Additive manufacturing in spatial patterning for spinal cord injury treatment

IF 15.2 1区医学 Q1 PHARMACOLOGY & PHARMACY

Advanced drug delivery reviews Pub Date : 2025-01-27 DOI:10.1016/j.addr.2025.115523

Christy Kwokdinata , Sing Yian Chew

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Abstract

Combinatorial treatments integrating cells and biomolecules within scaffolds have been investigated to address the multifactorial nature of spinal cord injury (SCI). Current regenerative treatments have been ineffective as they do not consider the spatial positions of various cell types to effectively form functional neural pathways. Emulating the complex heterogeneity of cells in the native spinal cord requires translating the existing biological understanding of spatial patterning in neural development, as well as the influence of biomolecule and mechanical patterning on regional specification and axonal regeneration, to engineer a scaffold for spinal cord regeneration. This review explores the potential of 3D bioprinting to precisely control material, cell and drug patterns in scaffolds, achieving spatial phenotype specification and providing axonal guidance to form appropriate connections. We also discuss the application of extrusion-based and digital light processing bioprinting in integrating mechanical, chemical and biological cues within a scaffold to advance spatially patterned 3D bioprinted scaffold, as well as current challenges and future perspectives in these bioengineering strategies.

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用于脊髓损伤治疗的空间模式的增材制造

为了解决脊髓损伤（SCI）的多因素性质，研究了在支架内整合细胞和生物分子的组合治疗。目前的再生治疗是无效的，因为他们没有考虑到各种细胞类型的空间位置，以有效地形成功能性神经通路。模拟天然脊髓中细胞的复杂异质性需要翻译现有的神经发育空间模式的生物学理解，以及生物分子和机械模式对区域规范和轴突再生的影响，以设计脊髓再生的支架。这篇综述探讨了3D生物打印在精确控制支架中的材料、细胞和药物模式、实现空间表型规范和提供轴突引导以形成适当连接方面的潜力。我们还讨论了基于挤压和数字光处理的生物打印在支架内集成机械、化学和生物线索的应用，以推进空间模式的3D生物打印支架，以及这些生物工程策略中的当前挑战和未来前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced drug delivery reviews 医学-药学

CiteScore

28.10

自引率

5.00%

发文量

294

审稿时长

15.1 weeks

期刊介绍： The aim of the Journal is to provide a forum for the critical analysis of advanced drug and gene delivery systems and their applications in human and veterinary medicine. The Journal has a broad scope, covering the key issues for effective drug and gene delivery, from administration to site-specific delivery. In general, the Journal publishes review articles in a Theme Issue format. Each Theme Issue provides a comprehensive and critical examination of current and emerging research on the design and development of advanced drug and gene delivery systems and their application to experimental and clinical therapeutics. The goal is to illustrate the pivotal role of a multidisciplinary approach to modern drug delivery, encompassing the application of sound biological and physicochemical principles to the engineering of drug delivery systems to meet the therapeutic need at hand. Importantly the Editorial Team of ADDR asks that the authors effectively window the extensive volume of literature, pick the important contributions and explain their importance, produce a forward looking identification of the challenges facing the field and produce a Conclusions section with expert recommendations to address the issues.