Abstract P093: Sex-stratified Associations Of Urine Electrolytes With 10th & 90th Percentiles Of Systolic Blood Pressure Distribution
Introduction: Electrolytes intake influence systolic blood pressure (SBP). Studies often explore the association of urine electrolytes with the conditional mean difference of SBP, but limited data exist on the sex-specific associations of urine electrolytes’ excretion with low and high end SBP distribution. We examined the sex-stratified association of urine electrolytes with the 10th and 90th percentiles of SBP. Methods: We pooled 9,804 person-visits (n =1467 participants) data of 24-hour urine electrolytes and SBP from three cohorts in coastal Bangladesh. We created sex-stratified restricted cubic spline (RCS) plots from quantile regression for illustrating the associations of urine sodium (Na), potassium (K), calcium (Ca), and magnesium (Mg) excretion with the 10th and 90th percentile of SBP distribution, adjusted for age, body mass index, physical activity, smoking, alcohol consumption, sleep hours, religion, household wealth, cohort ID, and seasonality. Four knots at the 5th, 35th, 65th, and 95th percentiles of each electrolyte distribution were used to create RCS plots. Results: We found linear positive associations for urine Na with 10th and 90th percentiles of SBP for males, but such association for the 10th percentile of SBP for females was less steep. Negative associations were found between urine K and SBP for males for the 90th percentile of SBP; no such association was found for the 10th percentile of SBP. Linear negative associations were found between urine Mg and SBP for males for both the 10th and 90th percentile of SBP distributions, but not for females. There was no association of urine Ca and SBP for both sexes for the 10th percentile of SBP, but negative associations existed for the 90th percentile of SBP for males. Conclusion: Sex-specific associations of urine electrolytes and SBP varied for the low and high end of SBP distribution. Males with higher SBP could benefit from high urine K, Ca, and Mg, representing high intakes of these minerals. However, such benefits may not be present for females.