SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3200230863> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W3200230863 endingPage "065024" @default.
W3200230863 startingPage "065024" @default.
W3200230863 abstract "For craniofacial bone regeneration, how to promote vascularized bone regeneration is still a significant problem, and the controlled release of trace elements vital to osteogenesis has attracted attention. In this study, an ion co-delivery system was developed to promote angiogenesis and osteogenesis. Magnesium ions (Mg2+) and lanthanum ions (La3+) were selected as biosignal molecules because Mg2+can promote angiogenesis and both of them can enhance bone formation. Microspheres made of poly(lactide-co-glycolide) were applied to load La2(CO3)3, which was embedded into a MgO/MgCO3-loaded cryogel made of photocrosslinkable gelatin methacryloyl to enable co-delivery of Mg2+and La3+. Evaluations of angiogenesis and osteogenesis were conducted via bothin vitrocell culture using human bone marrow mesenchymal stromal cells andin vivoimplantation using a rat model with calvarial defect (5 mm in diameter). Compared to systems releasing only Mg2+or La3+, the combination system demonstrated more significant effects on blood vessels formation, thereby promoting the regeneration of vascularized bone tissue. At 8 weeks post-implantation, the new bone volume/total bone volume ratio reached a value of 40.1 ± 0.9%. In summary, a properly designed scaffold system with the capacity to release ions of different bioactivities in a desired pattern can be a promising strategy to meet vascularized bone regeneration requirements." @default.
W3200230863 created "2021-09-27" @default.
W3200230863 creator A5000121429 @default.
W3200230863 creator A5000596190 @default.
W3200230863 creator A5001717213 @default.
W3200230863 creator A5008307998 @default.
W3200230863 creator A5052100202 @default.
W3200230863 creator A5058925666 @default.
W3200230863 creator A5060513422 @default.
W3200230863 creator A5070666229 @default.
W3200230863 date "2021-10-15" @default.
W3200230863 modified "2023-10-15" @default.
W3200230863 title "Controlled co-delivery system of magnesium and lanthanum ions for vascularized bone regeneration" @default.
W3200230863 cites W1120477740 @default.
W3200230863 cites W1132096098 @default.
W3200230863 cites W1190101077 @default.
W3200230863 cites W156074131 @default.
W3200230863 cites W1594223281 @default.
W3200230863 cites W1947654286 @default.
W3200230863 cites W1952452705 @default.
W3200230863 cites W1972570419 @default.
W3200230863 cites W1975682654 @default.
W3200230863 cites W1985301413 @default.
W3200230863 cites W1985599320 @default.
W3200230863 cites W1993507577 @default.
W3200230863 cites W2002668401 @default.
W3200230863 cites W2020398834 @default.
W3200230863 cites W2073552867 @default.
W3200230863 cites W2099355940 @default.
W3200230863 cites W2104026218 @default.
W3200230863 cites W2106751844 @default.
W3200230863 cites W2111277459 @default.
W3200230863 cites W2114533840 @default.
W3200230863 cites W2284606385 @default.
W3200230863 cites W2293579526 @default.
W3200230863 cites W2417361904 @default.
W3200230863 cites W2419186349 @default.
W3200230863 cites W2577152267 @default.
W3200230863 cites W2615150128 @default.
W3200230863 cites W2727722511 @default.
W3200230863 cites W2739171052 @default.
W3200230863 cites W2740226484 @default.
W3200230863 cites W2742698850 @default.
W3200230863 cites W2745296070 @default.
W3200230863 cites W2746574475 @default.
W3200230863 cites W2747079184 @default.
W3200230863 cites W2755978181 @default.
W3200230863 cites W2768646562 @default.
W3200230863 cites W2769664355 @default.
W3200230863 cites W2773490851 @default.
W3200230863 cites W2782405156 @default.
W3200230863 cites W2786029412 @default.
W3200230863 cites W2789424859 @default.
W3200230863 cites W2793556040 @default.
W3200230863 cites W2796649674 @default.
W3200230863 cites W2801706183 @default.
W3200230863 cites W2804545919 @default.
W3200230863 cites W2884565497 @default.
W3200230863 cites W2889334877 @default.
W3200230863 cites W2903277139 @default.
W3200230863 cites W2905151968 @default.
W3200230863 cites W2909537306 @default.
W3200230863 cites W2913500255 @default.
W3200230863 cites W2914531663 @default.
W3200230863 cites W2922202112 @default.
W3200230863 cites W2925862045 @default.
W3200230863 cites W2946726917 @default.
W3200230863 cites W2977378243 @default.
W3200230863 cites W2980449887 @default.
W3200230863 cites W2991697483 @default.
W3200230863 cites W2998802983 @default.
W3200230863 cites W3007522627 @default.
W3200230863 cites W3009426164 @default.
W3200230863 cites W3010181862 @default.
W3200230863 cites W3013843398 @default.
W3200230863 cites W3041242890 @default.
W3200230863 cites W3043570544 @default.
W3200230863 cites W3049393615 @default.
W3200230863 cites W3096565749 @default.
W3200230863 cites W3096605214 @default.
W3200230863 cites W563320767 @default.
W3200230863 doi "https://doi.org/10.1088/1748-605x/ac2886" @default.
W3200230863 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34544058" @default.
W3200230863 hasPublicationYear "2021" @default.
W3200230863 type Work @default.
W3200230863 sameAs 3200230863 @default.
W3200230863 citedByCount "9" @default.
W3200230863 countsByYear W32002308632022 @default.
W3200230863 countsByYear W32002308632023 @default.
W3200230863 crossrefType "journal-article" @default.
W3200230863 hasAuthorship W3200230863A5000121429 @default.
W3200230863 hasAuthorship W3200230863A5000596190 @default.
W3200230863 hasAuthorship W3200230863A5001717213 @default.
W3200230863 hasAuthorship W3200230863A5008307998 @default.
W3200230863 hasAuthorship W3200230863A5052100202 @default.
W3200230863 hasAuthorship W3200230863A5058925666 @default.
W3200230863 hasAuthorship W3200230863A5060513422 @default.
W3200230863 hasAuthorship W3200230863A5070666229 @default.