We report a rapid and cost-effective system to analyze morphological properties and 3D alignment positions of human white blood cell in a viscoelastic induced microfluidic flow. Measurements have been performed in physiological conditions using light scattering for the investigation of the individu-al cell properties and digital holography for the accurate tracking of the cell position in 3D. Our re-sults confirm the possibility to obtain sub-micrometric individual cell details as dimension and refrac-tive index, together with detailed cell location in continuous measurement flows inside of a rectangular shaped channel.
Characterization and 3D-localization of human white blood cells in microfluidic flows / Dannhauser, D.; Rossi, D.; Memmolo, P.; Finizio, A.; Causa, F.; Ferraro, P.; Netti, P. A.. - (2016), pp. 1557-1558.
Characterization and 3D-localization of human white blood cells in microfluidic flows
Dannhauser D.;Causa F.;Netti P. A.
2016
Abstract
We report a rapid and cost-effective system to analyze morphological properties and 3D alignment positions of human white blood cell in a viscoelastic induced microfluidic flow. Measurements have been performed in physiological conditions using light scattering for the investigation of the individu-al cell properties and digital holography for the accurate tracking of the cell position in 3D. Our re-sults confirm the possibility to obtain sub-micrometric individual cell details as dimension and refrac-tive index, together with detailed cell location in continuous measurement flows inside of a rectangular shaped channel.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.