Biological and environmental factors affecting ultrasound-induced hemolysis in vitro : 5. Temperature

This research project tested the hypothesis that cold-equilibrated (∼0°C) human erythrocytes in vitro in the presence of an ultrasound contrast agent (Albunex ®) will undergo greater ultrasound-induced hemolysis than physiologically equilibrated (37°C) human erythrocytes in vitro because of a temper...

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Veröffentlicht in:	Ultrasound in medicine & biology 2006-06, Vol.32 (6), p.893-904
Hauptverfasser:	Miller, Morton W., Church, Charles C., Labuda, Cecille, Mazza, Salvatore, Raymond, Jason
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Blood in vitro Blood Viscosity Erythrocyte Membrane - physiology Hemolysis Humans In Vitro Techniques Oxygen - blood Partial Pressure pO 2 levels Reciprocity calibration Temperature Transducers Ultrasonography Ultrasound Viscosity
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creator	Miller, Morton W. Church, Charles C. Labuda, Cecille Mazza, Salvatore Raymond, Jason
description	This research project tested the hypothesis that cold-equilibrated (∼0°C) human erythrocytes in vitro in the presence of an ultrasound contrast agent (Albunex ®) will undergo greater ultrasound-induced hemolysis than physiologically equilibrated (37°C) human erythrocytes in vitro because of a temperature-related transition in membrane fluidity leading to increased fragility. First, it was shown that cold-equilibrated erythrocytes are more susceptible to mechanically induced hemolysis than physiologically equilibrated erythrocytes. Second, when adjustments were made for (1) temperature-dependent efficiencies of a 1-MHz transducer (200 μs pulse length, 20 ms interpulse interval, 30 s exposure duration) such that when cold or physiological temperatures were employed, there were equivalent acoustic outputs in terms of peak negative pressure (MPa P −) and (2) comparable viscosities of the 0 and 37°C blood plasmas, the cold (∼0°C) erythrocytes displayed substantially greater amounts of ultrasound-induced hemolysis than the physiological (37°C) erythrocytes. The data supported the hypothesis. (E-mail: Morton_Miller@urmc.rochester.edu)
doi_str_mv	10.1016/j.ultrasmedbio.2006.02.1423
format	Article
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subjects	Adult Blood in vitro Blood Viscosity Erythrocyte Membrane - physiology Hemolysis Humans In Vitro Techniques Oxygen - blood Partial Pressure pO 2 levels Reciprocity calibration Temperature Transducers Ultrasonography Ultrasound Viscosity
title	Biological and environmental factors affecting ultrasound-induced hemolysis in vitro : 5. Temperature
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