使用机器学习算法预测肾脏疾病

Babu B. Ravindra, M. A. Haile, D. T. Haile, D. Zerihun, Padmini Prabhakar, K. V. Kamyshev
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引用次数: 0

摘要

糖尿病肾病(DKD)的肾功能丧失是逐渐发生的,与高死亡率相关。印度是仅次于中国的第二大DKD患者,预计印度每年会出现100万新病例。如果在早期诊断,DKD可能会得到有效治疗。DKD更危险,因为它通常在婴儿期没有早期预警信号。从医疗保健提供者的角度来看,通过使用机器优先模型来预测DKD的开始,采取预防措施至关重要。可以使用患者的健康记录来估计患者获得DKD的可能性,并且有开源机器学习方法可以做到这一点。临床因素的数量和用于训练算法的数据集的数量都会影响预测的准确性。为了提高DKD预测的准确性,本文采用了机器学习方法和增强算法。与随机树、KNN和支持向量机等没有增强的模型相比,增强算法中使用的策略产生了更可靠的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction of kidney disease using machine learning algorithms
The loss of renal function occurs gradually in diabetic kidney disease (DKD), which is associated with a high death rate. India is second only to China in the number of people living with DKD and it is expected that one million new cases arise in India each year. If diagnosed at an early stage, DKD may be effectively treated. DKD is more dangerous since it often has no early warning signs in its infancy. From a healthcare provider's standpoint, it is crucial to take preventative measures by using a machine-first model to foresee the beginning of DKD. The likelihood that a patient may acquire DKD can be estimated using their health records, and there are open source machine learning methods available to do this. The amount of clinical factors and the number of datasets used to train the algorithm both affect the prediction accuracy. A machine learning method and a booster algorithm were used in this work to increase the accuracy of DKD prediction. The strategy utilized in boosting algorithm produced more reliable outcomes than models used without boosting such as random tree, KNN and support vector machine.
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来源期刊
Cardiometry
Cardiometry MEDICAL LABORATORY TECHNOLOGY-
自引率
0.00%
发文量
0
审稿时长
6 weeks
期刊介绍: Cardiometry is an open access biannual electronic journal founded in 2012. It refers to medicine, particularly to cardiology, as well as oncocardiology and allied science of biophysics and medical equipment engineering. We publish mainly high quality original articles, reports, case reports, reviews and lectures in the field of the theory of cardiovascular system functioning, principles of cardiometry, its diagnostic methods, cardiovascular system therapy from the aspect of cardiometry, system and particular approaches to maintaining health, engineering peculiarities in cardiometry developing. The interdisciplinary areas of the journal are: hemodynamics, biophysics, biochemistry, metrology. The target audience of our Journal covers healthcare providers including cardiologists and general practitioners, bioengineers, biophysics, medical equipment, especially cardiology diagnostics device, developers, educators, nurses, healthcare decision-makers, people with cardiovascular diseases, cardiology and engineering universities and schools, state and private clinics. Cardiometry is aimed to provide a wide forum for exchange of information and public discussion on above scientific issues for the mentioned experts.
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