SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4378966073> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W4378966073 endingPage "242" @default.
W4378966073 startingPage "227" @default.
W4378966073 abstract "Biomaterials can modulate the local immune and repair-supportive microenvironments to promote peripheral nerve regeneration. Inorganic bioceramics have been widely used for regulating tissue regeneration and local immune response. However, little is known on whether inorganic bioceramics can have potential for enhancing peripheral nerve regeneration and what are the mechanisms underlying their actions. Here, the inorganic lithium-magnesium-silicon (Li–Mg–Si, LMS) bioceramics containing scaffolds are fabricated and characterized. The LMS-containing scaffolds had no cytotoxicity against rat Schwann cells (SCs), but promoted their migration and differentiation towards a remyelination state by up-regulating the expression of neurotrophic factors in a β-catenin–dependent manner. Furthermore, using single cell-sequencing, we showed that LMS-containing scaffolds promoted macrophage polarization towards the pro-regenerative M2-like cells, which subsequently facilitated the migration and differentiation of SCs. Moreover, implantation with the LMS-containing nerve guidance conduits (NGCs) increased the frequency of M2-like macrophage infiltration and enhanced nerve regeneration and motor functional recovery in a rat model of sciatic nerve injury. Collectively, these findings indicated that the inorganic LMS bioceramics offered a potential strategy for enhancing peripheral nerve regeneration by modulating the immune microenvironment and promoting SCs remyelination." @default.
W4378966073 created "2023-06-02" @default.
W4378966073 creator A5000593851 @default.
W4378966073 creator A5001268974 @default.
W4378966073 creator A5009936574 @default.
W4378966073 creator A5014096233 @default.
W4378966073 creator A5048833323 @default.
W4378966073 creator A5054571575 @default.
W4378966073 creator A5063855846 @default.
W4378966073 creator A5072655395 @default.
W4378966073 creator A5083051605 @default.
W4378966073 date "2023-10-01" @default.
W4378966073 modified "2023-09-30" @default.
W4378966073 title "Li–Mg–Si bioceramics provide a dynamic immuno-modulatory and repair-supportive microenvironment for peripheral nerve regeneration" @default.
W4378966073 cites W1784352764 @default.
W4378966073 cites W1935201742 @default.
W4378966073 cites W2000891988 @default.
W4378966073 cites W2010086378 @default.
W4378966073 cites W2040471569 @default.
W4378966073 cites W2055978014 @default.
W4378966073 cites W2065123875 @default.
W4378966073 cites W2077016325 @default.
W4378966073 cites W2083229277 @default.
W4378966073 cites W2091562888 @default.
W4378966073 cites W2100671007 @default.
W4378966073 cites W2101557613 @default.
W4378966073 cites W2104512225 @default.
W4378966073 cites W2120442017 @default.
W4378966073 cites W2153779995 @default.
W4378966073 cites W2167702038 @default.
W4378966073 cites W2333893582 @default.
W4378966073 cites W2396814975 @default.
W4378966073 cites W2510993966 @default.
W4378966073 cites W2538332725 @default.
W4378966073 cites W2606952430 @default.
W4378966073 cites W2752144314 @default.
W4378966073 cites W2769662050 @default.
W4378966073 cites W2770328981 @default.
W4378966073 cites W2789127085 @default.
W4378966073 cites W2796296533 @default.
W4378966073 cites W2802879466 @default.
W4378966073 cites W2807844734 @default.
W4378966073 cites W2885316173 @default.
W4378966073 cites W2887854738 @default.
W4378966073 cites W2895880414 @default.
W4378966073 cites W2899953171 @default.
W4378966073 cites W2906533653 @default.
W4378966073 cites W2906657810 @default.
W4378966073 cites W2913784856 @default.
W4378966073 cites W2938897352 @default.
W4378966073 cites W2967290233 @default.
W4378966073 cites W2974291499 @default.
W4378966073 cites W2990818690 @default.
W4378966073 cites W2992510019 @default.
W4378966073 cites W2998936708 @default.
W4378966073 cites W3004759799 @default.
W4378966073 cites W3008186380 @default.
W4378966073 cites W3010504146 @default.
W4378966073 cites W3016216803 @default.
W4378966073 cites W3027045936 @default.
W4378966073 cites W3044394245 @default.
W4378966073 cites W3062390035 @default.
W4378966073 cites W3082690196 @default.
W4378966073 cites W3137296636 @default.
W4378966073 cites W3141541384 @default.
W4378966073 cites W3162176429 @default.
W4378966073 cites W3162564849 @default.
W4378966073 cites W3174089653 @default.
W4378966073 cites W3177774862 @default.
W4378966073 cites W3184692090 @default.
W4378966073 cites W3190044875 @default.
W4378966073 cites W3190987840 @default.
W4378966073 cites W3192816478 @default.
W4378966073 cites W3197280966 @default.
W4378966073 cites W3205162782 @default.
W4378966073 cites W3215157090 @default.
W4378966073 cites W3217254936 @default.
W4378966073 cites W4200267606 @default.
W4378966073 cites W4206822629 @default.
W4378966073 cites W4211111912 @default.
W4378966073 cites W4213133445 @default.
W4378966073 cites W4213263913 @default.
W4378966073 cites W4214570053 @default.
W4378966073 cites W4224138909 @default.
W4378966073 cites W4225123068 @default.
W4378966073 cites W4281643700 @default.
W4378966073 cites W4284971857 @default.
W4378966073 cites W4285211828 @default.
W4378966073 cites W4309343752 @default.
W4378966073 cites W4319812066 @default.
W4378966073 cites W4321486701 @default.
W4378966073 cites W4323074181 @default.
W4378966073 doi "https://doi.org/10.1016/j.bioactmat.2023.05.013" @default.
W4378966073 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37292230" @default.
W4378966073 hasPublicationYear "2023" @default.
W4378966073 type Work @default.
W4378966073 citedByCount "1" @default.
W4378966073 countsByYear W43789660732023 @default.