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Items: 1 to 20 of 60

1.

Dynamics of Interaction of RBC with optical tweezers.

Mohanty S, Mohanty K, Gupta P.

Opt Express. 2005 Jun 13;13(12):4745-51.

PMID:
19495392
2.

Euler buckling-induced folding and rotation of red blood cells in an optical trap.

Ghosh A, Sinha S, Dharmadhikari JA, Roy S, Dharmadhikari AK, Samuel J, Sharma S, Mathur D.

Phys Biol. 2006 Mar 3;3(1):67-73.

PMID:
16582471
3.

Orientation of erythrocytes in optical trap revealed by confocal fluorescence microscopy.

Mohanty K, Mohanty S, Monajembashi S, Greulich KO.

J Biomed Opt. 2007 Nov-Dec;12(6):060506. doi: 10.1117/1.2822365.

PMID:
18163801
4.
5.

Influence of osmolarity on the optical properties of human erythrocytes.

Friebel M, Helfmann J, Meinke MC.

J Biomed Opt. 2010 Sep-Oct;15(5):055005. doi: 10.1117/1.3486542.

PMID:
21054087
6.

Shape anisotropy induces rotations in optically trapped red blood cells.

Bambardekar K, Dharmadhikari JA, Dharmadhikari AK, Yamada T, Kato T, Kono H, Fujimura Y, Sharma S, Mathur D.

J Biomed Opt. 2010 Jul-Aug;15(4):041504. doi: 10.1117/1.3430732.

PMID:
20799782
7.

A single beam near-field laser trap for optical stretching, folding and rotation of erythrocytes.

Gu M, Kuriakose S, Gan X.

Opt Express. 2007 Feb 5;15(3):1369-75.

PMID:
19532367
8.

Syllectometry: the effect of aggregometer geometry in the assessment of red blood cell shape recovery and aggregation.

Dobbe JG, Streekstra GJ, Strackee J, Rutten MC, Stijnen JM, Grimbergen CA.

IEEE Trans Biomed Eng. 2003 Jan;50(1):97-106.

PMID:
12617529
9.

One-dimensional jumping optical tweezers for optical stretching of bi-concave human red blood cells.

Liao GB, Bareil PB, Sheng Y, Chiou A.

Opt Express. 2008 Feb 4;16(3):1996-2004.

PMID:
18542279
10.

Effects of sample temperature on red blood cell shape in septic patients.

Piagnerelli M, Zouaoui Boudjeltia K, Piro P, Brohee D, Vanhaeverbeek M, Vincent JL.

Clin Hemorheol Microcirc. 2004;30(3-4):463-6.

PMID:
15258388
11.

Effect of red blood cell shape on oxygen transport in capillaries.

Wang CH, Popel AS.

Math Biosci. 1993 Jul;116(1):89-110.

PMID:
8343620
12.

B-CAM/LU expression and the role of B-CAM/LU activation in binding of low- and high-density red cells to laminin in sickle cell disease.

Zen Q, Batchvarova M, Twyman CA, Eyler CE, Qiu H, De Castro LM, Telen MJ.

Am J Hematol. 2004 Feb;75(2):63-72.

13.

Time-dependent surface adhesive force and morphology of RBC measured by AFM.

Wu Y, Hu Y, Cai J, Ma S, Wang X, Chen Y, Pan Y.

Micron. 2009 Apr;40(3):359-64. doi: 10.1016/j.micron.2008.10.003. Epub 2008 Oct 17.

PMID:
19019689
14.

A novel two-layer, coupled finite element approach for modeling the nonlinear elastic and viscoelastic behavior of human erythrocytes.

Klöppel T, Wall WA.

Biomech Model Mechanobiol. 2011 Jul;10(4):445-59. doi: 10.1007/s10237-010-0246-2. Epub 2010 Aug 20.

PMID:
20725846
16.

Survey on indirect optical manipulation of cells, nucleic acids, and motor proteins.

Banerjee AG, Chowdhury S, Losert W, Gupta SK.

J Biomed Opt. 2011 May;16(5):051302. doi: 10.1117/1.3579200. Review.

PMID:
21639562
17.

Effects of pressure on red blood cell geometry during micropipette aspiration.

Engström KG, Meiselman HJ.

Cytometry. 1996 Jan 1;23(1):22-7.

18.

Photoinduced reorganization of motor-doped chiral liquid crystals: bridging molecular isomerization and texture rotation.

Bosco A, Jongejan MG, Eelkema R, Katsonis N, Lacaze E, Ferrarini A, Feringa BL.

J Am Chem Soc. 2008 Nov 5;130(44):14615-24. doi: 10.1021/ja8039629. Epub 2008 Oct 8.

PMID:
18839947
19.

[Study of Raman spectroscopy of optically trapped human red blood cell affected by direct current].

Yue L, Wang G, Fang L, Yao H, Yuan Z, Mo H.

Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2007 Apr;24(2):404-8. Chinese.

PMID:
17591270
20.

The cooperative role of membrane skeleton and bilayer in the mechanical behaviour of red blood cells.

Svetina S, Kuzman D, Waugh RE, Ziherl P, Zeks B.

Bioelectrochemistry. 2004 May;62(2):107-13. Review.

PMID:
15039011

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