Artificial Intelligence and the Silent Pandemic of Antimicrobial Resistance: A Comprehensive Exploration

Journal La Multiapp Pub Date : 2024-02-02 DOI:10.37899/journallamultiapp.v5i1.952

Mohammed F. Al Marjani Marjani, Rana K. Mohammed, Entithaar Mhwes Zghair, Yasmin Makki Mohialden

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Abstract

The rise of antimicrobial resistance (AMR) in the 21st century has made it a worldwide disaster. Due to the fast spread of AMR illnesses and the lack of novel antimicrobials, the silent pandemic is well known. This issue requires a fast and meaningful response, not just speculation. To address this dilemma, deep learning (DL) and machine learning (ML) have become essential in many sectors. As a cornerstone of modern research, machine learning helps handle the many aspects of AMR. AI helps researchers construct clinical decision-support systems by collecting clinical data. These methods enable antimicrobial resistance monitoring and wise use. Additionally, AI applications help research new drugs. AI also excels at synergistic medicine combinations, providing new treatment methods. This paper summarizes our extensive study of AI and the silent epidemic of antibiotic resistance. Through deep learning and machine learning applications across multiple dimensions, we hope to contribute to the proactive management of AMR, moving away from its presentation as a future problem to present-day solutions.

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人工智能与无声的抗菌药耐药性大流行：全面探索

抗菌素耐药性（AMR）在 21 世纪的兴起已成为一场全球性灾难。由于 AMR 疾病的快速传播和新型抗菌药物的缺乏，这种无声的大流行已众所周知。这个问题需要快速而有意义的应对措施，而不仅仅是猜测。为解决这一难题，深度学习（DL）和机器学习（ML）已成为许多领域的必备技术。作为现代研究的基石，机器学习有助于处理 AMR 的许多方面。人工智能通过收集临床数据，帮助研究人员构建临床决策支持系统。这些方法可实现抗菌药耐药性监测和合理使用。此外，人工智能应用还有助于研究新药。人工智能还擅长协同药物组合，提供新的治疗方法。本文总结了我们对人工智能和抗生素耐药性这一无声流行病的广泛研究。我们希望通过跨多个维度的深度学习和机器学习应用，为主动管理抗生素耐药性做出贡献，从将其视为未来问题转变为现在的解决方案。

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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Journal La Multiapp

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