SYSTEM AND METHOD FOR PERFORMING SURGERY WITH REAL-TIME HEALTH PARAMETER MONITORING

Organization Name

Know Labs, Inc.

Inventor(s)

John Cronin of Williston VT (US)

SYSTEM AND METHOD FOR PERFORMING SURGERY WITH REAL-TIME HEALTH PARAMETER MONITORING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18187329 titled 'SYSTEM AND METHOD FOR PERFORMING SURGERY WITH REAL-TIME HEALTH PARAMETER MONITORING

• • Simplified Explanation:**

The patent application describes a system for real-time monitoring of blood analytes to reduce the risk of surgical complications. The system uses radio frequency scanning data to analyze blood vessels and determine health parameters of the person.

• • Key Features and Innovation:**

- Apparatus generates radio frequency scanning data - Transmitter sends radio waves below the skin surface - Receive antennas capture radio waves interacting with blood vessels - Machine learning algorithm analyzes waveforms to determine health parameters - System notifies person and health professionals of health status - Two apparatuses collect waveform data for different analytes - Analyte waveforms are analyzed to determine analyte levels - System reports risks associated with analyte levels

• • Potential Applications:**

- Real-time monitoring of blood analytes during surgeries - Early detection of health issues related to blood analytes - Continuous monitoring of health parameters for at-risk patients

• • Problems Solved:**

- Reducing the risk of surgical complications - Providing real-time feedback on health status - Improving patient outcomes through proactive monitoring

• • Benefits:**

- Enhanced patient safety during surgeries - Timely intervention based on health parameter analysis - Improved communication between patients and healthcare providers

• • Commercial Applications:**

Title: Real-Time Blood Analyte Monitoring System for Surgical Settings This technology can be used in hospitals, surgical centers, and other healthcare facilities to monitor patients' blood analytes in real-time during surgical procedures. It can also be integrated into wearable devices for continuous health monitoring in at-risk populations.

• • Prior Art:**

Prior art related to this technology may include patents or research on real-time health monitoring systems, machine learning algorithms for medical diagnostics, and radio frequency scanning devices for medical applications.

• • Frequently Updated Research:**

Researchers are constantly exploring new ways to improve the accuracy and efficiency of real-time monitoring systems for blood analytes. Stay updated on the latest advancements in machine learning algorithms and radio frequency scanning technology for healthcare applications.

• • Questions about Real-Time Blood Analyte Monitoring:**

1. How does the system differentiate between different analytes in the blood? 2. What are the potential limitations of using radio frequency scanning for real-time health monitoring?

Original Abstract Submitted

Methods of using a system for real-time monitoring of blood analytes to reduce the risk of surgical complications. The system includes an apparatus for generating radio frequency scanning data which includes a transmitter for transmitting radio waves below the skin surface of a person and a two-dimensional array of receive antennas for receiving the radio waves, including a portion of the transmitted radio waves that interact with a blood vessel of the person. The wave signal is compared to known standard waveforms, and similar waveforms are input into a machine learning algorithm to determine one or more health parameters of the person. The system then notifies the person and/or health professionals of the person's health status. Two apparatuses are used to collect waveform data for two different analytes. The analyte waveforms are analyzed to determine the patient's analyte levels. The system reports risks associated with at least one analyte level.