Optimization of the Hemolysis Assay for the Assessment of Cytotoxicity
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Optimization of the Hemolysis Assay for the Assessment of Cytotoxicity. / Sæbø, Ingvill Pedersen; Bjørås, Magnar; Franzyk, Henrik; Helgesen, Emily; Booth, James Alexander.
I: International Journal of Molecular Sciences, Bind 24, Nr. 3, 2914, 2023.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Optimization of the Hemolysis Assay for the Assessment of Cytotoxicity
AU - Sæbø, Ingvill Pedersen
AU - Bjørås, Magnar
AU - Franzyk, Henrik
AU - Helgesen, Emily
AU - Booth, James Alexander
PY - 2023
Y1 - 2023
N2 - In vitro determination of hemolytic properties is a common and important method for preliminary evaluation of cytotoxicity of chemicals, drugs, or any blood-contacting medical device or material. The method itself is relatively straightforward, however, protocols used in the literature vary substantially. This leads to significant difficulties both in interpreting and in comparing the obtained values. Here, we examine how the different variables used under different experimental setups may affect the outcome of this assay. We find that certain key parameters affect the hemolysis measurements in a critical manner. The hemolytic effect of compounds tested here varied up to fourfold depending on the species of the blood source. The use of different types of detergents used for generating positive control samples (i.e., 100% hemolysis) produced up to 2.7-fold differences in the calculated hemolysis ratios. Furthermore, we find an expected, but substantial, increase in the number of hemolyzed erythrocytes with increasing erythrocyte concentration and with prolonged incubation time, which in turn affects the calculated hemolysis ratios. Based on our findings we propose an optimized protocol in an attempt to standardize future hemolysis studies.
AB - In vitro determination of hemolytic properties is a common and important method for preliminary evaluation of cytotoxicity of chemicals, drugs, or any blood-contacting medical device or material. The method itself is relatively straightforward, however, protocols used in the literature vary substantially. This leads to significant difficulties both in interpreting and in comparing the obtained values. Here, we examine how the different variables used under different experimental setups may affect the outcome of this assay. We find that certain key parameters affect the hemolysis measurements in a critical manner. The hemolytic effect of compounds tested here varied up to fourfold depending on the species of the blood source. The use of different types of detergents used for generating positive control samples (i.e., 100% hemolysis) produced up to 2.7-fold differences in the calculated hemolysis ratios. Furthermore, we find an expected, but substantial, increase in the number of hemolyzed erythrocytes with increasing erythrocyte concentration and with prolonged incubation time, which in turn affects the calculated hemolysis ratios. Based on our findings we propose an optimized protocol in an attempt to standardize future hemolysis studies.
U2 - 10.3390/ijms24032914
DO - 10.3390/ijms24032914
M3 - Journal article
C2 - 36769243
VL - 24
JO - International Journal of Molecular Sciences (CD-ROM)
JF - International Journal of Molecular Sciences (CD-ROM)
SN - 1424-6783
IS - 3
M1 - 2914
ER -
ID: 335683835