Microparticles and Machine Learning Detect Surface Receptors in a Multifrequency Microfluidic Cytometer

­

​​

Graphical overview depicts the detection of electrically-sensitive cell membrane receptors: (A) Microparticles with varied aluminum oxide coatings (20nm and 10nm) are (B) coated with specific antibodies (anti-CD66b for 20 nm, anti-CD11b for 10nm) to (C) target inflammatory neutrophil receptors, resulting in cell-particle conjugates indicating receptor presence. (D) Individual object measurements occur in flowing conditions using microfluidic impedance cytometry, applying multiple frequencies to (E) distinguish the coating-thickness-dependent frequency responses of aluminum oxide-coated microparticles.


Invention Summary:

The majority of in vitro diagnostics are created to detect a single biomarker. There is an unmet need for a point-of-care device that can simultaneously identify multiple biomarkers to ensure precise diagnosis and prognosis of complex diseases.

Rutgers researchers have developed an invention that pertains to a cytometry device using multifrequency impedance for identifying microparticles that are barcoded and bound with antibodies at specific frequencies. These microparticles have a partial coating of various metal oxide thicknesses. By utilizing multi-frequency impedance cytometry and machine learning, cells expressing surface antigens that can be identified and captured by the microparticle-conjugated antibodies, as well as cell-microparticle complexes, can be distinguished from each other.  

Market Applications:

  • Identifying specific cell types through surface receptors or antigens
  • POC device for disease diagnosis and/or prognosis  

Advantages:

  • Reduced costs in comparison to flow cytometry instruments
  • Portable
  • Ease of operation

Intellectual Property & Development Status: Patent pending. Available for licensing and/or research collaboration. For any business development and other collaborative partnerships contact marketingbd@research.rutgers.edu 

Publications: Lab on a Chip 

Patent Information:
Licensing Manager:
Lisa Lyu
Assistant Director
Rutgers, The State University of New Jersey
848-932-4539
lisa.lyu@rutgers.edu
Business Development:
Eusebio Pires
Senior Manager, Technology Marketing & Business Development
Rutgers, The State University of New Jersey
ep620@research.rutgers.edu
Keywords: