Caffeine consumption May โคCompromiseโ Blood Transfusionโ Effectiveness, Study Finds
AURORA, CO – A new study โfrom the Universityโข of Colorado Anschutz Medical Campus reveals that caffeine consumption by blood donors may negatively โimpact the quality of stored red blood cells (RBCs) โand potentially reduce the effectiveness of transfusions. Published in the journalโค Haematologica,the โresearch indicates caffeine can make RBCs โฃmore fragile,increase oxidative damage,and diminish their oxygen-carrying capacity.
Researchers โคdiscovered that caffeine โappears to deplete RBCs โคof vital energy sources โคlike โATP and โข2,3-BPG. Transfusions utilizing blood from donors who had consumed caffeine resulted in smaller increases in hemoglobin levels in patients. The study alsoโค identified a link between caffeine’s effects and the ADORA2b gene, findingโข that individuals โwith certain genetic variants experienced even more pronounced negative outcomes whenโฃ caffeine was present. In mice lacking ADORA2b,caffeine exacerbated existing RBC fragility by blocking ADORA2b signaling and directly inhibiting G6PD,reducingโ antioxidant protection.
“The translational implications of ourโ findings are notable,” stated Dr. Alessandro D’Alessandro. “Donor caffeineโ consumption, a common dietary exposure for up to 75% ofโค Americans, emerges as a modifiable โbehavioral factor potentially influencing โคRBCโ storage quality and transfusion outcomes.”
The research team suggests โคthat temporary dietary modifications around the time of blood โคdonation – limiting caffeine intake – could mitigate these negative โขeffects, a practice already recommended by blood donation guidelines inโ several โEuropeanโค countries.
While the study acknowledges limitations, including a small volunteer group for metabolic testing (eight โindividuals) and the โage of the donor samples (approximately 10 years old), it proposes a future precision medicine approach to blood transfusions. This could involveโ matching donor lifestyle factors, such as caffeine habits, and genetic predispositions with recipient needs, potentially benefiting high-risk patients like newborns and the critically ill with blood from low-caffeine donors.