References
- Schaer DJ, Buehler PW, Alayash AI, et al. Hemolysis and free hemoglobin revisited: exploring hemoglobin and hemin scavengers as a novel class of therapeutic proteins. Blood. 2013;121:1276–1284.
- Sowemimo-Coker SO. Red blood cell hemolysis during processing. Transfus Med Rev. 2002;16:46–60.
- Malinauskas RA. Plasma hemoglobin measurement techniques for the in vitro evaluation of blood damage caused by medical devices. Artif Organs. 1997;21:1255–1267.
- Kameneva MV, Antaki JF. Mechanical trauma to blood. In: Baskurt OK, editor. Handbook of hemorheology and hemodynamics. Netherlands, Amsterdam: IOS Press; 2007. p. 206–227.
- Gu L, Smith WA, Chatzimavroudis GP. Mechanical fragility calibration of red blood cells. Asaio J. 2005;51:194–201.
- Raval JS, Waters JH, Seltsam A, et al. The use of the mechanical fragility test in evaluating sublethal RBC injury during storage. Vox Sang. 2010;99:325–331.
- Ding J, Niu S, Chen Z, et al. Shear-induced hemolysis: species differences. Artif Organs. 2015;39:795–802.
- Boehning F, Mejia T, Schmitz-Rode T, et al. Hemolysis in a laminar flow-through couette shearing device: an experimental study. Artif Organs. 2014;38:761–765.
- Alfano K, Tarasev M. Investigating direct non-age metrics of stored blood quality loss. Internet J Med Tech 2011;5:1–9.
- Tarssanen L. Hemolysis by ultrasound. A comparative study of the osmotic and ultrasonic fragility tests. Scand J Haematol Suppl. 1976;29:52–53.
- Alfano K, Tarasev M, Meines S, et al. Bead mill and method of use. International Patent Application PCT/US14/12583, Filed: 2014 (USPTO, Ed.).
- Porter GA. Spectrophotometric method for quantitative plasma hemoglobin resulting from acute hemolysis. J Lab Clin Med. 1962;60:339–348.
- Fairbanks VF, Ziesmer SC, O'Brien PC. Methods for measuring plasma hemoglobin in micromolar concentration compared. Clin Chem. 1992;38:132–140.
- Chan CH, Hilton A, Foster G, et al. Reevaluation of the Harboe assay as a standardized method of assessment for the hemolytic performance of ventricular assist devices. Artif Organs. 2012;36:724–730.
- Tarasev M. Blood hemolysis Analyzer; US Patent # 7,790,464. 2010.
- Duyens LNM. The flattering of the absorption spectrum of suspensions, as compared to that of solutions. Biochim Biophys Acta. 1956;19:1–12.
- Schneider AS, Harmatz D. An experimental method correcting for absorption flattening and scattering in suspensions of absorbing particles: circular dichroism and absorption spectra of hemoglobin in situ in red blood cells. Biochemistry. 1976;15:4158–4162.
- Benesch RE, Benesch R, Yung S. Equations for the spectrophotometric analysis of hemoglobin mixtures. Anal Biochem. 1973;55:245–248.
- van Assendelft OW, Zijlstra WG. Extinction coefficients for use in equations for the spectrophotometric analysis of haemoglobin mixtures. Analy Biochem. 1975;69:43–48.
- Sutera SP, Croce PA, Mehrjardi M. Hemolysis and subhemolytic alterations of human RBC induced by turbulent shear flow. Trans Am Soc Artif Intern Organs. 1972;18:335–341, 347.
- Tamagawa M, Akamatsu T, Saitoh K. Prediction of hemolysis in turbulent shear orifice flow. Artif Organs. 1996;20:553–559.
- Nichols AR, Williams MC. Suppression of shear-induced hemolysis by three plasma proteins. Biomater Med Devices Artif Organs. 1976;4:21–48.
- Hashimoto S. Erythrocyte destruction under periodically fluctuating shear rate: comparative study with constant shear rate. Artif Organs. 1989;13:458–463.
- Butler T, Bradley CA, Owensby JE. Plasma components protect erythrocytes against experimental haemolysis caused by mechanical trauma and by hypotonicity. Int J Exp Pathol. 1992;73:27–33.