Abstract
BackgroundTotal hemoglobin (tHb) measurement is indispensable for determining the patient’s condition (hemorrhagic vs. ischemic) and need for blood transfusion. Conductivity- and absorbance-based measurement methods are used for blood gas analysis of tHb. For conductivity-based measurement, tHb is calculated after converting blood conductivity into a hematocrit value, whereas absorbance measurement is based on light absorbance after red blood cell hemolysis. Due to changes in plasma electrolytes and hemolysis, there is a possibility that conductivity- and absorbance-based measurement methods may cause a difference in tHb.MethodsIn this study, test samples with controlled electrolyte changes and hemolysis were created by adding sodium chloride, distilled water or hemolytic blood to blood samples collected from healthy volunteers, and tHb values were compared between both methods.ResultsConductivity-based measurement revealed reduced tHb value (from 15.49 to 13.05 g/dl) following the addition of 10% sodium chloride, which was also reduced by the addition of hemolysate. Conversely, the addition of distilled water significantly increased tHb value than the expected value. In the absorbance method, there was no significant change in tHb value due to electrolyte change or hemolysis.ConclusionsWe have to recognize unexpected conductivity changes occur at all times when tHb is measured via conductivity- and absorbance-based measurement methods. The absorbance method should be used when measuring tHb in patients with expected blood conductivity changes. However, when using this method, the added contribution of hemoglobin from hemolytic erythrocytes lacking oxygen carrying capacity must be considered. We recognize that discrepancy can occur between conductivity- and absorbance-based measurement methods when tHb is measured.
Highlights
Total hemoglobin measurement is indispensable for determining the patient’s condition and need for blood transfusion
This potential difference is converted into a hematocrit value according to the characteristic inverse relationship between conductance and the number and size of red blood cells (RBCs) in the specimen, and Total hemoglobin (tHb) is subsequently calculated
In the absorbance measurement method, tHb is measured via light absorbance after RBCs are completely hemolysed by ultrasonic waves, so it is impossible to distinguish between hemoglobin from hemolytic RBCs and that released from functional RBCs
Summary
Total hemoglobin (tHb) measurement is indispensable for determining the patient’s condition (hemorrhagic vs. ischemic) and need for blood transfusion. Due to changes in plasma electrolytes and hemolysis, there is a possibility that conductivity- and absorbance-based measurement methods may cause a difference in tHb. The total hemoglobin (tHb) value in red blood cells (RBCs) is a critical measure of blood oxygen transport capacity. The conductivity method measures the potential difference between two electrodes in a blood specimen This potential difference is converted into a hematocrit value according to the characteristic inverse relationship between conductance and the number and size of RBCs in the specimen, and tHb is subsequently calculated. The Hayashi et al BMC Anesthesiology (2020) 20:81 conductivity results regard as the hematocrit This method may be influenced by changes in electrolyte concentration in the absence of tHb changes; there is doubt concerning the reliability of this method in patients with electrolyte imbalances due to the patient’s condition and the treatment. In the absorbance measurement method, tHb is measured via light absorbance after RBCs are completely hemolysed by ultrasonic waves, so it is impossible to distinguish between hemoglobin from hemolytic RBCs and that released from functional RBCs
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