生存预测前景:关于活动、方法、工具、疾病和数据库的深入系统文献综述。

IF 3 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Frontiers in Artificial Intelligence Pub Date : 2024-07-03 eCollection Date: 2024-01-01 DOI:10.3389/frai.2024.1428501
Ahtisham Fazeel Abbasi, Muhammad Nabeel Asim, Sheraz Ahmed, Sebastian Vollmer, Andreas Dengel
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引用次数: 0

摘要

生存预测整合了患者特异性分子信息和临床特征,以预测复发、死亡或疾病进展等事件的预计发生时间。事实证明,生存预测在指导治疗决策、优化资源分配和干预精准医疗方面具有重要价值。由于疾病种类繁多、同一疾病存在多种变异以及对现有数据的依赖,因此有必要开发针对特定疾病的计算生存预测器。人工智能(AI)方法在制定生存预测指标方面的广泛应用无疑给这一领域带来了革命性的变化。然而,由于对更复杂、更有效的预测模型的需求不断增加,因此有必要继续创造创新性的进展。为了推动这些进步,将现有的生存预测知识和见解整合到一个集中的平台上至关重要。本文深入研究了现有的 23 项综述研究,并对其范围和局限性进行了简要概述。论文以 44 种不同疾病的 90 种最新生存预测指标为重点,深入探讨了用于开发特定疾病预测指标的各类方法。这项详尽的分析包括所使用的数据模式,以及对临床特征子集、特征工程方法和所采用的特定统计、机器或深度学习方法的详细分析。它还提供了有关生存预测数据源、开源预测因子和生存预测框架的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Survival prediction landscape: an in-depth systematic literature review on activities, methods, tools, diseases, and databases.

Survival prediction integrates patient-specific molecular information and clinical signatures to forecast the anticipated time of an event, such as recurrence, death, or disease progression. Survival prediction proves valuable in guiding treatment decisions, optimizing resource allocation, and interventions of precision medicine. The wide range of diseases, the existence of various variants within the same disease, and the reliance on available data necessitate disease-specific computational survival predictors. The widespread adoption of artificial intelligence (AI) methods in crafting survival predictors has undoubtedly revolutionized this field. However, the ever-increasing demand for more sophisticated and effective prediction models necessitates the continued creation of innovative advancements. To catalyze these advancements, it is crucial to bring existing survival predictors knowledge and insights into a centralized platform. The paper in hand thoroughly examines 23 existing review studies and provides a concise overview of their scope and limitations. Focusing on a comprehensive set of 90 most recent survival predictors across 44 diverse diseases, it delves into insights of diverse types of methods that are used in the development of disease-specific predictors. This exhaustive analysis encompasses the utilized data modalities along with a detailed analysis of subsets of clinical features, feature engineering methods, and the specific statistical, machine or deep learning approaches that have been employed. It also provides insights about survival prediction data sources, open-source predictors, and survival prediction frameworks.

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来源期刊
CiteScore
6.10
自引率
2.50%
发文量
272
审稿时长
13 weeks
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