Title:	Birefringence of a normal human red blood cell and related optomechanics in an optical trap
Authors:	Nagesh, Belavadi Venkatakrishnaiah Yogesha Pratibha, R. +4 Co-authors
Keywords:	Birefringence Biomedical optics Microscopy
Issue Date:	Nov-2014
Publisher:	Society of Photographic Instrumentation Engineers (SPIE)
Citation:	Journal of Biomedical Optics, 2014, Vol. 19, p115004
Abstract:	A normal human red blood cell (RBC) when trapped with a linearly polarized laser, reorients about the electric polarization direction and then remains rotationally bound to this direction. This behavior is expected for a birefringent object. We have measured the birefringence of distortion-free RBCs in an isotonic medium using a polarizing microscope. The birefringence is confined to the cell’s dimple region and the slow axis is along a diameter. We report an average retardation of 3.5±1.5  nm for linearly polarized green light (λ=546  nm). We also estimate a retardation of 1.87±0.09  nm from the optomechanical response of the RBC in an optical trap. We reason that the birefringence is a property of the cell membrane and propose a simple model attributing the origin of birefringence to the phospholipid molecules in the lipid bilayer and the variation to the membrane curvature. We observe that RBCs reconstituted in shape subsequent to crenation show diminished birefringence along with a sluggish optomechanical response in a trap. As the arrangement of phospholipid molecules in the cell membrane is disrupted on crenation, this lends credence to our conjecture on the origin of birefringence. Dependence of the birefringence on membrane contours is further illustrated through studies on chicken RBCs.
Description:	Restricted Access.
URI:	http://hdl.handle.net/2289/6216
ISSN:	1083-3668 1560-2281 (online)
Alternative Location:	http://dx.doi.org/10.1117/1.JBO.19.11.115004
Copyright:	2014 Society of Photographic Instrumentation Engineers (SPIE)
Appears in Collections:	Research Papers (SCM)

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