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The contribution of sodium reduction and potassium increase to the blood pressure lowering observed in the Salt Substitute and Stroke Study

Authors :
Huang, Liping
Li, Qiang
Wu, Jason H. Y.
Tian, Maoyi
Yin, Xuejun
Yu, Jie
Liu, Yishu
Zhang, Xinyi
Wu, Yangfeng
Paige, Ellie
Trieu, Kathy
Marklund, Matti
Rodgers, Anthony
Neal, Bruce
Huang, Liping
Li, Qiang
Wu, Jason H. Y.
Tian, Maoyi
Yin, Xuejun
Yu, Jie
Liu, Yishu
Zhang, Xinyi
Wu, Yangfeng
Paige, Ellie
Trieu, Kathy
Marklund, Matti
Rodgers, Anthony
Neal, Bruce
Publication Year :
2024

Abstract

The Salt Substitute and Stroke Study (SSaSS) demonstrated significant reductions in systolic blood pressure (SBP), and the risk of stroke, major cardiovascular events and total mortality with the use of potassium-enriched salt. The contribution of sodium reduction versus potassium increase to these effects is unknown. We identified four different data sources describing the association between sodium reduction, potassium supplementation and change in SBP. We then fitted a series of models to estimate the SBP reductions expected for the differences in sodium and potassium intake in SSaSS, derived from 24-h urine collections. The proportions of the SBP reduction separately attributable to sodium reduction and potassium supplementation were calculated. The observed SBP reduction in SSaSS was -3.3 mmHg with a corresponding mean 15.2 mmol reduction in 24-h sodium excretion and a mean 20.6 mmol increase in 24-h potassium excretion. Assuming 90% of dietary sodium intake and 70% of dietary potassium intake were excreted through urine, the models projected falls in SBP of between -1.67 (95% confidence interval: -4.06 to +0.73) mmHg and -5.33 (95% confidence interval: -8.58 to -2.08) mmHg. The estimated proportional contribution of sodium reduction to the SBP fall ranged between 12 and 39% for the different models fitted. Sensitivity analyses assuming different proportional urinary excretion of dietary sodium and potassium intake showed similar results. In every model, the majority of the SBP lowering effect in SSaSS was estimated to be attributable to the increase in dietary potassium rather than the fall in dietary sodium.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1440264002
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1038.s41371-024-00896-4