体内
活力测定
体外
骨整合
生物活性玻璃
铈
化学
再生(生物学)
男科
生物化学
细胞生物学
植入
医学
牙科
生物
外科
生物技术
无机化学
作者
Roberta Salvatori,Alexandre Anesi,Luigi Chiarini,Mattia Di Bartolomeo,Arrigo Pellacani,Chiara Cavazzoli,Alfonso Zambon,Gigliola Lusvardi
标识
DOI:10.1177/22808000251326794
摘要
BACKGROUND: Bioactive cerium-doped (Ce-BGs) glasses with proven antioxidant properties, which may reduce post-implant oxidative stress, were studied in vitro and in vivo to evaluate their application in bone regeneration. Based on the Kokubo (K) composition, they contain 3.6 and 5.3 mol% cerium (referred to as K3.6 and K5.3, respectively). METHODS: Ce-BGs were synthesized by melting and sieved to produce granules (size range = 200-500 µm). In vitro studies were conducted against MLO-Y4 cells using direct Neutral Red (NR) and indirect Bromo-2-deoxyUridine (BrdU) assays to assess cell viability and proliferation respectively. In vivo studies were carried out using a New Zealand white rabbit model to evaluate bone healing potential. RESULTS AND DISCUSSION: NR results showed a significant increase in cell viability for Ce-BGs: 77% for K and 79 and 85% for K3.6 and K5.3, after 24 h. After 72 h, cell viability decreased for K to 58% and increased for K3.6 and K5.3 (76% and 116% respectively). Cerium inhibits cell proliferation in BrdU assay as explainable by the increased durability of Ce-BGs. In vivo studies, after 30 and 60 days, revealed a delayed degradation for Ce-BGs that can stimulate the osteo-regeneration without inflammatory or degenerative effects. Moreover, the new bone area (NBA) was higher for Ce-BGs compared to control; after 60 days 32% for K5.3 versus 21% for K. CONCLUSIONS: tissues.
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