CENTRAL BLOOD PRESSURE MONITORING

 

VALUE PROPOSITION
Automatic arm cuff devices provide non-invasive, convenient, and clinically valuable blood pressure monitoring. These devices offer a high level of accuracy, ensuring reliable data collection and analysis. They are cost-effective, as they eliminate the need for frequent visits to healthcare facilities for blood pressure checks. Moreover, their real-time monitoring capability allows for immediate detection of any abnormalities, enabling prompt clinical intervention. The data collected can also be used for comprehensive health analysis, contributing to personalized patient care and improved health outcomes.

 

DESCRIPTION OF TECHNOLOGY

This technology provides computation of central blood pressure (BP) using a standard automatic arm cuff device, as opposed to specialized cuffs. This method involves measuring cuff pressure during inflation or deflation, extracting specific features from the resulting waveform, and then computing central BP values through either machine learning algorithms or physiologic modeling. The process can also involve estimating brachial BP magnitude and scaling a pulse volume plethysmography (PVP) waveform to derive a central BP waveform. This innovative approach not only simplifies the monitoring process but also enhances the accuracy and reliability of BP readings, thereby contributing to more effective patient care and health management.

 

BENEFITS

  • Non-invasive Monitoring
  • Convenience
  • Clinical Value
  • Accuracy
  • Cost-Effective
  • Real-time Monitoring
  • Data Collection and Analysis

 

APPLICATIONS

  • Hypertension Management
  • Automatic arm cardiac Care
  • Postoperative Monitoring
  • Home Monitoring
  • Emergency Medicine
  • Fitness and Wellness

 

IP Status

US Patent 11,779,230

LICENSING RIGHTS AVAILABLE

Licensing rights available

Inventors: Ramakrishna Mukkamala, Keerthana Natarajan and Jin-Oh Hahn

Tech ID: TEC2018-0005

 

For more information about this technology,

Contact Jon Debling, Ph.D. at deblingj@msu.edu or +1-517-884-1653

 

 

Patent Information:

Category(s):

For Information, Contact:

Raymond Devito
Technology Manager
Michigan State University
devitora@msu.edu
Keywords: