Exploring Acute Kidney Injury Following Aortic Dissection: A Comprehensive Review of Machine Learning Models for Predicting Risk, Management Strategies, Complications, and Racial and Gender Disparities.
Aman Goyal, Samia Aziz Sulaiman, Vidhi Pancholi, Laveeza Fatima, Shreyas Yakkali, Apoorva Doshi, Sonia Hurjkaliani, Hritvik Jain, Rozi Khan, Amir Humza Sohail
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引用次数: 0
Abstract
Both types of aortic dissection (AD), Stanford type A and type B, can result in complications such as acute kidney injury (AKI) and aortic rupture. Renal complications in AD arise from compromised renal perfusion affecting the renal arteries. Understanding the intricate connection between AD and AKI is crucial for navigating the complexities of tailored treatment and formulating specific management plans. Concerning machine learning models, in patients with type A aortic dissection, factors such as decreased platelet count on admission, increased D-dimer level, longer cardiopulmonary bypass duration, elevated white blood cell levels, the need for blood transfusion, longer aortic clamp time, extended surgery duration, advanced age, and an elevated body mass index were positively associated with the development of AKI. For the risk of AKI after type B aortic dissection, elevated Nt-pro brain natriuretic peptide, prolonged activated partial thromboplastin time, elevated admission systolic blood pressure, and a higher contrast agent requirement during operative repair were found to predict the risk. Male gender was associated with a higher risk of AKI, and nonwhite race was linked to a higher risk of AKI, a greater likelihood of requiring more urgent procedures, and lower levels of insurance coverage. The treatment of AKI following AD requires a multifaceted approach. Identifying and addressing the underlying cause, such as low blood pressure, renal artery involvement, or medication-induced injury, is crucial for effective management and preventing further kidney damage. Maintaining proper fluid balance is essential for improving renal perfusion, but careful monitoring is necessary to avoid complications. The evolving landscape of research, particularly in biomarkers and AI programs, reveals a promising role in predicting the risk for and managing AKI post-AD.
探索主动脉夹层后的急性肾损伤:预测风险、管理策略、并发症以及种族和性别差异的机器学习模型综合评述》(Machine Learning Models for Predicting Risk, Management Strategies, Complications, and Racial and Gender Disparities)。
斯坦福A型和B型主动脉夹层(AD)都可能导致急性肾损伤(AKI)和主动脉破裂等并发症。主动脉夹层导致的肾脏并发症源于影响肾动脉的肾灌注受损。了解 AD 与 AKI 之间错综复杂的联系,对于驾驭复杂的定制治疗和制定具体的管理计划至关重要。关于机器学习模型,在 A 型主动脉夹层患者中,入院时血小板计数减少、D-二聚体水平升高、心肺旁路时间延长、白细胞水平升高、需要输血、主动脉钳夹时间延长、手术时间延长、高龄和体重指数升高等因素与 AKI 的发生呈正相关。就 B 型主动脉夹层后发生 AKI 的风险而言,Nt-pro 脑钠肽升高、活化部分凝血活酶时间延长、入院收缩压升高以及手术修复过程中造影剂需求量增加均可预测风险。男性的性别与较高的 AKI 风险相关,非白人种族与较高的 AKI 风险、需要更多紧急手术的可能性以及较低的保险覆盖水平相关。治疗 AD 后的 AKI 需要采取多方面的方法。找出并解决根本原因(如低血压、肾动脉受累或药物引起的损伤)对于有效管理和防止进一步的肾损伤至关重要。保持适当的体液平衡对改善肾脏灌注至关重要,但要避免并发症,还必须进行仔细监测。不断发展的研究,尤其是生物标志物和人工智能项目,揭示了在预测和管理后天性肾损伤风险方面的前景。
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