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プロフィール詳細
Dr.Priyadharshni M.に依頼
India
Biomaterial and Regenerative medical Scientist with 6+years of experience
プロフィール概要
専門分野
サービス
Writing
Clinical Trial Documentation,
Technical Writing
Research
Feasibility Study,
Fact Checking,
Gray Literature Search,
Systematic Literature Review,
Secondary Data Collection
Consulting
Scientific and Technical Consulting
Data & AI
Statistical Analysis
Product Development
Formulation
職務経験
Graduate Research Assistant
BioNano Electronic Research Center, Toyo University
4月 2017 - 8月 2020
Research Assistant
Quantum Laboratory, Toyo University, Kawagoe, Saitama, Japan
5月 2017 - 8月 2019
Research Fellow
Hannover Medical University
10月 2010 - 10月 2011
UGC Junior Research Fellow
Bharathidasan University
8月 2008 - 8月 2009
学歴
PhD Nanobiotechnology
Toyo University
4月 2017 - 9月 2020
M.Res Biomedical Sciences
University of Glasgow
9月 2009 - 9月 2010
M.Phil Microbiology
Bharathidasan University
8月 2008 - 8月 2009
M.Sc Microbiology
Bharathidasan University
4月 2006 - 4月 2008
認定資格
- 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Priyadharshni Muniyandi and Toru Maekawa and Tatsuro Hanajiri and Vivekanandan Palaninathan(2020). Direct Cardiac Reprogramming with Engineered miRNA Scaffolds . Current Pharmaceutical Design. 26. (34). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 4285--4303. Bentham Science Publishers Ltd.
(2020). Direct cardiac reprogramming to regenerate the heart . Research Outreach. (115). Research Outreach
Priyadharshni Muniyandi and Vivekanandan Palaninathan and Toru Mizuki and Toru Maekawa and Tatsuro Hanajiri and M. Sheikh Mohamed(2020). Poly(lactic-co-glycolic acid)/Polyethylenimine Nanocarriers for Direct Genetic Reprogramming of MicroRNA Targeting Cardiac Fibroblasts . ACS Applied Nano Materials. 3. (3). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2491--2505. American Chemical Society ({ACS})
(2020). ECM Mimetic Electrospun Porous Poly (L-lactic acid) (PLLA) Scaffolds as Potential Substrates for Cardiac Tissue Engineering . Polymers.
(2018). Vesicular systems employing natural substances as promising drug candidates for MMP inhibition in glioblastoma: A nanotechnological approach . International journal of pharmaceutics.