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Changes in hormones, body composition, lipids, and vascular health during the menopause transition can increase a woman’s chance of developing cardiovascular disease (CVD) after menopause, the American Heart Association said in a scientific statement.
“This statement aims to raise awareness of both healthcare providers and women about the menopause transition as a time of increasing heart disease risk,” Samar R. El Khoudary, PhD, MPH, who chaired the writing group, said in an interview.
“As such, it emphasizes the importance of monitoring women’s health during midlife and targeting this stage as a critical window for applying early intervention strategies that aim to maintain a healthy heart and reduce the risk of heart disease,” said Dr. El Khoudary, of the University of Pittsburgh.
The statement was published online Nov. 30 in Circulation.
Evolution in knowledge
During the past 20 years, knowledge of how menopause might contribute to CVD has evolved “dramatically,” Dr. El Khoudary noted. The accumulated data consistently point to the menopause transition as a time of change in heart health.
“Importantly,” she said, the latest AHA guidelines for CVD prevention in women, published in 2011, do not include data now available on the menopause transition as a time of increased CVD risk.
“As such, there is a compelling need to discuss the implications of the accumulating body of literature on this topic,” said Dr. El Khoudary.
The statement provides a contemporary synthesis of the existing data on menopause and how it relates to CVD, the leading cause of death of U.S. women.
Earlier age at natural menopause has generally been found to be a marker of greater CVD risk. Iatrogenically induced menopause (bilateral oophorectomy) during the premenopausal period is also associated with higher CVD risk, the data suggest.
Vasomotor symptoms are associated with worse levels of CVD risk factors and measures of subclinical atherosclerosis. Sleep disturbance has also been linked to greater risk for subclinical CVD and worse CV health indexes in women during midlife.
Increases in central/visceral fat and decreases in lean muscle mass are more pronounced during the menopause transition. This increased central adiposity is associated with increased risk for mortality, even among those with normal body mass index, the writing group found.
Increases in lipid levels (LDL cholesterol and apolipoprotein B), metabolic syndrome risk, and vascular remodeling at midlife are driven by the menopause transition more than aging, whereas increases in blood pressure, insulin level, and glucose level are likely more influenced by chronological aging, they reported.
Lifestyle interventions
The writing group noted that, because of the increase in overall life expectancy in the United States, a significant proportion of women will spend up to 40% of their lives after menopause.
Yet data suggest that only 7.2% of women transitioning to menopause are meeting physical activity guidelines and that fewer than 20% of those women are consistently maintaining a healthy diet.
Limited data from randomized, controlled trials suggest that a multidimensional lifestyle intervention during the menopause transition can prevent weight gain and reduce blood pressure and levels of triglycerides, blood glucose, and insulin and reduce the incidence of subclinical carotid atherosclerosis, they pointed out.
“Novel data” indicate a reversal in the associations of HDL cholesterol with CVD risk over the menopause transition, suggesting that higher HDL cholesterol levels may not consistently reflect good cardiovascular health in middle-aged women, the group noted.
There are also data suggesting that starting menopause hormone therapy when younger than 60 years or within 10 years of menopause is associated with reduced CVD risk.
The group said further research is needed into the cardiometabolic effects of menopause hormone therapy, including effects associated with form, route, and duration of administration, in women traversing menopause.
They also noted that data for the primary and secondary prevention of atherosclerotic CVD and improved survival with lipid-lowering interventions “remain elusive” for women and that further study is needed to develop evidence-based recommendations tailored specifically to women.
The research had no commercial funding. Dr. El Khoudary has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Changes in hormones, body composition, lipids, and vascular health during the menopause transition can increase a woman’s chance of developing cardiovascular disease (CVD) after menopause, the American Heart Association said in a scientific statement.
“This statement aims to raise awareness of both healthcare providers and women about the menopause transition as a time of increasing heart disease risk,” Samar R. El Khoudary, PhD, MPH, who chaired the writing group, said in an interview.
“As such, it emphasizes the importance of monitoring women’s health during midlife and targeting this stage as a critical window for applying early intervention strategies that aim to maintain a healthy heart and reduce the risk of heart disease,” said Dr. El Khoudary, of the University of Pittsburgh.
The statement was published online Nov. 30 in Circulation.
Evolution in knowledge
During the past 20 years, knowledge of how menopause might contribute to CVD has evolved “dramatically,” Dr. El Khoudary noted. The accumulated data consistently point to the menopause transition as a time of change in heart health.
“Importantly,” she said, the latest AHA guidelines for CVD prevention in women, published in 2011, do not include data now available on the menopause transition as a time of increased CVD risk.
“As such, there is a compelling need to discuss the implications of the accumulating body of literature on this topic,” said Dr. El Khoudary.
The statement provides a contemporary synthesis of the existing data on menopause and how it relates to CVD, the leading cause of death of U.S. women.
Earlier age at natural menopause has generally been found to be a marker of greater CVD risk. Iatrogenically induced menopause (bilateral oophorectomy) during the premenopausal period is also associated with higher CVD risk, the data suggest.
Vasomotor symptoms are associated with worse levels of CVD risk factors and measures of subclinical atherosclerosis. Sleep disturbance has also been linked to greater risk for subclinical CVD and worse CV health indexes in women during midlife.
Increases in central/visceral fat and decreases in lean muscle mass are more pronounced during the menopause transition. This increased central adiposity is associated with increased risk for mortality, even among those with normal body mass index, the writing group found.
Increases in lipid levels (LDL cholesterol and apolipoprotein B), metabolic syndrome risk, and vascular remodeling at midlife are driven by the menopause transition more than aging, whereas increases in blood pressure, insulin level, and glucose level are likely more influenced by chronological aging, they reported.
Lifestyle interventions
The writing group noted that, because of the increase in overall life expectancy in the United States, a significant proportion of women will spend up to 40% of their lives after menopause.
Yet data suggest that only 7.2% of women transitioning to menopause are meeting physical activity guidelines and that fewer than 20% of those women are consistently maintaining a healthy diet.
Limited data from randomized, controlled trials suggest that a multidimensional lifestyle intervention during the menopause transition can prevent weight gain and reduce blood pressure and levels of triglycerides, blood glucose, and insulin and reduce the incidence of subclinical carotid atherosclerosis, they pointed out.
“Novel data” indicate a reversal in the associations of HDL cholesterol with CVD risk over the menopause transition, suggesting that higher HDL cholesterol levels may not consistently reflect good cardiovascular health in middle-aged women, the group noted.
There are also data suggesting that starting menopause hormone therapy when younger than 60 years or within 10 years of menopause is associated with reduced CVD risk.
The group said further research is needed into the cardiometabolic effects of menopause hormone therapy, including effects associated with form, route, and duration of administration, in women traversing menopause.
They also noted that data for the primary and secondary prevention of atherosclerotic CVD and improved survival with lipid-lowering interventions “remain elusive” for women and that further study is needed to develop evidence-based recommendations tailored specifically to women.
The research had no commercial funding. Dr. El Khoudary has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Changes in hormones, body composition, lipids, and vascular health during the menopause transition can increase a woman’s chance of developing cardiovascular disease (CVD) after menopause, the American Heart Association said in a scientific statement.
“This statement aims to raise awareness of both healthcare providers and women about the menopause transition as a time of increasing heart disease risk,” Samar R. El Khoudary, PhD, MPH, who chaired the writing group, said in an interview.
“As such, it emphasizes the importance of monitoring women’s health during midlife and targeting this stage as a critical window for applying early intervention strategies that aim to maintain a healthy heart and reduce the risk of heart disease,” said Dr. El Khoudary, of the University of Pittsburgh.
The statement was published online Nov. 30 in Circulation.
Evolution in knowledge
During the past 20 years, knowledge of how menopause might contribute to CVD has evolved “dramatically,” Dr. El Khoudary noted. The accumulated data consistently point to the menopause transition as a time of change in heart health.
“Importantly,” she said, the latest AHA guidelines for CVD prevention in women, published in 2011, do not include data now available on the menopause transition as a time of increased CVD risk.
“As such, there is a compelling need to discuss the implications of the accumulating body of literature on this topic,” said Dr. El Khoudary.
The statement provides a contemporary synthesis of the existing data on menopause and how it relates to CVD, the leading cause of death of U.S. women.
Earlier age at natural menopause has generally been found to be a marker of greater CVD risk. Iatrogenically induced menopause (bilateral oophorectomy) during the premenopausal period is also associated with higher CVD risk, the data suggest.
Vasomotor symptoms are associated with worse levels of CVD risk factors and measures of subclinical atherosclerosis. Sleep disturbance has also been linked to greater risk for subclinical CVD and worse CV health indexes in women during midlife.
Increases in central/visceral fat and decreases in lean muscle mass are more pronounced during the menopause transition. This increased central adiposity is associated with increased risk for mortality, even among those with normal body mass index, the writing group found.
Increases in lipid levels (LDL cholesterol and apolipoprotein B), metabolic syndrome risk, and vascular remodeling at midlife are driven by the menopause transition more than aging, whereas increases in blood pressure, insulin level, and glucose level are likely more influenced by chronological aging, they reported.
Lifestyle interventions
The writing group noted that, because of the increase in overall life expectancy in the United States, a significant proportion of women will spend up to 40% of their lives after menopause.
Yet data suggest that only 7.2% of women transitioning to menopause are meeting physical activity guidelines and that fewer than 20% of those women are consistently maintaining a healthy diet.
Limited data from randomized, controlled trials suggest that a multidimensional lifestyle intervention during the menopause transition can prevent weight gain and reduce blood pressure and levels of triglycerides, blood glucose, and insulin and reduce the incidence of subclinical carotid atherosclerosis, they pointed out.
“Novel data” indicate a reversal in the associations of HDL cholesterol with CVD risk over the menopause transition, suggesting that higher HDL cholesterol levels may not consistently reflect good cardiovascular health in middle-aged women, the group noted.
There are also data suggesting that starting menopause hormone therapy when younger than 60 years or within 10 years of menopause is associated with reduced CVD risk.
The group said further research is needed into the cardiometabolic effects of menopause hormone therapy, including effects associated with form, route, and duration of administration, in women traversing menopause.
They also noted that data for the primary and secondary prevention of atherosclerotic CVD and improved survival with lipid-lowering interventions “remain elusive” for women and that further study is needed to develop evidence-based recommendations tailored specifically to women.
The research had no commercial funding. Dr. El Khoudary has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.