纳米纤维水凝胶复合材料中富含分馏脂肪可促进再生巨噬细胞的极化和血管生成,用于软组织工程。
Enrichment of Nanofiber Hydrogel Composite with Fractionated Fat Promotes Regenerative Macrophage Polarization and Vascularization for Soft-Tissue Engineering.
机构信息
From the Hagey Laboratory for Pediatric Regenerative Medicine, Division of Plastic and Reconstructive Surgery, Department of Surgery, Stanford University; Department of Hand, Plastic, and Reconstructive Surgery, BG Trauma Center Ludwigshafen, Ruprecht-Karls-University of Heidelberg; Department of Materials Science and Engineering, Whiting School of Engineering, and Institute for NanoBioTechnology, Johns Hopkins University; Translational Tissue Engineering Center and Department of Biomedical Engineering, and Department of Plastic and Reconstructive Surgery, Johns Hopkins School of Medicine; Department for Plastic and Breast Surgery, Zealand University Hospital Roskilde; and Division of Plastic and Reconstructive Surgery, Department of Surgery, Washington University in St. Louis School of Medicine.
出版信息
Plast Reconstr Surg. 2022 Mar 1;149(3):433e-444e. doi: 10.1097/PRS.0000000000008872.
BACKGROUND
Fractionated fat has been shown to promote dermal regeneration; however, the use of fat grafting for reconstruction of soft-tissue defects is limited because of volume loss over time. The authors have developed a novel approach for engineering of vascularized soft tissue using an injectable nanofiber hydrogel composite enriched with fractionated fat.
METHODS
Fractionated fat was generated by emulsification of groin fat pads from rats and mixed in a 3:1 ratio with nanofiber hydrogel composite (nanofiber hydrogel composite with fractionated fat). Nanofiber hydrogel composite with fractionated fat or nanofiber hydrogel composite alone was placed into isolation chambers together with arteriovenous loops, which were subcutaneously implanted into the groin of rats (n = 8 per group). After 21 days, animals were euthanized and systemically perfused with ink, and tissue was explanted for histologic analysis. Immunofluorescent staining and confocal laser scanning microscopy were used to quantify CD34+ progenitor cell and macrophage subpopulations.
RESULTS
Nanofiber hydrogel composite with fractionated fat tissue maintained its shape without shrinking and showed a significantly stronger functional vascularization compared to composite alone after 21 days of implantation (mean vessel count, 833.5 ± 206.1 versus 296.5 ± 114.1; p = 0.04). Tissue heterogeneity and cell count were greater in composite with fractionated fat (mean cell count, 49,707 ± 18,491 versus 9263 ± 3790; p = 0.005), with a significantly higher number of progenitor cells and regenerative CD163+ macrophages compared to composite alone.
CONCLUSIONS
Fractionated fat-enriched nanofiber hydrogel composite transforms into highly vascularized soft tissue over 21 days without signs of shrinking and promotes macrophage polarization toward regenerative phenotypes. Enrichment of injectable nanofiber hydrogel composite with fractionated fat represents a promising approach for durable reconstruction of soft-tissue defects.
CLINICAL RELEVANCE STATEMENT
The authors' approach for tissue engineering may ultimately lay the groundwork for clinically relevant applications with the goal of generating large volumes of vascularized soft tissue for defect reconstruction without donor site morbidity.
背景
已证实分段脂肪可促进皮肤再生;然而,由于随着时间的推移体积会流失,脂肪移植用于重建软组织缺损的效果有限。作者开发了一种使用富含分段脂肪的可注射纳米纤维水凝胶复合材料来构建血管化软组织的新方法。
方法
通过乳化大鼠腹股沟脂肪垫来生成分段脂肪,并将其以 3:1 的比例与纳米纤维水凝胶复合材料(含分段脂肪的纳米纤维水凝胶复合材料)混合。将含分段脂肪的纳米纤维水凝胶复合材料或单独的纳米纤维水凝胶复合材料与动静脉环一起放入隔离室中,皮下植入大鼠腹股沟(每组 8 只)。21 天后,处死动物并用墨水进行全身灌注,并取出组织进行组织学分析。免疫荧光染色和共聚焦激光扫描显微镜用于定量 CD34+祖细胞和巨噬细胞亚群。
结果
含分段脂肪的纳米纤维水凝胶复合材料在 21 天的植入后保持其形状,没有收缩,与单独的复合材料相比,功能血管化明显更强(平均血管数,833.5±206.1 对 296.5±114.1;p=0.04)。含分段脂肪的复合材料组织异质性和细胞计数更高(平均细胞数,49707±18491 对 9263±3790;p=0.005),与单独的复合材料相比,祖细胞和再生 CD163+巨噬细胞的数量明显更多。
结论
富含分段脂肪的纳米纤维水凝胶复合材料在 21 天内转化为高度血管化的软组织,没有收缩的迹象,并促进巨噬细胞向再生表型极化。用分段脂肪对可注射纳米纤维水凝胶复合材料进行富集是一种很有前途的方法,可用于持久地重建软组织缺损。
临床相关性声明
作者的组织工程方法最终可能为临床相关应用奠定基础,目标是生成大量用于缺陷重建的血管化软组织,而不会产生供体部位发病率。
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