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W2725726216 abstract "Human embryonic stem cells (hESCs) possess unique properties in terms of self-renewal and differentiation, which make them particularly well-suited for use in tissue engineering and regenerative medicine. The differentiation of hESCs in the form of human embryoid bodies (hEBs) recapitulates early embryonic development, and hEBs may provide useful insight into the embryological development of humans. Herein, cell-penetrating magnetic nanoparticles (MNPs) were utilized to form hEBs with defined sizes and the differentiation patterns were analyzed. Through intracellular delivery of MNPs into the hESCs, suspended and magnetized hESCs efficiently clustered in to hEBs driven by magnetic pin-based external magnetic forces. The hEB size was controlled by varying the suspended cell numbers that were applied in the magnetic pin system. After 3 days of differentiation in a suspended condition, ectodermal differentiation was observed to have been enhanced in the small hEBs (150 μm in diameter) while endodermal and mesodermal differentiation were enhanced in large hEBs (600 μm in diameter). This indicates that the size of the hEBs plays an important role in the early lineage commitment of hESCs, and MNP-based control of the hEB size would be a novel, useful methodology for lineage-specific hESC differentiation." @default.
W2725726216 created "2017-07-14" @default.
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W2725726216 creator A5052033483 @default.
W2725726216 creator A5053871036 @default.
W2725726216 creator A5075710060 @default.
W2725726216 date "2017-07-18" @default.
W2725726216 modified "2023-09-27" @default.
W2725726216 title "Lineage Specific Differentiation of Magnetic Nanoparticle-Based Size Controlled Human Embryoid Body" @default.
W2725726216 cites W1599568627 @default.
W2725726216 cites W1603508604 @default.
W2725726216 cites W1820942151 @default.
W2725726216 cites W1845107299 @default.
W2725726216 cites W1968651459 @default.
W2725726216 cites W1972075005 @default.
W2725726216 cites W1972766500 @default.
W2725726216 cites W1973318486 @default.
W2725726216 cites W1976628761 @default.
W2725726216 cites W1977512402 @default.
W2725726216 cites W1981684516 @default.
W2725726216 cites W1981720557 @default.
W2725726216 cites W1988781086 @default.
W2725726216 cites W1991664409 @default.
W2725726216 cites W1995084543 @default.
W2725726216 cites W1997910229 @default.
W2725726216 cites W1999459866 @default.
W2725726216 cites W2002828554 @default.
W2725726216 cites W2006853616 @default.
W2725726216 cites W2018262240 @default.
W2725726216 cites W2021931341 @default.
W2725726216 cites W2023985765 @default.
W2725726216 cites W2024911623 @default.
W2725726216 cites W2026285718 @default.
W2725726216 cites W2029152952 @default.
W2725726216 cites W2033284482 @default.
W2725726216 cites W2038852722 @default.
W2725726216 cites W2042485268 @default.
W2725726216 cites W2044193480 @default.
W2725726216 cites W2045048112 @default.
W2725726216 cites W2047298301 @default.
W2725726216 cites W2048722591 @default.
W2725726216 cites W2051258449 @default.
W2725726216 cites W2053490054 @default.
W2725726216 cites W2055151337 @default.
W2725726216 cites W2055710769 @default.
W2725726216 cites W2061004792 @default.
W2725726216 cites W2065927010 @default.
W2725726216 cites W2076159213 @default.
W2725726216 cites W2080010894 @default.
W2725726216 cites W2081777956 @default.
W2725726216 cites W2086943348 @default.
W2725726216 cites W2089676626 @default.
W2725726216 cites W2090055655 @default.
W2725726216 cites W2094537930 @default.
W2725726216 cites W2107575419 @default.
W2725726216 cites W2115356458 @default.
W2725726216 cites W2117336213 @default.
W2725726216 cites W2119708685 @default.
W2725726216 cites W2126432370 @default.
W2725726216 cites W2126922170 @default.
W2725726216 cites W2127302135 @default.
W2725726216 cites W2128566218 @default.
W2725726216 cites W2131869707 @default.
W2725726216 cites W2133501984 @default.
W2725726216 cites W2135073071 @default.
W2725726216 cites W2138442302 @default.
W2725726216 cites W2140395408 @default.
W2725726216 cites W2143751064 @default.
W2725726216 cites W2146423069 @default.
W2725726216 cites W2147445274 @default.
W2725726216 cites W2149884610 @default.
W2725726216 cites W2153099809 @default.
W2725726216 cites W2155143410 @default.
W2725726216 cites W2159004580 @default.
W2725726216 cites W2162255139 @default.
W2725726216 cites W2168684990 @default.
W2725726216 cites W2170941561 @default.
W2725726216 cites W2320069043 @default.
W2725726216 cites W4253346555 @default.
W2725726216 doi "https://doi.org/10.1021/acsbiomaterials.7b00141" @default.
W2725726216 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33429653" @default.
W2725726216 hasPublicationYear "2017" @default.
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