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Silver electroceutical technology to treat sarcopenia

Title
Silver electroceutical technology to treat sarcopenia
Author(s)
Kim, Min. Young.Shin, Hyun YoungCho, Sung ChunYang, SohaeTasnuf, Aseer IntisarWoo, Hyeong JungChoi, Youn-SukYou, Chang-LimKang, Jong-SunLee, Yun-IlPark, Sang ChulYea, KyungmooOh, Tae GyuDownes, MichaelEvans, Ronald M.Kim, Minseok S.
Issued Date
2023-08
Citation
Proceedings of the National Academy of Sciences of the United States of America, v.120, no.33
Type
Article
Author Keywords
integrated electrical stimulation biochipmultiplex screening technologyelectroceuticalsarcopeniapersonalized electric medicine
Keywords
ELECTRICAL PULSE STIMULATIONSKELETAL-MUSCLESENESCENCECELLSEXERCISEGROWTH
ISSN
0027-8424
Abstract
While the world is rapidly transforming into a superaging society, pharmaceutical approaches to treat sarcopenia have hitherto not been successful due to their insufficient efficacy and failure to specifically target skeletal muscle cells (skMCs). Although electrical stimulation (ES) is emerging as an alternative intervention, its efficacy toward treating sarcopenia remains unexplored. In this study, we demonstrate a silver electroceutical technology with the potential to treat sarcopenia. First, we developed a high-throughput ES screening platform that can simultaneously stimulate 15 independent conditions, while utilizing only a small number of human-derived primary aged/young skMCs (hAskMC/hYskMC). The in vitro screening showed that specific ES conditions induced hypertrophy and rejuvenation in hAskMCs, and the optimal ES frequency in hAskMCs was different from that in hYskMCs. When applied to aged mice in vivo, specific ES conditions improved the prevalence and thickness of Type IIA fibers, along with biomechanical attributes, toward a younger skMC phenotype. This study is expected to pave the way toward an electroceutical treatment for sarcopenia with minimal side effects and help realize personalized bioelectronic medicine.
URI
http://hdl.handle.net/20.500.11750/46346
DOI
10.1073/pnas.2300036120
Publisher
National Academy of Sciences
Related Researcher
  • 이윤일 Lee, Yun-Il
  • Research Interests Aging; 노화; Aging-related diseases; 노인성 질환; Parkinson's disease; 파킨슨병; Sarcopenia; 근감소증; Demyelinating disease; 탈수초화 질환
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Appears in Collections:
Division of Biomedical Technology 1. Journal Articles
Department of New Biology Bio-therapeutics Design Lab 1. Journal Articles
Department of New Biology BioDr. Lab - Nanobiomedicine 1. Journal Articles

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