用于生物应用的生物启发软爪

Rekha Raja, Ali Leylavi Shoushtari
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引用次数: 0

摘要

受生物启发的软机械手领域已成为一个变革性的研究领域,对生物医学应用有着深远的影响。本章全面概述了从生物系统中汲取灵感的软机械手的原理、发展、挑战和前景。受生物启发的软机械手因其独特的特性(包括顺应性、适应性和生物兼容性)而备受瞩目。它们彻底改变了我们处理生物医学任务的方式,使与脆弱组织的互动更加安全,并实现了刚性工具曾经无法想象的复杂操作。本章深入探讨了软抓手在生物医学领域的基本重要性。它概述了软抓手在手术、诊断、组织工程和各种医疗干预中的重要性。软抓手能够模仿生物有机体的复杂运动,促进微创手术并提高病人的治疗效果。本书从历史的角度回顾了软抓手在生物医学研究中的发展历程,重点介绍了关键的里程碑和突破。从早期模仿章鱼触角灵巧性的尝试到软光刻技术和生物材料的最新进展,这一历程充满了独创性和跨学科合作。本文探讨了在生物医学应用中采用软抓手的动机,强调软抓手能够降低侵入性、提高精确度并提供对复杂解剖结构的适应性。概述了设计适合医疗环境的机械手的要求和挑战,包括生物兼容性、消毒、控制和集成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bio-inspired Soft Grippers for Biological Applications
The field of bio-inspired soft grippers has emerged as a transformative area of research with profound implications for biomedical applications. This book chapter provides a comprehensive overview of the principles, developments, challenges, and prospects of soft grippers that draw inspiration from biological systems. Bio-inspired soft grippers have gained prominence due to their unique characteristics, including compliance, adaptability, and biocompatibility. They have revolutionized the way we approach biomedical tasks, offering safer interactions with delicate tissues and enabling complex operations that were once inconceivable with rigid tools. The chapter delves into the fundamental importance of soft grippers in biomedical contexts. It outlines their significance in surgeries, diagnostics, tissue engineering, and various medical interventions. Soft grippers have the capacity to mimic the intricate movements of biological organisms, facilitating minimally invasive procedures and enhancing patient outcomes. A historical perspective traces the evolution of soft grippers in biomedical research, highlighting key milestones and breakthroughs. From early attempts to emulate the dexterity of octopus tentacles to the latest advancements in soft lithography and biomaterials, the journey has been marked by ingenuity and collaboration across multiple disciplines. Motivations for adopting soft grippers in biomedical applications are explored, emphasizing their ability to reduce invasiveness, increase precision, and provide adaptability to complex anatomical structures. The requirements and challenges in designing grippers fit for medical contexts are outlined, encompassing biocompatibility, sterilization, control, and integration.
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