人工智能在多糖生物医学工程中的应用综述

IF 4.7 3区 工程技术 Q2 ENGINEERING, BIOMEDICAL Current Opinion in Biomedical Engineering Pub Date : 2023-09-01 DOI:10.1016/j.cobme.2023.100463
Hanieh Shokrani , Amirhossein Shokrani , Farzad Seidi , Justyna Kucińska-Lipka , Balbina Makurat-Kasprolewicz , Mohammad Reza Saeb , Seeram Ramakrishna
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引用次数: 0

摘要

计算机辅助概念和认知算法的出现,以及模糊集和模糊逻辑思想,支持了“让计算机像人一样思考”的想法(Lotfi A.Zadeh,IEEE Spectrum,21(26-32),1984)。这种思想流派使得在“人工智能”(AI)的帮助下,以任务为导向的生物材料和生物系统的开发变得复杂起来。由于多糖(PSA)在医学上是安全的,并且依赖于刺激反应性,我们在此强调在基于PSA的生物医学工程中使用基于AI的算法的重要性。由于人工智能制造基于PSA的生物材料经历了非常早期的成熟阶段,因此本文不强调“机器学习”(ML)模型的模式识别和行为可视化。然而,PSA的特殊化学特性,如表面改性和高度适应性,促进了ML辅助的创新。基于PSA的生物材料显示出不同的生物医学特性;因此,总结、整理和回忆PSA的最佳场景和优化性能特征似乎仍然遥不可及。我们只是在这里强调了通过人工智能的帮助,基于PSA的生物医学工程,以建立未来的议程。本文主要介绍了靶向药物递送载体、皮肤组织工程模板、伤口愈合系统、癌症治疗平台、生物传感器、个性化检测复合物,特别是人工智能辅助生物打印的前景。
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Artificial intelligence for biomedical engineering of polysaccharides: A short overview

The advent of computer-aided concepts and cognitive algorithms, along with fuzzy sets and fuzzy logic thoughts, supported the idea of ‘making computers think like people’ (Lotfi A. Zadeh, IEEE Spectrum, 21 (26–32), 1984). Such a school of thought enabled the sophistication of mission-oriented development of biomaterials and biosystems with the aid of ‘Artificial Intelligence’ (AI). Since polysaccharides (PSA) are medically safe and rely on stimuli-responsiveness, we herein highlight the importance of using AI-based algorithms in PSA-based biomedical engineering. Since manufacturing PSA-based biomaterials by AI experiences a very early stage of maturity, pattern recognition and behavior visualization by ‘Machine Learning’ (ML) models are not stressed herein. Nevertheless, exceptional chemical features of PSA such as surface modification and high adaptability facilitate ML-aided innovations. PSA-based biomaterials reveal diverse biomedical properties; therefore, summarizing, sorting, and recalling the best scenarios and optimization of the performance features of PSA still seems far from reach. We just highlight herein PSA-based biomedical engineering by the aid of AI to establish an agenda for the future. Herein, the outlook of targeted drug delivery vehicles, skin tissue engineering templates, wound healing systems, cancer treatment platforms, biosensors, personalized detection complexes, and particularly AI-aided bioprinting are generally covered.

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来源期刊
Current Opinion in Biomedical Engineering
Current Opinion in Biomedical Engineering Medicine-Medicine (miscellaneous)
CiteScore
8.60
自引率
2.60%
发文量
59
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