Use of machine-learning algorithms to determine features of systolic blood pressure variability that predict poor outcomes in hypertensive patients

Lacson, Ronilda; Baker, Bowen; Suresh, Harini; Andriole, Katherine P.; Szolovits, Peter; Lacson, Eduardo

doi:10.1093/ckj/sfy049

Cited by 41 publications

(24 citation statements)

References 37 publications

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“…One relevant scenario has been the identification of features that can negatively impact this disease. In this sense, Lacson et al [12] studied the Systolic Blood Pressure Intervention Trial (SPRINT) dataset containing electronic health records, including a wide variety of characteristics in categories such as demographics, medication, or laboratory parameters.…”

Section: Application Of Learning Techniques For Hbpmentioning

confidence: 99%

SENIOR: An Intelligent Web-Based Ecosystem to Predict High Blood Pressure Adverse Events Using Biomarkers and Environmental Data

et al. 2021

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Web platforms are gaining relevance in eHealth, where they ease the interaction between patients and clinician. However, some clinical fields, such as the cardiovascular one, still need more effort because cardiovascular diseases are the principal cause of death and medical resources expenditure worldwide. The lack of daily control is the main reason hypertension is a current health problem, and medical web services could improve this situation. To face this challenge, this work proposes a novel intelligent web-based ecosystem, called SENIOR, capable of predicting adverse blood pressure events. The innovation of the SENIOR ecosystem relies on a wearable device measuring patient’s biomarkers such as blood pressure, a mobile application acquiring patient’s information, and a web platform consulting environmental services, processing data, and predicting blood pressure. The second contribution of this work is to consider novel environmental features based on the users’ location, such as climate and pollution data, to increase the knowledge about known variables affecting hypertension. Finally, our last contribution is a proof of concept with several machine learning algorithms predicting blood pressure values both in real-time and future temporal windows within one day has demonstrated the suitability of SENIOR.

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Section: Application Of Learning Techniques For Hbpmentioning

confidence: 99%

SENIOR: An Intelligent Web-Based Ecosystem to Predict High Blood Pressure Adverse Events Using Biomarkers and Environmental Data

et al. 2021

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“…ML is becoming a popular and efficient approach to evaluate multidimensional longitudinal health data in different fields of medical research. Examples of this kind of studies include the diagnosis of asymptomatic liver disease [ 16 ], the prediction of opioid dependence [ 17 ], the evaluation of sociodemographic determinants of health status in aging [ 18 ], the prediction of the mobility of medical rescue-vehicles [ 19 ], forecasting adverse perioperative outcomes [ 20 ], the measure of caloric intake at the population level [ 21 ], the personalisation of oncological treatment in radiogenomics [ 22 ], the determination of features of systolic blood pressure variability [ 23 ], the identification of clinical variables in bipolar disorder [ 24 ] and, interestingly, a specific interest in uncovering potential predictors of diabetes (type 1 and 2) using large set of data [ 25 – 32 ]. ML can also support global efforts in various fields of epidemic outbreaks of infectious diseases, developing up-to-date text and data-mining techniques to assist COVID-19-related research, especially by developing drugs faster (screening and detecting antibody virus interactions and detect viral antigens), understanding viruses better, mapping where viruses come from, and hopefully predicting the next pandemic [ 33 , 34 ].…”

Section: Approachmentioning

confidence: 99%

Potential predictors of type-2 diabetes risk: machine learning, synthetic data and wearable health devices

Stolfi

Valentini²,

Palumbo

et al. 2020

BMC Bioinformatics

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Background The aim of a recent research project was the investigation of the mechanisms involved in the onset of type 2 diabetes in the absence of familiarity. This has led to the development of a computational model that recapitulates the aetiology of the disease and simulates the immunological and metabolic alterations linked to type-2 diabetes subjected to clinical, physiological, and behavioural features of prototypical human individuals. Results We analysed the time course of 46,170 virtual subjects, experiencing different lifestyle conditions. We then set up a statistical model able to recapitulate the simulated outcomes. Conclusions The resulting machine learning model adequately predicts the synthetic dataset and can, therefore, be used as a computationally-cheaper version of the detailed mathematical model, ready to be implemented on mobile devices to allow self-assessment by informed and aware individuals. The computational model used to generate the dataset of this work is available as a web-service at the following address: http://kraken.iac.rm.cnr.it/T2DM.

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“…The different patterns of progression of later stages of CKD were also characterized [ 26 ], as well as the relationship between obesity, the new adipokine C1q/tumour necrosis factor-related protein-1 and CKD progression [ 35 ]. Use of machine-learning algorithms was explored to predict poor outcomes in hypertensive patients based on blood pressure variability [ 37 ]. Another text studied the usefulness of antiphospholipase 2 receptor levels to predict complete spontaneous remission in untreated membranous nephropathy, and thus to help in initial decision-making regarding initiation of immunosuppressive therapy [ 39 ].…”

Section: Outcome Predictionmentioning

confidence: 99%

Ckj consolidation among Q1 Urology and Nephrology journals

Ortíz

2020

Clinical Kidney Journal

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The Clinical Kidney Journal (ckj) impact factor from Clarivate’s Web of Science for 2019 was 3.388. This consolidates ckj among journals in the top 25% (first quartile, Q1) in the Urology and Nephrology field according to the journal impact factor. The manuscripts contributing the most to the impact factor focused on chronic kidney disease (CKD) epidemiology and evaluation, CKD complications and their management, cost-efficiency of renal replacement therapy, pathogenesis of CKD, familial kidney disease and the environment–genetics interface, onconephrology, technology, SGLT2 inhibitors and outcome prediction. We provide here an overview of the hottest and most impactful topics for 2017–19.

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Use of machine-learning algorithms to determine features of systolic blood pressure variability that predict poor outcomes in hypertensive patients

Cited by 41 publications

References 37 publications

SENIOR: An Intelligent Web-Based Ecosystem to Predict High Blood Pressure Adverse Events Using Biomarkers and Environmental Data

SENIOR: An Intelligent Web-Based Ecosystem to Predict High Blood Pressure Adverse Events Using Biomarkers and Environmental Data

Potential predictors of type-2 diabetes risk: machine learning, synthetic data and wearable health devices

Ckj consolidation among Q1 Urology and Nephrology journals

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