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·714· 精细化工 FINE CHEMICALS 第 37 卷

由图 8 所知，所制备的纳米粒子中含有生物活 RMBG2 的载药量为 47.8%，包封率为 99.6%，
性玻璃的必要元素 Si、Ca、P。等离子体光谱分析在 pH=5.0 和 7.4、48 h 内 DOX 的累积释药率分别
结果为 RMBG2 中 Si 18.29 mg/g、Ca 3.00 mg/g、为 85%和 74%，证明 RMBG2 有一定的缓释效果。
P 0.48 mg/g。经计算得到 RMBG2 中 3 种元素对应综上可知，采用溶胶-凝胶法制备的树枝状介孔
的物质的量比大致为 n(Si)∶n(Ca)∶n(P)=88∶10∶2。生物活性玻璃分散性好，有较大的比表面积，有望
2.6 RMBG2 的载药量与包封率及释药测定结果作为一种良好的药物载体。树枝状介孔生物活性玻璃
图 9 为负载 DOX 的 RMBG2 在不同 pH 下的体在骨组织修复及今后的癌症治疗研究中具有巨大的应
外释药曲线。由载药实验可得，RMBG2 的载药量用潜力。
和包封率分别为 47.8%、99.6%，与现有介孔生物活
性玻璃（载药量在 10%~43% [18-19] ）相比，树枝状介参考文献：
[1] HENCH L L. Bioceramics[J]. Journal of the American Ceramic
孔生物活性玻璃 RMBG2 具有更好的载药效率。图 Society, 1998, 81(7): 1705-1728.
9 表明，装载 DOX 的 RMBG2 在 pH=5.0 和 pH=7.4 [2] HENCH L L. The story of bioglass[J]. Journal of Materials
Science-Materials in Medicine , 2006, 17(11): 967-978.
时前 48 h 内 DOX 的累积释药率分别为 83%和 74%， [3] PARAI R, BANDYOPADHYAY G. Engineered bio- nanocomposite
magnesium scaffold for bone tissue regeneration[J]. Journal of the
有一定的缓释效果，且负载 DOX 的 RMBG2 载体材 Mechanical Behavior of Biomedical Materials, 2019, 96: 45-52.
[4] WANG Y D, LIAO T S, SHI M, et al. Facile synthesis and in vitro
料的释放具有 pH 敏感性。在酸性环境下，药物累 bioactivity of radial mesoporous bioactive glasses[J]. Materials
积释药率较大；随着 pH 增大，药物累积释药率降 Letters, 2017, 206: 205-209.
[5] TANG J Y, CHEN X F, DONG Y M, et al. Facile synthesis of
低。这是因为药物分子与孔道表面的静电作用以及 mesoporous bioactive glass nanospheres with large mesopore via
biphase delamination method[J]. Materials Letters, 2017, 209: 626-629.
氢键作用引起的药物缓释 [20] 。 [6] KOKUBO T, ITO S, SAKKA S, et al. Formation of a high-strength
bioactive glass ceramic in the system MGO-CaO-SiO 2-P 2O 5[J].
Journal of Materials Science, 1986, 21(2): 536-540.
[7] ZHU M, WANG H X, ZHANG Y J, et al. Synthesis of
monodispersed mesoporous bioactive glass nanospheres for bone
repair[J]. Materials Letters, 2016, 171: 259-262.
[8] VICHERY C, NEDELE J M. Bioactive glass nanoparticles: From
synthesis to materials design for biomedical applications[J]. Materials,
2016, 9(4): 288-304.
[9] CIBIM D D, SAITO M T, GIOVANI P A, et al. Novel
nanotechnology of TiO 2 improves physical-chemical and biological
properties of glass ionomer cement[J]. International Journal of
Biomaterials, 2017:7123919.
[10] WANG Y B, DU X, LIU Z, et al. Dendritic fibrous nano-particles
(DFNPs): rising stars of mesoporous materials[J]. Journal of
Materials Chemistry A, 2019, 7(10): 5111-5152.
[11] JONES J R. Review of bioactive glass: From hench to hybrids[J].
Acta Biomaterialia, 2013, 9(1):4457-4486.
图 9 装载 DOX 的 RMBG2 在不同 pH 下的药物累积释 [12] MONDAL S, HOANG G, MANIVASAGAN P, et al. Nano-
hydroxyapatite bioactive glass composite scaffold with enhanced
放曲线 mechanical and biological performance for tissue engineering
Fig. 9 Drug cumulative release curves of RMBG2 loaded application[J]. Ceramics International, 2018, 44(13): 15735-15746.
with DOX at different pH values [13] SHEN D K, YANG J P, LI X M, et al. Biphase stratification approach
to three-dimensional dendritic biodegradable mesoporous silica
nanospheres[J]. Nano Letters, 2014, 14(2): 923-932.
3 结论 [14] MAGRI A M P, FERNANDES K R, ASSIS L, et al. Incorporation of
collagen and PLGA in bioactive glass: In vivo biological
evaluation[J]. International Journal of Biological Macromolecules,
通过溶胶-凝胶法制备了树枝状介孔生物活性 2019, 134: 869-881.
[15] EI-KADY A M, FARAG M M, EL-RASHEDIA M I, et al. Bioactive
玻璃 RMBG1、RMBG2、RMBG3，通过 FESEM、 glass nanoparticles designed for multiple deliveries of lithium ions
TEM、粒径、电势、比表面积分析对产品的结构与 and drugs: Curative and restorative bone treatment[J]. European
Journal of Pharmaceutical Sciences, 2016, 91: 243-250.
性能进行了测试。结果表明，RMBG1、RMBG2 介 [16] WU J R, WILLIAMS G R, NIU S W, et al. A multifunctional
biodegradable nanocomposite for cancer theranostics[J]. Advanced
孔结构明显，但 RMBG2 较 RMBG1 粒径更为均一， Science, 2019, 6(14): 23548-23559.
[17] HE X, LIU Y, TAN Y N, et al. Rubidium-containing mesoporous
比表面积更大。RMBG3 介孔结构不明显，比表面 bioactive glass scaffolds support angiogenesis, osteogenesis and
积较小。60 ℃为制备树枝状介孔生物活性玻璃的最 antibacterial activity[J]. Materials Science and Engineering C, 2019,
105: 110155.
适反应温度。利用 XPS 对 RMBG2 的元素进行定性 [18] SUI B Y, LIU X, SUN J. Dual-functional dendritic mesoporous
bioactive glass nanospheres for calcium influx-mediated specific
分析，结果表明所制备的纳米粒子含有 3 种生物活 tumor suppression and controlled drug delivery in vivo[J]. ACS
性玻璃的必备元素 Si、Ca、P。利用 ICP 对所制备 Applied Materials & Interfaces, 2018, 10(28): 23548-23559.
[19] XU Y, HU Y B, FENG P, et al. Drug loading/release and bioactivity
的纳米粒子进行元素定量分析证明 RMBG2 中 3 种 research of a mesoporous bioactive glass/polymer scaffold[J].
Ceramics International, 2019, 45(14): 18003-18013.
元素物质的量比大致为 n(Si)∶n(Ca)∶n(P)=84∶ [20] NIU S W, WILLIAMS G R, WU J R, et al. A novel chitosan-based
nanomedicine for multi-drug resistant breast cancer therapy[J].
14∶2。 Chemical Engineering Journal, 2019, 369: 134-149.

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