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Related Concept Videos

Hypertension III: Clinical Manifestations and Diagnostic Studies01:30

Hypertension III: Clinical Manifestations and Diagnostic Studies

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Hypertension is asymptomatic and also referred to as the "silent killer" until it progresses to a severe stage or causes target organ disease. Patients may experience symptoms stemming from the strain on blood vessels and tissues in various organs or the heart's increased workload.Physical exams might show no abnormalities other than high blood pressure. Signs of vascular damage, when present, correspond to the organs supplied by the affected vessels, leading to target organ damage. For...
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Hypertension II: Pathophysiology01:29

Hypertension II: Pathophysiology

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Hypertension is a chronic condition in which the blood's force against artery walls is excessively high, posing risks such as heart disease. The condition's underlying mechanisms involve complex interactions among the cardiovascular, kidney, and autonomic nervous systems.Renin-Angiotensin-Aldosterone System (RAAS): This system significantly influences blood pressure regulation. When blood pressure decreases, the kidneys secrete renin. This enzyme transforms angiotensinogen, a plasma protein,...
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Hypertension and Regulation of Blood Pressure01:18

Hypertension and Regulation of Blood Pressure

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Hypertension, the most common cardiovascular disease, is diagnosed through repeated measurements of elevated blood pressure. Its risks, including damage to the kidney, heart, and brain, are directly proportional to blood pressure levels. Starting from 115/75 mm Hg, the risk of cardiovascular disease doubles with each increment of 20/10 mm Hg. The diagnosis relies on blood pressure measurements, not on patient symptoms, as hypertension is often asymptomatic until end-organ damage is imminent or...
2.2K
Hypertension I: Introduction01:28

Hypertension I: Introduction

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Hypertension is a widespread, long-term medical condition where blood pressure in the arteries remains elevated. It is characterized by systolic blood pressure readings of 130 mm Hg or above or diastolic blood pressure (DBP) readings of 80 mm Hg or higher. Unmanaged hypertension poses significant health risks, making the distinction between primary (or essential) hypertension and secondary hypertension crucial, as their management and implications vary.Primary HypertensionPrimary hypertension,...
55
Neural Regulation of Blood Pressure01:18

Neural Regulation of Blood Pressure

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The neural regulation of blood pressure involves intricate interactions between the autonomic nervous system (ANS) and cardiovascular system, ensuring adequate perfusion of tissues. This regulation primarily occurs through baroreceptor and chemoreceptor reflexes, involving both short-term and long-term mechanisms.
Baroreceptor Reflex
Baroreceptors, located in the carotid sinuses and aortic arch, detect changes in blood pressure. When blood pressure rises, these stretch-sensitive receptors...
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Errors occurring during blood pressure monitoring01:25

Errors occurring during blood pressure monitoring

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Blood pressure monitoring is a crucial clinical procedure in diagnosing and managing various cardiovascular conditions. Despite its significance, the accuracy of blood pressure measurements can be compromised by multiple factors, potentially leading to either falsely high or low readings. These inaccuracies are critical as they can significantly impact patient care. So, it is vital to understand these challenges deeply and adopt strategic approaches to minimize errors.
Several factors...
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Machine learning for classification of hypertension subtypes using multi-omics: A multi-centre, retrospective,

Parminder S Reel1, Smarti Reel1, Josie C van Kralingen2

  • 1Division of Population Health and Genomics, School of Medicine, University of Dundee, Dundee DD2 4BF, UK.

Ebiomedicine
|September 30, 2022
PubMed
Summary
This summary is machine-generated.

Machine learning models effectively distinguish endocrine hypertension subtypes from primary hypertension using multi-omics data, improving diagnostic accuracy for better patient treatment.

Keywords:
BiomarkersCushing syndromeHypertensionMachine learningMulti-omicsPheochromocytoma/paragangliomaPrimary aldosteronism

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Area of Science:

  • Cardiovascular Medicine
  • Biomarkers
  • Machine Learning

Background:

  • Arterial hypertension is a significant cardiovascular risk factor.
  • Identifying secondary hypertension is crucial for preventing complications.
  • There is a need for simplified diagnostic tests to detect secondary hypertension.

Purpose of the Study:

  • To classify subtypes of endocrine hypertension (EHT) using machine learning and multi-omics analysis.
  • To develop a diagnostic tool for differentiating EHT from primary hypertension (PHT).

Main Methods:

  • Utilized machine learning (ML) on multi-omics (MOmics) data from plasma and urine samples.
  • Analyzed 409 features including miRNAs, metabolites, and steroids from hypertensive patients and controls.
  • Employed feature reduction, ML classifiers, and class balancing for robust classification.

Main Results:

  • Achieved ~92% balanced accuracy in distinguishing four conditions (PA, PPGL, CS, PHT) using 57 MOmics features.
  • Discriminated EHT from PHT with 0.96 AUC, 90% sensitivity, and ~86% specificity using 37 MOmics features.
  • Identified specific miRNAs and metabolites as key discriminating biomarkers.

Conclusions:

  • Developed an ML pipeline for differentiating EHT subtypes from PHT using multi-omics data.
  • This approach advances diagnostic capabilities for EHT, increasing testing throughput.
  • Accelerates the administration of appropriate treatment for EHT patients.