Designing nanotheranostics with machine learning

IF 38.1 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nature nanotechnology Pub Date : 2024-10-03 DOI:10.1038/s41565-024-01753-8

Lang Rao, Yuan Yuan, Xi Shen, Guocan Yu, Xiaoyuan Chen

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Abstract

The inherent limits of traditional diagnoses and therapies have driven the development and application of emerging nanotechnologies for more effective and safer management of diseases, herein referred to as ‘nanotheranostics’. Although many important technological successes have been achieved in this field, widespread adoption of nanotheranostics as a new paradigm is hindered by specific obstacles, including time-consuming synthesis of nanoparticles, incomplete understanding of nano–bio interactions, and challenges regarding chemistry, manufacturing and the controls required for clinical translation and commercialization. As a key branch of artificial intelligence, machine learning (ML) provides a set of tools capable of performing time-consuming and result-perception tasks, thus offering unique opportunities for nanotheranostics. This Review summarizes the progress and challenges in this emerging field of ML-aided nanotheranostics, and discusses the opportunities in developing next-generation nanotheranostics with reliable datasets and advanced ML models to offer better clinical benefits to patients.

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利用机器学习设计纳米otheranostics

传统诊断和治疗方法的固有局限性推动了新兴纳米技术的开发和应用，以更有效、更安全地治疗疾病。尽管在这一领域已经取得了许多重要的技术成就，但纳米otheranostics 作为一种新范例的广泛应用仍受到一些特定障碍的阻碍，包括纳米粒子的合成耗时，对纳米生物相互作用的理解不全面，以及临床转化和商业化所需的化学、制造和控制方面的挑战。作为人工智能的一个重要分支，机器学习（ML）提供了一套能够执行耗时和结果感知任务的工具，从而为纳米otheranostics 提供了独特的机遇。本综述总结了机器学习辅助纳米otheranostics 这一新兴领域的进展和挑战，并讨论了利用可靠的数据集和先进的机器学习模型开发下一代纳米otheranostics 的机遇，以便为患者提供更好的临床益处。

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

Nature nanotechnology 工程技术-材料科学：综合

CiteScore

59.70

自引率

0.80%

发文量

196

审稿时长

4-8 weeks

期刊介绍： Nature Nanotechnology is a prestigious journal that publishes high-quality papers in various areas of nanoscience and nanotechnology. The journal focuses on the design, characterization, and production of structures, devices, and systems that manipulate and control materials at atomic, molecular, and macromolecular scales. It encompasses both bottom-up and top-down approaches, as well as their combinations. Furthermore, Nature Nanotechnology fosters the exchange of ideas among researchers from diverse disciplines such as chemistry, physics, material science, biomedical research, engineering, and more. It promotes collaboration at the forefront of this multidisciplinary field. The journal covers a wide range of topics, from fundamental research in physics, chemistry, and biology, including computational work and simulations, to the development of innovative devices and technologies for various industrial sectors such as information technology, medicine, manufacturing, high-performance materials, energy, and environmental technologies. It includes coverage of organic, inorganic, and hybrid materials.