LASER SYSTEM FOR BLOOD OR TISSUE ASSESSMENT

 

VALUE PROPOSITION
It is useful in multiple situations to provide rapid, accurate, and non-invasive blood health assessments. A portable, cost-effective, and user-friendly solution is desired to enhance patient care and safety across various medical settings, from hospitals and clinics to emergency services and disaster relief scenarios. Its potential applications in surgical procedures, research, and military/ law enforcement operations further underscore its versatility and impact, making it useful in the pursuit of improved healthcare outcomes and efficient resource management.

 

DESCRIPTION OF TECHNOLOGY

This technology represents an advancement in non-invasive medical diagnostics, offering rapid, precise, and portable blood health assessments. Using laser spectroscopy, it enables healthcare professionals to swiftly evaluate vital health indicators such as oxygen saturation, hemoglobin levels, and blood chemistry, all without the need for invasive procedures or extensive equipment. This can streamline workflows in various medical settings, from routine check-ups to emergency situations, thereby contributing to improved healthcare outcomes and operational efficiency.  The system has a laser operable to emit a laser beam a container to vibrate the blood, a detector operable to detect a vibrational characteristic of the blood, a controller connected to the detector operable to automatically determine a characteristic of the blood based on the acoustic characteristic detected by the detector, and a display operable to indicate a determination result from the controller.

BENEFITS

  • Non-invasive
  • Quick and efficient
  • Portable and affordable
  • Chemical-free
  • Real-time assessment
  • Improved blood shelf-life assessment

 

 

APPLICATIONS

  • Hospitals and Clinics
  • Emergency Services
  • Blood Banks
  • Surgical Procedures
  • Disaster Relief

 

IP Status

US Patent 12,019,011

LICENSING RIGHTS AVAILABLE

Licensing rights available

Inventors: Marcos Dantus

Tech ID: TEC2018-0001

 

For more information about this technology,

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

 

 

Patent Information: