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首页> 美国卫生研究院文献>Journal of Tissue Engineering >Controlled dexamethasone delivery via double-walled microspheres to enhance long-term adipose tissue retention
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Controlled dexamethasone delivery via double-walled microspheres to enhance long-term adipose tissue retention

机译:通过双壁微球控制地塞米松的递送以增强脂肪组织的长期保留

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Current materials used for adipose tissue reconstruction have critical shortcomings such as suboptimal volume retention, donor-site morbidity, and poor biocompatibility. The aim of this study was to examine a controlled delivery system of dexamethasone to generate stable adipose tissue when mixed with disaggregated human fat in an athymic mouse model for 6 months. The hypothesis that the continued release of dexamethasone from polymeric microspheres would enhance both adipogenesis and angiogenesis more significantly when compared to the single-walled microsphere model, resulting in long-term adipose volume retention, was tested. Dexamethasone was encapsulated within single-walled poly(lactic-co-glycolic acid) microspheres (Dex SW MS) and compared to dexamethasone encapsulated in a poly(lactic-co-glycolic acid) core surrounded by a shell of poly-l-lactide. The double-walled polymer microsphere system in the second model was developed to create a more sustainable drug delivery process. Dexamethasone-loaded poly(lactic-co-glycolic acid) microspheres (Dex SW MS) and dexamethasone-loaded poly(lactic-co-glycolic acid)/poly-l-lactide double-walled microspheres (Dex DW MS) were prepared using single and double emulsion/solvent techniques. In vitro release kinetics were determined. Two doses of each type of microsphere were examined; 50 and 27 mg of Dex MS and Dex DW MS were mixed with 0.3 mL of human lipoaspirate. Additionally, 50 mg of empty MS and lipoaspirate-only controls were examined. Samples were analyzed grossly and histologically after 6 months in vivo. Mass and volume were measured; dexamethasone microsphere-containing samples demonstrated greater adipose tissue retention compared to the control group. Histological analysis, including hematoxylin and eosin and CD31 staining, indicated increased vascularization (p < 0.05) within the Dex MS-containing samples. Controlled delivery of adipogenic factors, such as dexamethasone via polymer microspheres, significantly affects adipose tissue retention by maintaining healthy tissue formation and vascularization. Dex DW MS provide an improved model to former Dex SW MS, resulting in notably longer release time and, consequently, larger volumes of adipose retained in vivo. The use of microspheres, specifically double-walled, as vehicles for controlled drug delivery of adipogenic factors therefore present a clinically relevant model of adipose retention that has the potential to greatly improve soft tissue repair.
机译:用于脂肪组织重建的当前材料具有严重的缺点,例如,次佳的体积保留,供体部位发病率和差的生物相容性。这项研究的目的是研究在无胸腺小鼠模型中,地塞米松的受控递送系统与分解的人脂肪混合6个月后产生稳定的脂肪组织。检验了以下假说:与单壁微球模型相比,地塞米松从聚合物微球中持续释放会更显着地促进脂肪生成和血管生成,从而导致长期的脂肪体积保留。地塞米松被封装在单壁聚(乳酸-乙醇酸共聚物)微球内(Dex SW MS),并与地塞米松与被包裹在被聚-1-丙交酯壳包围的聚(乳酸-乙醇酸共聚物)核心中的地塞米松进行比较。第二个模型中的双壁聚合物微球系统是为了创建更可持续的药物输送过程而开发的。地塞米松负载的聚乳酸-乙醇酸微球(Dex SW MS)和地塞米松负载的聚乳酸-乙醇酸/聚丙交酯双壁微球(Dex DW MS)均采用单次制备以及双重乳液/溶剂技术。测定了体外释放动力学。检查每种类型的微球两次剂量;将50和27mg的Dex MS和Dex DW MS与0.3mL的人脂肪抽吸物混合。另外,检查了50 mg的空MS和仅使用脂肪抽吸剂的对照。在体内6个月后,对样品进行大体和组织学分析。测量质量和体积。与对照组相比,含地塞米松微球的样品显示出更大的脂肪组织保留。组织学分析,包括苏木精和曙红和CD31染色,表明含有Dex MS的样品中的血管形成增加(p <0.05)。脂肪形成因子(例如地塞米松)通过聚合物微球的受控递送通过维持健康的组织形成和血管形成而显着影响脂肪组织的保留。 Dex DW MS为以前的Dex SW MS提供了改进的模型,从而显着延长了释放时间,并因此在体内保留了更大体积的脂肪。因此,使用微球,特别是双壁,作为控制脂肪形成因子药物输送的媒介物,提供了一种与临床相关的脂肪滞留模型,具有极大改善软组织修复的潜力。

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