Technology Transfer Items

Measure and analyze blood flow

Diagnostic technology for hematologic diseases using AI-based DHM technology

Related patents

  • 기계 학습을 사용하여 혈구성 질환을 진단하는 방법 및 기계 학습을 사용하여 혈구성 질환을 진단하는 장치 (등록 번호: 10-2052902)

Key features

  • A diagnostic technique that identifies abnormalities in blood cells to diagnose hematologic diseases without the need for labeling
  • It extracts classification features from holographic images of blood cells using DHM (Digital Holographic Microscopy) and applies machine learning-type AI techniques to accurately diagnose hematological diseases

Application field

  • Diagnosis of hematologic diseases caused by deformed blood cells, such as diabetes and malaria

Hemodynamic and hemodynamic property measurement and analysis systems

Related patents

  • 미세 유체칩으로 유입되는 시료의 기포 및 맥동성 제거를 위한 유동제어 장치, 이를 이용한 유동제어 방법, 및 이를 포함하는 유동제어 시스템 (등록 번호: 10-15591610000)

Key features

  • Eliminate bubbles and stabilize flow inside microfluidic chips and conduits
  • Flow control devices and systems to reduce flow pulsatility and eliminate bubbles

Application field

  • Measurement of hemodynamic and hemodynamic factors with microfluidic chips

Extracorporeal blood circulation device and method for researching cardiovascular diseases

Related patents

  • 체외 혈액 순환장치 및 심혈관 질환 연구방법 (10-1580644)

Key features

  • In vivo circulation of authentic blood in living animal disease models
  • Easily adaptable to small animals like mice, rabbits, etc., for conditions such as diabetes and hypertension
  • Flow control achieved through valve regulation of connected tubes
  • Gathering of hemodynamic and hemorheological data through the use of various diagnostic and measurement devices

Application field

  • Studying cardiovascular diseases using animal models
  • Investigating the causes and developing treatment methods for circulatory disorders

Device for measuring blood hemorheological information utilizing a microfluidic chip

Related patents

  • 유동 혈액 측정 장치 (10-2012-0065031)

Key features

  • Measuring hemorheological characteristics like blood viscosity, elasticity, and coagulation
  • Removing pulsatile components in blood flow using a pulsation removal unit
  • Analyzing flow characteristics and hemorheological properties over time through the acquisition of blood flow images

Application field

  • Diagnosis and monitoring of cardiovascular conditions
  • Investigation into the relationship between blood characteristics and cardiovascular diseases
  • Utilization in clinical trials