biology, medical, healthcare, DX

A part of this report was introduced in the June 2021 issue of our periodical, “Yano E plus.”

– Real-time Measurement Systems for Tear Fluid, Saliva, and Biogases are Required to Realize Healthcare Through Non-invasive Biological Information Measurement –

1. What is Non-Invasive Biological Sensing?

2. Non-Invasive Biological Sensing Driven by DX

2-1. Non-Invasive Biological Sensing Using Body Fluids and Cells

2-2. Analysis of Non-Invasive Biological Sensing Results with 5G and Cloud

2-3. BMI Essential for Ultimate Non-Invasive Biological Sensing

2-4. Development of Ultrasonography

3. Market Size Forecast

4. Efforts Made by Universities

4-1. Kagawa University

4-2. The University of Tokyo

4-3. Tokyo University of Agriculture and Technology

1) Development of the Acoustically Stimulated Electromagnetic (ASEM) Method

2) Measurement Method and Devices

3) Bone Properties and ASEM Response

4) Application to Other Organs

5) Efforts toward Practical Application of Diagnosis Using the ASEM Method

4-4. Tohoku Institute of Technology

1) Electrochemical Biosensors for Real-time Multi-electrode Imaging of Oxygen Concentration Distribution by Photosynthesis in Plant Tissue [1]

2) Respiratory Activity Image of Scanning Electro-chemical Microscopy (SECM) Using 3D Human Cell Chips [2]

3) Bovine Mastitis Simple Test Method Using SECM and Raw Milk Cell Chips [3]

i. Calibration Curve Creation and Threshold Determination

ii. Comparative Study of Somatic Cell Counts in Mastitis Cows and Normal Cows Using the Method

4-5. Tohoku University

1) Development of the Early Diagnosis Method of Atherosclerosis

i. Analysis Method for Viscoelastic Properties of Arterial Wall

ii. Blood Vessel Surface Roughness Measurement Method

2) New Cardiac Function Evaluation Method

3) Thoracic Vertebra Drawing Method for Epidural Anesthesia Support

4) Viscoelastic Properties Evaluation of Muscle Tissue by Ultrasonic Waves

5. Non-Invasive Biological Sensing as a Driving Force for Medical DX