5
2024 1

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Page 1
Management of type 1 diabetes in pregnancy: update on lifestyle, pharmacological treatment, and novel technologies for achieving glycaemic targets.
Benhalima K, Beunen K, Siegelaar SE, Painter R, Murphy HR, Feig DS, Donovan LE, Polsky S, Buschur E, Levy CJ, Kudva YC, Battelino T, Ringholm L, Mathiesen ER, Mathieu C. Benhalima K, et al. Lancet Diabetes Endocrinol. 2023 Jul;11(7):490-508. doi: 10.1016/S2213-8587(23)00116-X. Epub 2023 Jun 5. Lancet Diabetes Endocrinol. 2023. PMID: 37290466 Review.
Mucosa-interfacing electronics.
Nan K, Feig VR, Ying B, Howarth JG, Kang Z, Yang Y, Traverso G. Nan K, et al. Nat Rev Mater. 2022;7(11):908-925. doi: 10.1038/s41578-022-00477-2. Epub 2022 Sep 14. Nat Rev Mater. 2022. PMID: 36124042 Free PMC article. Review.
However, progress is still nascent for mucosa-interfacing electronics owing to challenges with establishing robust sensor-tissue interfaces; device localization, retention and removal; and power and data transfer. ...
However, progress is still nascent for mucosa-interfacing electronics owing to challenges with establishing robust sensor-tissue interfaces; …
Conjugated Polymer for Implantable Electronics toward Clinical Application.
Liu Y, Feig VR, Bao Z. Liu Y, et al. Adv Healthc Mater. 2021 Sep;10(17):e2001916. doi: 10.1002/adhm.202001916. Epub 2021 Apr 25. Adv Healthc Mater. 2021. PMID: 33899347 Review.
This review article summarizes the latest advances in implantable electronics using conjugated polymers as electroactive materials and identifies remaining challenges and opportunities for developing electronic medicine. Examples of conjugated polymer-based bioelectronic devic
This review article summarizes the latest advances in implantable electronics using conjugated polymers as electroactive materials and ident …
Response to Comment on Feig et al. Pumps or Multiple Daily Injections in Pregnancy Involving Type 1 Diabetes: A Prespecified Analysis of the CONCEPTT Randomized Trial. Diabetes Care 2018;41:2471-2479.
Feig DS, Corcoy R, Donovan LE, Murphy KE, Barrett JFR, Sanchez JJ, Ruedy K, Kollman C, Tomlinson G, Murphy HR; CONCEPTT Collaborative Group. Feig DS, et al. Diabetes Care. 2019 Jun;42(6):e98-e99. doi: 10.2337/dci19-0013. Diabetes Care. 2019. PMID: 31110123 No abstract available.
Research Techniques Made Simple: Cutaneous Colorimetry: A Reliable Technique for Objective Skin Color Measurement.
Ly BCK, Dyer EB, Feig JL, Chien AL, Del Bino S. Ly BCK, et al. J Invest Dermatol. 2020 Jan;140(1):3-12.e1. doi: 10.1016/j.jid.2019.11.003. J Invest Dermatol. 2020. PMID: 31864431 Free article. Review.
Objective quantification of skin color can be achieved with colorimetric devices such as tristimulus colorimeters. These devices compute the intensity of light reflected from skin and correlate with pigmentation and erythema. ...Additionally, skin color's ful …
Objective quantification of skin color can be achieved with colorimetric devices such as tristimulus colorimeters. These devices
Activated Metals to Generate Heat for Biomedical Applications.
Remlova E, Feig VR, Kang Z, Patel A, Ballinger I, Ginzburg A, Kuosmanen J, Fabian N, Ishida K, Jenkins J, Hayward A, Traverso G. Remlova E, et al. ACS Mater Lett. 2023 Aug 16;5(9):2508-2517. doi: 10.1021/acsmaterialslett.3c00581. eCollection 2023 Sep 4. ACS Mater Lett. 2023. PMID: 37680546 Free PMC article.
Delivering heat in vivo could enhance a wide range of biomedical therapeutic and diagnostic technologies, including long-term drug delivery devices and cancer treatments. To date, providing thermal energy is highly power-intensive, rendering it oftentimes inaccessible outs …
Delivering heat in vivo could enhance a wide range of biomedical therapeutic and diagnostic technologies, including long-term drug delivery …
41 results