Appendix for Lorrca® MaxSis
Lorrca Maxsis User Manual Page 217
Version 5.04 MRN-231-EN
34. Hochmuth R.M., Worthy P.R., Evans E.A., Red cell extensional recovery and the determination
of membrane viscosity, Biophys. J., vol. 26:(4), pp. 101-114, Apr. 1979.
35. Kubota K., Kurabayashi H., Tamura J., The behavior of diabetic red cells in microcirculation
examined by a new microcapillary method, Ann. Hematol., vol. 78, pp. 571-572, 1999.
36. Lademann J., Weigmann H.G., Sterry W., Roggan A., Muller G., Priezzhev A.V., Firsov N.N.,
Investigation of the aggregation and disaggregation properties of erythrocytes by light
scattering measurements, Laser Phys., vol. 9:(1), pp. 357-362, 1999.
37. Maeda N., Seike M., Shiga T., Effect of temperature on the velocity of erythrocyte aggregation,
Biochem. Biophys. Acta, vol. 904, pp. 319-329, 1987.
38. Mechatronics Instruments B.V., P.O.Box 225, 1620 AE Hoorn, De Corantijn 13, 1689 AN
Zwaag, The Netherlands, Phone +31(0)229–291129, Fax +31(0)229 241534.
39. Meiselman H.J., Red blood cell role in RBC aggregation: 1963-1993 and beyond, Clin.
Hemorheol., vol. 13:(5), pp. 575-592, 1993.
40. Mohandas N., Measurement of cellular deformability and membrane properties of red cells by
ektacytometry, in: Red Cell Membranes. Shohet, S., Mohandas, N. (Eds). New York: Churchill
Livingstone, pp. 299, 1988.
41. Mohandas N., Clark M.R., Jacobs M.S., Groner W., Shohet S.B., Ektacytometric analysis of
factors regulating red cell deformability, Blood cells, vol. 6, pp. 329-334, 1980.
42. Mohandas N., Phillips W.M., Bessis M., Red blood cell deformability and hemolytic anemias,
Semin. Hematol., vol. 16:(2), pp. 95-114, 1979.
43. Mokken F.Ch., Kedaria M., Henny Ch.P., Hardeman M.R., Gelb A.W., The clinical importance
of erythrocyte deformability, a hemorheological parameter, Ann. Hematol., vol. 64, pp. 113-122,
1992.
44. Neumann F.J., Schmid-Schönbein H., Ohlenbusch H., Temperature-dependence of red cell
aggregation, Eur. J. Physiol., vol. 408, pp. 524-530, 1987.
45. Nguyen F., Drouet L., Boisseau M., Leger P., Juchet H., Bierme R., Cambus J.P., Erythrocyte
hyper-aggregation and thrombogenic dysfibrinogenemia, Clin. Hemorheol. Microcirc., vol.
18:(4), pp. 235-243, 1998.
46. Press W.H., Teukolsky A.A., Vetterling W.T., Flannery B.P., Levenberg-Marquardt method, in:
Numercal recipes in C, The art of scientific computing, Cambridge University Press, 2nd ed.,
pp. 683-688, 1992 (ISBN: 0-521-43108-5).
47. Press W.H., Teukolsky A.A., Vetterling W.T., Flannery B.P., Quick-and-dirty monte carlo: The
bootstrap method, in: Numercal recipes in C, The art of scientific computing, Cambridge
University Press, 2nd ed., pp. 691-694, 1992 (ISBN: 0-521-43108-5).
48. Priezzhev A.V., Ryaboshapka O.M., Firsov N.N., Sirko I.V., Aggregation and disaggregation of
erythrocytes in whole blood: Study by backscattering technique, J. Biomed. Opt., vol. 4:(1), pp.
76-84, Jan. 1999.
49. Reid H.L., Barnes A.J., Lock P.J., Dormandy J.A., Dormandy T.L., A simple method for
measuring erythrocyte deformability, J. Clin. Pathol., vol. 29, pp. 855-858, 1976.
50. Rosin P.L., Ellipse fitting using orthogonal hyperbolae and Stirling's oval, Graphical Models and
Image Processing, vol. 60:(3), pp. 209-213, May 1998.
51. Rosin P.L., Analysing error of fit functions for ellipses, Pattern Recognit. Lett., vol. 17, pp.
1461-1470, 1996.
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