Continuous Monitoring of Arterial Blood Gases and pH during Intraoperative Rapid Blood Administration Using a Paratrend Sensor

Continuous Monitoring of Arterial Blood Gases and pH during Intraoperative Rapid Blood Administration Using a Paratrend Sensor

Background and Objectives: The aim of this study was to determine the effects of rapid transfusion of packed red cells on the arterial blood gases and acid‐base status of the recipient. Materials and Methods: We studied 16 patients (mean age 66.3±9.9 years) who received rapid transfusion of 632.8±28...

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Bibliographic Details
Published in:Vox sanguinis Vol. 78; no. 3; pp. 158 - 163
Main Authors: Vretzakis, G., Papaziogas, B., Matsaridou, E., Vasiliadou, G., Papadopoulos, G., Patsialas, C., Kostopoulou, F.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-04-2000
Blackwell
S. Karger AG
Subjects:
Aged
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Arteries - physiology
Biological and medical sciences
Biosensing Techniques - standards
Blood Gas Analysis
Blood Gas Monitoring, Transcutaneous
Blood. Blood and plasma substitutes. Blood products. Blood cells. Blood typing. Plasmapheresis. Apheresis
Erythrocyte Transfusion - instrumentation
Erythrocyte Transfusion - methods
Evaluation Studies as Topic
Female
Humans
Hydrogen-Ion Concentration
Least-Squares Analysis
Male
Medical sciences
Middle Aged
Oxyhemoglobins - metabolism
Surgical Procedures, Operative
Transfusions. Complications. Transfusion reactions. Cell and gene therapy
Human
Blood gas
Transfusion
Rapid process
pH
Technique
Monitoring
Blood
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Summary:Background and Objectives: The aim of this study was to determine the effects of rapid transfusion of packed red cells on the arterial blood gases and acid‐base status of the recipient. Materials and Methods: We studied 16 patients (mean age 66.3±9.9 years) who received rapid transfusion of 632.8±287.2 g of packed red cells in CPDA‐1, stored before use for a period of 15.2±4.4 days. During transfusion, monitoring of pH, PCO2 and PO2 was continuous using an intra‐arterial multiparameter sensor (Paratrend 7, Biomedical Sensors, UK). Results: The rate of the transfusion was 73.1×9.6 g/min and the duration of observation was 35.8±12.8 min. Arterial pH decreased from 7.446±0.023 to 7.385±0.034 (p<0.001) and PCO2 increased from 32.31±1.35 to 36.41±1.86 mmHg (p<0.001). ΔpH and ΔPCO2 showed significant correlation to the weight and the age of the transfused blood (p<0.001 for both dependent variables). The rate of pH change was positively but insignificantly correlated to the rate of the transfusion. Base excess was significantly decreased and end‐tidal CO2 (PetCO2) was increased from 25.8±2.0 to 28.1±2.3 mmHg (p<0.05), significantly correlating to the amount and age of the administered component (p<0.05). PetCO2 was not elevated when PCO2 changes were minimal. Alterations in PO2 were not specific and our clinical impression was that they were related to unmeasured parameters.Conclusion: Our findings suggest that the fall in pH and the elevation in PCO2 which occur during rapid transfusion of packed red cells may go undetected or be misinterpreted if the acid‐base status of the recipient is not monitored continously. These alterations are mainly of metabolic character and depend on the amount and age of the transfused component. Our data suggest that arterial sampling is essential during massive transfusions.
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ArticleID:VOXVOX783_0158
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0042-9007
1423-0410
DOI:10.1046/j.1423-0410.2000.7830158.x