Imaging adherent cells in the microfluidic channel hidden by flowing RBCs as occluding objects by a holographic method
Anno: 2014
Autori: Bianco V., Merola F., Miccio L., Memmolo P., Gennari O., Paturzo M., Netti P. A., Ferraro P.
Affiliazione autori: CNR – National Institute of Optics (INO), Via Campi Flegrei, 34, I-80078, Pozzuoli (NA), Italy;
Center for Advanced Biomaterials for Health Care, Istituto Italiano di Tecnologia, L. Barsanti e Matteucci (NA), 53, I-80125, Italy
Abstract: Imaging through turbid media is a challenging topic. A liquid is considered turbid when dispersed particles provoke strong light scattering, thus destroying the image formation by any standard optical system. Generally, colloidal solutions belong to the class of turbid media since dispersed particles have dimensions ranging between 0.2 mu m and 2 mu m. However, in microfluidics, another relevant issue has to be considered in the case of flowing liquid made of a multitude of occluding objects, e.g. red blood cells (RBCs) flowing in veins. In such a case instead of severe scattering processes unpredictable phase delays occur resulting in a wavefront distortion, thus disturbing or even hindering the image formation of objects behind such obstructing layer. In fact RBCs can be considered to be thin transparent phase objects. Here we show that sharp amplitude imaging and phase-contrast mapping of cells hidden behind biological occluding objects, namely RBCs, is possible in harsh noise conditions and with a large field-of view by Multi-Look Digital Holography microscopy (ML-DH). Noteworthy, we demonstrate that ML-DH benefits from the presence of the RBCs, providing enhancement in terms of numerical resolution and noise suppression thus obtaining images whose quality is higher than the quality achievable in the case of a liquid without occlusive objects.
Giornale/Rivista: LAB ON A CHIP
Volume: 14 (14) Da Pagina: 2499 A: 2504
Maggiori informazioni: This work was supported by Progetto Bandiera La Fabbrica del Futuro in the framework of the funded project Plastic lab-on-chips for the optical manipulation of single cells (PLUS).Parole chiavi: Digital Holography; On-chip; Blood-cells; Microscopy; Scattering; Light; Improvement; Accuracy; MediaDOI: 10.1039/c4lc00290cCitazioni: 53dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2025-05-04Riferimenti tratti da Isi Web of Knowledge: (solo abbonati) Link per visualizzare la scheda su IsiWeb: Clicca quiLink per visualizzare la citazioni su IsiWeb: Clicca qui
