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Related Concept Videos

Assessing Blood pressure using a doppler ultrasound01:19

Assessing Blood pressure using a doppler ultrasound

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To obtain accurate blood pressure measurements in clinical settings, especially when traditional methods are insufficient, healthcare professionals utilize the Doppler ultrasound technique. This method uses high-frequency sound waves to detect blood flow within the arteries, which is crucial for patients with conditions that complicate circulatory system assessment.
Pre-Procedural Guidelines for Doppler Ultrasound Blood Pressure Assessment:
Preparation of Equipment:
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Measurement of Blood Pressure01:17

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Assessing blood pressure is a standard procedure executed in virtually all medical environments. The method utilized today was established over a hundred years ago by an innovative Russian doctor, Dr. Nikolai Korotkoff. The soft ticking noise, known as Korotkoff sounds, heard while taking blood pressure readings results from turbulent blood flow within the vessels. The apparatus required for this procedure includes a sphygmomanometer, a blood pressure cuff attached to a gauge, and a...
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Equipments Used To Measure Blood Pressure01:30

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Direct Method
This invasive approach involves cannulating a peripheral artery. During each cardiac contraction, pressure generates mechanical motion within the catheter, transmitted through rigid, fluid-filled tubing to a transducer. This transducer converts mechanical motion into electrical signals displayed as waveforms on a monitor. An automatic flushing system prevents blood backflow. Due to the potential risk of unexpected arterial blood loss, this method is primarily used in intensive...
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Sites for measruring blood pressure01:21

Sites for measruring blood pressure

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Blood pressure measurement is a fundamental clinical procedure, providing crucial data for assessing cardiovascular health. Among the various sites for this measurement, the brachial and popliteal arteries are predominantly utilized due to their accessibility and the reliability of their readings. This lesson delves into the anatomical significance, methodology, and considerations of measuring blood pressure at these locations.
The Brachial Artery: Primary Site for Blood Pressure Measurement
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Special considerations while measuring blood pressure01:28

Special considerations while measuring blood pressure

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When assessing blood pressure (BP), healthcare professionals must consider various factors and potential unexpected outcomes to ensure accurate readings and provide proper patient care. Adhering to these guidelines is essential to achieving the most reliable results.
Monitoring Both Arms:
Monitoring BP in both arms during the initial assessment is advisable, as the systolic value may differ by five to ten mm Hg between arms. For subsequent BP assessments, use the arm with the higher reading.
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Assessment of blood pressure in brachial artery(one-step method)01:15

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This procedural guide systematically measures blood pressure using an oscillometric digital sphygmomanometer, emphasizing accuracy, patient safety, and comfort.
Prepare for the Procedure:
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Real-Time Cuffless Continuous Blood Pressure Estimation Using Deep Learning Model.

Yung-Hui Li1, Latifa Nabila Harfiya1, Kartika Purwandari1

  • 1Department of Computer Science and Information Engineering, National Central University, Taoyuan 32001, Taiwan.

Sensors (Basel, Switzerland)
|October 3, 2020
PubMed
Summary
This summary is machine-generated.

This study introduces deep learning models using ECG and PPG signals for real-time blood pressure estimation. The proposed model accurately predicts systolic and diastolic blood pressure, outperforming existing methods for clinical application.

Keywords:
bidirectional LSTMblood pressure (BP)deep LSTMelectrocardiogram (ECG)long short-term memory (LSTM)photoplethysmogram (PPG)regression

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Area of Science:

  • Biomedical Engineering
  • Health Informatics
  • Artificial Intelligence in Medicine

Background:

  • Continuous blood pressure monitoring is crucial for early detection of cardiovascular diseases.
  • Real-time estimation of blood pressure can significantly improve patient outcomes and reduce mortality.
  • Existing methods for blood pressure monitoring have limitations in continuous, non-invasive assessment.

Purpose of the Study:

  • To develop and evaluate deep learning regression models for real-time estimation of systolic blood pressure (SBP) and diastolic blood pressure (DBP).
  • To utilize electrocardiogram (ECG) and photoplethysmogram (PPG) signals for non-invasive blood pressure monitoring.
  • To compare the proposed deep learning models against traditional machine learning and existing deep learning approaches.

Main Methods:

  • Proposed a deep learning architecture incorporating bidirectional Long Short-Term Memory (LSTM) layers with residual connections.
  • Utilized ECG and PPG signals from the Physionet MIMIC II dataset.
  • Compared model performance against traditional machine learning and a benchmark deep learning model.

Main Results:

  • The proposed deep learning model demonstrated superior performance in estimating SBP and DBP compared to existing methods.
  • Achieved accurate real-time blood pressure estimation, indicating significant potential for clinical utility.
  • The model's effectiveness was validated using a comprehensive intensive care unit dataset.

Conclusions:

  • Deep learning models, particularly the proposed LSTM architecture, offer a promising approach for accurate, real-time, non-invasive blood pressure estimation.
  • The findings suggest the potential for effective clinical application of these models in patient monitoring.
  • Further research and validation are warranted for widespread clinical adoption.