用于软组织增生的脱细胞细胞外基质支架:从宿主-支架相互作用到临床转化的瓶颈。

IF 8.1 Q1 ENGINEERING, BIOMEDICAL
Biomaterials research Pub Date : 2024-09-06 eCollection Date: 2024-01-01 DOI:10.34133/bmr.0071
Yasamin Ostadi, Javad Khanali, Fatemeh A Tehrani, Ghasem Yazdanpanah, Soheyl Bahrami, Feizollah Niazi, Hassan Niknejad
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引用次数: 0

摘要

随着软组织填充物的研究范式从空间填充转向生物活性材料,脱细胞细胞外基质(DEM)填充物因其卓越的生物活性而受到更多关注。然而,人们对宿主组织与脱细胞细胞外基质(DEM)之间相互作用的复杂机制还不甚了解。本综述首先探讨了决定 DEM 植入宿主组织后的免疫原性、血管生成和脉管生成以及再细胞化和重塑的机制,尤其侧重于填充材料的相关研究结果。因此,本综述深入探讨了巨噬细胞的双重作用及其 M1/M2 极化范式,从而形成对 DEM 植入物的建设性和破坏性免疫反应。此外,还阐明了巨噬细胞在血管生成中的作用,包括但不限于分泌血管生成生长因子和细胞外基质(ECM)重塑。这些发现挑战了免疫细胞在生物材料中只起破坏作用的传统观点,表明了它们在组织再生中的多方面作用。此外,综述还讨论了 DEM 的组成因素(如生长因子和母质的存在)如何在再细胞化过程中影响血管生成、细胞命运和分化。文章还指出,DEMs 的生物力学特性(包括组织硬度)会通过机械传导途径调节细胞反应,而 DEMs 的结构特性(如支架孔隙率)则会影响细胞-细胞和细胞-ECM 之间的相互作用。最后,我们指出了目前的临床应用、DEM 生物材料临床转化为软组织填充物的瓶颈以及该领域的幼稚研究领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decellularized Extracellular Matrix Scaffolds for Soft Tissue Augmentation: From Host-Scaffold Interactions to Bottlenecks in Clinical Translation.

Along with a paradigm shift in looking at soft tissue fillers from space-filling to bioactive materials, decellularized extracellular matrix (DEM) fillers have gained more attention considering their superior bioactivity. However, the complex mechanisms that govern the interaction between host tissues and DEMs have been partially understood. This review first covers the mechanisms that determine immunogenicity, angiogenesis and vasculogenesis, and recellularization and remodeling after DEM implantation into host tissue, with a particular focus on related findings from filler materials. Accordingly, the review delves into the dual role of macrophages and their M1/M2 polarization paradigm to form both constructive and destructive immune responses to DEM implants. Moreover, the contribution of macrophages in angiogenesis has been elucidated, which includes but is not limited to the secretion of angiogenic growth factors and extracellular matrix (ECM) remodeling. The findings challenge the traditional view of immune cells as solely destructive entities in biomaterials and indicate their multifaceted roles in tissue regeneration. Furthermore, the review discusses how the compositional factors of DEMs, such as the presence of growth factors and matrikines, can influence angiogenesis, cell fate, and differentiation during the recellularization process. It is also shown that the biomechanical properties of DEMs, including tissue stiffness, modulate cell responses through mechanotransduction pathways, and the structural properties of DEMs, such as scaffold porosity, impact cell-cell and cell-ECM interactions. Finally, we pointed out the current clinical applications, the bottlenecks in the clinical translation of DEM biomaterials into soft tissue fillers, as well as the naïve research areas of the field.

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