Polymeric Theragnostic Nanoplatforms for Bone Tissue Engineering

Kaushita Banerjee, H. Madhyastha
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Abstract

Nanomaterial-based tissue engineering strategies are precisely designed and tweaked to contest specific patient needs and their end applications. Though theragnostic is a radical term very eminent in cancer prognosis, of late, theragnostic approaches have been explored in the fields of tissue remodulation and reparation. The engineering of theragnostic nanomaterials has opened up avenues for disease diagnosis, imaging, and therapeutic treatments. The instantaneous monitoring of therapeutic strategy is expected to co-deliver imaging and pharmaceutical agents at the same time, and nanoscale carrier moieties are convenient and efficient platforms in theragnostic applications, especially in soft and hard tissue regeneration. Furthermore, imaging modalities have extensively contributed to the signal-to-noise ratio. Simultaneously, there is an accumulation of high concentrations of therapeutic mediators at the defect site. Given the confines of contemporary bone diagnostic systems, the clinical rationale demands nano/biomaterials that can localize to bone-diseased sites to enhance the precision and prognostic value for osteoporosis, non-healing fractures, and/or infections, etc. Furthermore, bone theragnostics may have an even greater clinical impact and multimodal imaging procedures can overcome the restrictions of individual modalities. The present review introduces representative theragnostic polymeric nanomaterials and their advantages and disadvantages in practical use as well as their unique properties.
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用于骨组织工程的聚合物Therognostic纳米平台
基于纳米材料的组织工程策略被精确地设计和调整,以满足特定患者的需求及其最终应用。虽然诊断在癌症预后中是一个非常重要的激进术语,但近年来,诊断方法已经在组织调节和修复领域进行了探索。纳米材料的工程诊断为疾病诊断、成像和治疗开辟了道路。治疗策略的即时监测有望同时提供成像和药物,纳米级载体部分是治疗应用的方便和有效的平台,特别是在软硬组织再生方面。此外,成像方式对信噪比有很大的影响。同时,在缺陷部位有高浓度治疗介质的积累。鉴于当代骨诊断系统的局限性,临床基本原理要求纳米/生物材料能够定位于骨病变部位,以提高骨质疏松症、未愈合骨折和/或感染等的准确性和预后价值。此外,骨诊断学可能具有更大的临床影响,多模态成像程序可以克服单个模态的限制。本文介绍了具有代表性的医用高分子纳米材料及其在实际应用中的优缺点,以及它们的独特性能。
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