CT image-based biomarkers acquired by AI-based algorithms for the opportunistic prediction of falls.

BJR open Pub Date : 2023-05-16 eCollection Date: 2023-01-01 DOI:10.1259/bjro.20230014
Daniel Liu, Neil C Binkley, Alberto Perez, John W Garrett, Ryan Zea, Ronald M Summers, Perry J Pickhardt
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引用次数: 1

Abstract

Objective: Evaluate whether biomarkers measured by automated artificial intelligence (AI)-based algorithms are suggestive of future fall risk.

Methods: In this retrospective age- and sex-matched case-control study, 9029 total patients underwent initial abdominal CT for a variety of indications over a 20-year interval at one institution. 3535 case patients (mean age at initial CT, 66.5 ± 9.6 years; 63.4% female) who went on to fall (mean interval to fall, 6.5 years) and 5494 controls (mean age at initial CT, 66.7 ± 9.8 years; 63.4% females; mean follow-up interval, 6.6 years) were included. Falls were identified by electronic health record review. Validated and fully automated quantitative CT algorithms for skeletal muscle, adipose tissue, and trabecular bone attenuation at the level of L1 were applied to all scans. Uni- and multivariate assessment included hazard ratios (HRs) and area under the receiver operating characteristic (AUROC) curve.

Results: Fall HRs (with 95% CI) for low muscle Hounsfield unit, high total adipose area, and low bone Hounsfield unit were 1.82 (1.65-2.00), 1.31 (1.19-1.44) and 1.91 (1.74-2.11), respectively, and the 10-year AUROC values for predicting falls were 0.619, 0.556, and 0.639, respectively. Combining all these CT biomarkers further improved the predictive value, including 10-year AUROC of 0.657.

Conclusion: Automated abdominal CT-based opportunistic measures of muscle, fat, and bone offer a novel approach to risk stratification for future falls, potentially by identifying patients with osteosarcopenic obesity.

Advances in knowledge: There are few well-established clinical tools to predict falls. We use novel AI-based body composition algorithms to leverage incidental CT data to help determine a patient's future fall risk.

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基于人工智能的算法获取基于CT图像的生物标志物,用于机会性预测跌倒
评估基于自动化人工智能(AI)算法测量的生物标志物是否提示未来跌倒风险。在这项年龄和性别匹配的回顾性病例对照研究中,9029名患者在20年的时间间隔内在一家机构接受了各种适应症的初始腹部CT检查。3535例患者(初诊平均年龄66.5±9.6岁;63.4%的女性)继续跌倒(平均跌倒间隔,6.5年)和5494名对照(初次CT时平均年龄,66.7±9.8岁;63.4%的女性;平均随访时间6.6年)。通过电子健康记录审查确定跌倒。所有扫描均采用经验证的全自动骨骼肌、脂肪组织和L1水平骨小梁衰减定量CT算法。单因素和多因素评估包括风险比(hr)和受试者工作特征曲线下面积(AUROC)。低肌肉Hounsfield单位、高总脂肪面积和低骨骼Hounsfield单位的跌倒hr (95% CI)分别为1.82(1.65-2.00)、1.31(1.19-1.44)和1.91(1.74-2.11),预测跌倒的10年AUROC值分别为0.619、0.556和0.639。结合所有CT生物标志物进一步提高了预测价值,其中10年AUROC为0.657。基于自动腹部ct的肌肉、脂肪和骨骼的机会性测量为未来跌倒的风险分层提供了一种新的方法,可能通过识别骨肌减少性肥胖患者。很少有成熟的临床工具来预测跌倒。我们使用新颖的基于人工智能的身体成分算法来利用偶然的CT数据来帮助确定患者未来的跌倒风险。
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