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This transcript has been edited for clarity.
This is Dr. JoAnn Manson, professor of medicine at Harvard Medical School and Brigham and Women’s Hospital.
This study was done in the large-scale nationally representative NHANES cohort. It included more than 53,000 US men and women. The average age was about 45 years, with an average duration of follow-up of 9.5 years. During that time, about 2400 cardiovascular (CVD) deaths were documented at baseline. The BP was measured three times, and the results were averaged. About 20% of the cohort were taking antihypertensive medications, and 80% were not.
Sex differences were observed in the association between BP and CVD mortality. The systolic BP associated with the lowest risk for CVD death was 110-119 mm Hg in men and 100-109 mm Hg in women. In men, however, compared with a reference category of systolic BP of 100-109 mm Hg, the risk for CVD death began to increase significantly at a systolic BP ≥ 160 mm Hg, at which point, the hazard ratio was 1.76, or 76% higher risk.
In women, the risk for CVD death began to increase significantly at a lower threshold. Compared with a reference category of systolic BP of 100-109 mm Hg, women whose systolic BP was 130-139 mm Hg had a significant 61% increase in CVD death, and among those with a systolic BP of 140-159 mm Hg, the risk was increased by 75%. With a systolic BP ≥ 160 mm Hg, CVD deaths among women were more than doubled, with a hazard ratio of 2.13.
Overall, these findings suggest sex differences, with women having an increased risk for CVD death beginning at a lower elevation of their systolic BP. For diastolic BP, both men and women showed the typical U-shaped curve and the diastolic BP associated with the lowest risk for CVD death was 70-80 mm Hg.
If these findings can be replicated with additional research and other large-scale cohort studies, and randomized trials show differences in lowering BP, then sex-specific BP guidelines could have advantages and should be seriously considered. Furthermore, some of the CVD risk scores and risk modeling should perhaps use sex-specific blood pressure thresholds.Dr. Manson received study pill donation and infrastructure support from Mars Symbioscience (for the COSMOS trial).
A version of this article appeared on Medscape.com.
This transcript has been edited for clarity.
This is Dr. JoAnn Manson, professor of medicine at Harvard Medical School and Brigham and Women’s Hospital.
This study was done in the large-scale nationally representative NHANES cohort. It included more than 53,000 US men and women. The average age was about 45 years, with an average duration of follow-up of 9.5 years. During that time, about 2400 cardiovascular (CVD) deaths were documented at baseline. The BP was measured three times, and the results were averaged. About 20% of the cohort were taking antihypertensive medications, and 80% were not.
Sex differences were observed in the association between BP and CVD mortality. The systolic BP associated with the lowest risk for CVD death was 110-119 mm Hg in men and 100-109 mm Hg in women. In men, however, compared with a reference category of systolic BP of 100-109 mm Hg, the risk for CVD death began to increase significantly at a systolic BP ≥ 160 mm Hg, at which point, the hazard ratio was 1.76, or 76% higher risk.
In women, the risk for CVD death began to increase significantly at a lower threshold. Compared with a reference category of systolic BP of 100-109 mm Hg, women whose systolic BP was 130-139 mm Hg had a significant 61% increase in CVD death, and among those with a systolic BP of 140-159 mm Hg, the risk was increased by 75%. With a systolic BP ≥ 160 mm Hg, CVD deaths among women were more than doubled, with a hazard ratio of 2.13.
Overall, these findings suggest sex differences, with women having an increased risk for CVD death beginning at a lower elevation of their systolic BP. For diastolic BP, both men and women showed the typical U-shaped curve and the diastolic BP associated with the lowest risk for CVD death was 70-80 mm Hg.
If these findings can be replicated with additional research and other large-scale cohort studies, and randomized trials show differences in lowering BP, then sex-specific BP guidelines could have advantages and should be seriously considered. Furthermore, some of the CVD risk scores and risk modeling should perhaps use sex-specific blood pressure thresholds.Dr. Manson received study pill donation and infrastructure support from Mars Symbioscience (for the COSMOS trial).
A version of this article appeared on Medscape.com.
This transcript has been edited for clarity.
This is Dr. JoAnn Manson, professor of medicine at Harvard Medical School and Brigham and Women’s Hospital.
This study was done in the large-scale nationally representative NHANES cohort. It included more than 53,000 US men and women. The average age was about 45 years, with an average duration of follow-up of 9.5 years. During that time, about 2400 cardiovascular (CVD) deaths were documented at baseline. The BP was measured three times, and the results were averaged. About 20% of the cohort were taking antihypertensive medications, and 80% were not.
Sex differences were observed in the association between BP and CVD mortality. The systolic BP associated with the lowest risk for CVD death was 110-119 mm Hg in men and 100-109 mm Hg in women. In men, however, compared with a reference category of systolic BP of 100-109 mm Hg, the risk for CVD death began to increase significantly at a systolic BP ≥ 160 mm Hg, at which point, the hazard ratio was 1.76, or 76% higher risk.
In women, the risk for CVD death began to increase significantly at a lower threshold. Compared with a reference category of systolic BP of 100-109 mm Hg, women whose systolic BP was 130-139 mm Hg had a significant 61% increase in CVD death, and among those with a systolic BP of 140-159 mm Hg, the risk was increased by 75%. With a systolic BP ≥ 160 mm Hg, CVD deaths among women were more than doubled, with a hazard ratio of 2.13.
Overall, these findings suggest sex differences, with women having an increased risk for CVD death beginning at a lower elevation of their systolic BP. For diastolic BP, both men and women showed the typical U-shaped curve and the diastolic BP associated with the lowest risk for CVD death was 70-80 mm Hg.
If these findings can be replicated with additional research and other large-scale cohort studies, and randomized trials show differences in lowering BP, then sex-specific BP guidelines could have advantages and should be seriously considered. Furthermore, some of the CVD risk scores and risk modeling should perhaps use sex-specific blood pressure thresholds.Dr. Manson received study pill donation and infrastructure support from Mars Symbioscience (for the COSMOS trial).
A version of this article appeared on Medscape.com.