Artificial Intelligence in Spinal Imaging and Patient Care: A Review of Recent Advances.

IF 3.8 2区 医学 Q1 CLINICAL NEUROLOGY
Neurospine Pub Date : 2024-06-01 Epub Date: 2024-06-30 DOI:10.14245/ns.2448388.194
Sungwon Lee, Joon-Yong Jung, Akaworn Mahatthanatrakul, Jin-Sung Kim
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引用次数: 0

Abstract

Artificial intelligence (AI) is transforming spinal imaging and patient care through automated analysis and enhanced decision-making. This review presents a clinical task-based evaluation, highlighting the specific impact of AI techniques on different aspects of spinal imaging and patient care. We first discuss how AI can potentially improve image quality through techniques like denoising or artifact reduction. We then explore how AI enables efficient quantification of anatomical measurements, spinal curvature parameters, vertebral segmentation, and disc grading. This facilitates objective, accurate interpretation and diagnosis. AI models now reliably detect key spinal pathologies, achieving expert-level performance in tasks like identifying fractures, stenosis, infections, and tumors. Beyond diagnosis, AI also assists surgical planning via synthetic computed tomography generation, augmented reality systems, and robotic guidance. Furthermore, AI image analysis combined with clinical data enables personalized predictions to guide treatment decisions, such as forecasting spine surgery outcomes. However, challenges still need to be addressed in implementing AI clinically, including model interpretability, generalizability, and data limitations. Multicenter collaboration using large, diverse datasets is critical to advance the field further. While adoption barriers persist, AI presents a transformative opportunity to revolutionize spinal imaging workflows, empowering clinicians to translate data into actionable insights for improved patient care.

人工智能在脊柱成像和患者护理中的应用:最新进展回顾。
人工智能(AI)通过自动分析和强化决策,正在改变脊柱成像和患者护理。本综述以临床任务为基础进行评估,突出人工智能技术对脊柱成像和患者护理不同方面的具体影响。我们首先讨论人工智能如何通过去噪或减少伪影等技术提高图像质量。然后,我们探讨人工智能如何实现解剖测量、脊柱曲率参数、椎体分割和椎间盘分级的高效量化。这有助于进行客观、准确的解释和诊断。现在,人工智能模型能可靠地检测出关键的脊柱病变,在识别骨折、狭窄、感染和肿瘤等任务中达到专家级水平。除诊断外,人工智能还可通过合成计算机断层扫描生成、增强现实系统和机器人引导来协助手术规划。此外,人工智能图像分析与临床数据相结合,可进行个性化预测,指导治疗决策,如预测脊柱手术的结果。然而,在临床应用人工智能时仍需应对各种挑战,包括模型的可解释性、可推广性和数据局限性。使用大型、多样化数据集的多中心合作对于进一步推动该领域的发展至关重要。虽然采用障碍依然存在,但人工智能为脊柱成像工作流程带来了变革性机遇,使临床医生有能力将数据转化为可操作的见解,从而改善患者护理。
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
Neurospine
Neurospine Multiple-
CiteScore
5.80
自引率
18.80%
发文量
93
审稿时长
10 weeks
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