Biophotonics and nanorobotics for biomedical imaging, biosensing, drug delivery, and therapy

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Bakr Ahmed Taha , Ali J. Addie , Ehsan M. Abbas , Bashar Hamad Aubaidan , Naser M. Ahmed , Adawiya J. Haider , Vishal Chaudhary , Norhana Arsad
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Abstract

Biophotonics-based nanorobotics is an important development in biomedical engineering. It combines light-based technology with tiny robotic devices to improve the treatment and diagnosis of diseases. This review explains the basic ideas of biophotonics and nanorobotics. It shows how important they are for delivering drugs directly to where they are needed, for treating cancer and for enabling tissue repair through better imaging techniques. In addition, light-driven nanorobots are increasingly being used in imaging and medical procedures. We also discuss the categorization of nanorobots based on their nanomaterials, functional mechanisms and potential biomedical programs. In addition, we address critical situations in biophotonic nanorobotics, such as biocompatibility, persistent motion within the frame, and self-sufficient navigation structures. Emerging answers that incorporate synthetic intelligence and the development of device-based knowledge can improve the performance and accuracy of nanorobots. Finally, we are looking at the potential of bioluminescence-assisted nanorobotics, manufacturing methods and recognition strategies for the future. We are also exploring the integration of innovative nanomaterials, enzymes and artificial intelligence (AI) for control and hybrid actuation, which promise minimally invasive nanoscale therapies for complex diseases in real time. These innovations put biophotonic nanorobotics at the forefront of biomedical research. They offer transformative solutions to unmet clinical needs and significantly advance our understanding of biological systems.
用于生物医学成像、生物传感、给药和治疗的生物光子学和纳米机器人技术
基于生物光子学的纳米机器人技术是生物医学工程领域的一项重要发展。它将基于光的技术与微小的机器人设备相结合,以改善疾病的治疗和诊断。本综述解释了生物光子学和纳米机器人学的基本思想。它说明了生物光子学和纳米机器人技术对于将药物直接输送到需要的地方、治疗癌症以及通过更好的成像技术实现组织修复有多么重要。此外,光驱动纳米机器人正越来越多地用于成像和医疗程序。我们还讨论了根据纳米材料、功能机制和潜在生物医学项目对纳米机器人进行分类的问题。此外,我们还讨论了生物光子纳米机器人的关键问题,如生物兼容性、框架内的持续运动和自给自足的导航结构。结合合成智能和基于设备的知识开发的新答案可以提高纳米机器人的性能和准确性。最后,我们正在研究生物发光辅助纳米机器人的潜力、制造方法和未来的识别策略。我们还在探索创新纳米材料、酶和人工智能(AI)在控制和混合驱动方面的整合,这有望为复杂疾病的实时微创纳米级疗法带来希望。这些创新将生物光子纳米机器人技术推向了生物医学研究的前沿。它们为尚未满足的临床需求提供了变革性的解决方案,并极大地推动了我们对生物系统的了解。
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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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