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W4386439069 abstract "Abstract Mesenchymal stem cells and macrophages (MQ) are two very important cells involved in the normal wound healing process. It is well understood that topological cues and mechanical factors can lead to different responses in stem cells and MQ by influencing their shape, cytoskeleton proliferation, migration, and differentiation, which play an essential role in the success or failure of biomaterial implantation and more importantly wound healing. On the other hand, the polarization of MQ from proinflammatory (M1) to prohealing (M2) phenotypes has a critical role in the acceleration of wound healing. In this study, the morphology of different MQ subtypes (M0, M1, and M2) was imprinted on a silicon surface (polydimethylsiloxane [PDMS]) to prepare a nano‐topography cell‐imprinted substrate with the ability to induce anti‐inflammatory effects on the mouse adipose‐derived stem cells (ADSCs) and RAW264.7 monocyte cell line (MO). The gene expression profiles and flow cytometry of MQ revealed that the cell shape microstructure promoted the MQ phenotypes according to the specific shape of each pattern. The ELISA results were in agreement with the gene expression profiles. The ADSCs on the patterned PDMS exhibited remarkably different shapes from no‐patterned PDMS. The MOs grown on M2 morphological patterns showed a significant increase in expression and section of anti‐inflammatory cytokine compared with M0 and M1 patterns. The ADSCs homing in niches heavily deformed the cytoskeletal, which is probably why the gene expression and phenotype unexpectedly changed. In conclusion, wound dressings with M2 cell morphology‐induced surfaces are suggested as excellent anti‐inflammatory and antiscarring dressings." @default.
W4386439069 created "2023-09-06" @default.
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W4386439069 date "2023-09-05" @default.
W4386439069 modified "2023-09-27" @default.
W4386439069 title "Macrophage cell morphology‐imprinted substrates can modulate mesenchymal stem cell behaviors and macrophage M1/M2 polarization for wound healing applications" @default.
W4386439069 cites W1586311378 @default.
W4386439069 cites W1755512611 @default.
W4386439069 cites W1963489549 @default.
W4386439069 cites W1963651928 @default.
W4386439069 cites W1964796317 @default.
W4386439069 cites W1975422671 @default.
W4386439069 cites W1979583116 @default.
W4386439069 cites W1979624681 @default.
W4386439069 cites W1980604115 @default.
W4386439069 cites W1989233395 @default.
W4386439069 cites W1993799862 @default.
W4386439069 cites W1998418263 @default.
W4386439069 cites W1999579326 @default.
W4386439069 cites W2006288728 @default.
W4386439069 cites W2008111880 @default.
W4386439069 cites W2009230206 @default.
W4386439069 cites W2011767107 @default.
W4386439069 cites W2014425141 @default.
W4386439069 cites W2015979204 @default.
W4386439069 cites W2018353711 @default.
W4386439069 cites W2019583561 @default.
W4386439069 cites W2026400584 @default.
W4386439069 cites W2028543411 @default.
W4386439069 cites W2029991360 @default.
W4386439069 cites W2034021377 @default.
W4386439069 cites W2035041815 @default.
W4386439069 cites W2035742052 @default.
W4386439069 cites W2036157667 @default.
W4386439069 cites W2036220159 @default.
W4386439069 cites W2036641299 @default.
W4386439069 cites W2038846800 @default.
W4386439069 cites W2046576188 @default.
W4386439069 cites W2053050332 @default.
W4386439069 cites W2053475436 @default.
W4386439069 cites W2055944733 @default.
W4386439069 cites W2064186538 @default.
W4386439069 cites W2067324070 @default.
W4386439069 cites W2070438219 @default.
W4386439069 cites W2070795165 @default.
W4386439069 cites W2070925120 @default.
W4386439069 cites W2072827131 @default.
W4386439069 cites W2082067280 @default.
W4386439069 cites W2083734839 @default.
W4386439069 cites W2086304264 @default.
W4386439069 cites W2090827542 @default.
W4386439069 cites W2091866169 @default.
W4386439069 cites W2093705034 @default.
W4386439069 cites W2095132685 @default.
W4386439069 cites W2103539505 @default.
W4386439069 cites W2104248974 @default.
W4386439069 cites W2110105052 @default.
W4386439069 cites W2126087366 @default.
W4386439069 cites W2130150908 @default.
W4386439069 cites W2134208433 @default.
W4386439069 cites W2136419489 @default.
W4386439069 cites W2141360555 @default.
W4386439069 cites W2156280902 @default.
W4386439069 cites W2163491624 @default.
W4386439069 cites W2167830630 @default.
W4386439069 cites W2170271633 @default.
W4386439069 cites W2289629300 @default.
W4386439069 cites W2317519097 @default.
W4386439069 cites W2338968478 @default.
W4386439069 cites W2399751359 @default.
W4386439069 cites W2420403948 @default.
W4386439069 cites W2591770552 @default.
W4386439069 cites W2788713419 @default.
W4386439069 cites W289241723 @default.
W4386439069 cites W2972047651 @default.
W4386439069 cites W3015610519 @default.
W4386439069 cites W3034230665 @default.
W4386439069 cites W3111882676 @default.
W4386439069 cites W3120847996 @default.
W4386439069 cites W3153010494 @default.
W4386439069 cites W3181783292 @default.
W4386439069 cites W4210334972 @default.
W4386439069 cites W4240765160 @default.
W4386439069 cites W4293368251 @default.
W4386439069 cites W744967859 @default.
W4386439069 doi "https://doi.org/10.1002/bit.28546" @default.
W4386439069 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37668186" @default.
W4386439069 hasPublicationYear "2023" @default.
W4386439069 type Work @default.
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