Page 33 - 《精细化工》2021年第11期
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第 11 期                    李德强,等:  果胶改性及其在药物递送载体中的应用进展                                   ·2179·


            学的发展理念;(2)化学改性果胶对其生物活性存                            [13]  LI D Q, WANG S Y, MENG Y J, et al. Fabrication of self-healing
            在什么影响,该类研究鲜见报道;(3)化学改性果                                pectin/chitosan hybrid hydrogel  via Diels-Alder reactions for drug
                                                                   delivery with high swelling property, pH-responsiveness, and
            胶在降解后是否会降低其生物相容性,目前相关报
                                                                   cytocompatibility[J]. Carbohydrate Polymers, 2021, 268: 118244.
            道较少;(4)果胶-无机纳米粒子复合材料的研究较                           [14]  YU L L, JIANG L N, WANG S Y, et al. Pectin microgel particles as
            少,且无机纳米粒子对其生物相容性存在何种影响,                                high adsorption rate  material for methylene blue: Performance,
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            尚不明确;(5)Pickering 乳液自模板法能够得到均
                                                                   International Journal of Biological Macromolecules,2018,112:
            一的药物递送载体,可用于果胶基药物递送系统的                                 383-389.
            开发。总之,在认识到果胶自身性质的前提下,利                             [15]  MENG Y J, WANG S Y, GUO Z W, et al. Design and preparation of
            用化学或物理手段改变其理化性质,掌握其规律,                                 quaternized  pectin-montmorillonite hybrid film for sustained drug
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            能够有效增加果胶在药物缓释载体中的应用潜力。                                 154: 413-420.
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