Digital holographic microscopy of optically trapped microparticles with using of “bottle beam” optical tweezers

Author(s):  
Natalia Shostka ◽  
Olga Karakchieva ◽  
Bohdan Sokolenko
2010 ◽  
Vol 3 (7) ◽  
pp. 425-431 ◽  
Author(s):  
Björn Kemper ◽  
Patrik Langehanenberg ◽  
Alexander Höink ◽  
Gert von Bally ◽  
Falk Wottowah ◽  
...  

2014 ◽  
Author(s):  
F. Merola ◽  
L. Miccio ◽  
P. Memmolo ◽  
G. Di Caprio ◽  
G. Coppola ◽  
...  

Cells ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 552
Author(s):  
Claudia Bernecker ◽  
Maria Augusta R. B. F. Lima ◽  
Catalin D. Ciubotaru ◽  
Peter Schlenke ◽  
Isabel Dorn ◽  
...  

Ex vivo-generated red blood cells are a promising resource for future safe blood products, manufactured independently of voluntary blood donations. The physiological process of terminal maturation from spheroid reticulocytes to biconcave erythrocytes has not been accomplished yet. A better biomechanical characterization of cultured red blood cells (cRBCs) will be of utmost interest for manufacturer approval and therapeutic application. Here, we introduce a novel optical tweezer (OT) approach to measure the deformation and elasticity of single cells trapped away from the coverslip. To investigate membrane properties dependent on membrane lipid content, two culture conditions of cRBCs were investigated, cRBCPlasma with plasma and cRBCHPL supplemented with human platelet lysate. Biomechanical characterization of cells under optical forces proves the similar features of native RBCs and cRBCHPL, and different characteristics for cRBCPlasma. To confirm these results, we also applied a second technique, digital holographic microscopy (DHM), for cells laid on the surface. OT and DHM provided related results in terms of cell deformation and membrane fluctuations, allowing a reliable discrimination between cultured and native red blood cells. The two techniques are compared and discussed in terms of application and complementarity.


2019 ◽  
Vol 58 (15) ◽  
pp. 4042
Author(s):  
Jiaqi Liu ◽  
Lianqing Zhu ◽  
Fan Zhang ◽  
Mingli Dong ◽  
Xinghua Qu

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