Society has come a long way over the past several decades from the old fashion belief that cardiovascular disease (CVD) is a man’s disease. Throughout the years, gender-based studies have provided compelling evidence to uncover several unique features in disease presentation, pathology and primary prevention in women. Studies reviewing differences among men and women have placed specific emphasis on cardiovascular risk factors, symptoms and vascular pathology as potential etiologies for the higher cardiovascular mortality and disability among women. In addition, although weight loss and exercise have been shown to promote cardiovascular health in men, more recently findings have presented data to support the importance of these interventions among women. Although tremendous strides have been made throughout the years in the gender-based cardiovascular research, more questions than answers remain and additional research efforts are still needed to better understand the disease process in women. The objectives of this review are two-fold: First, to present a comparative analysis focusing on evidence-based similarities and differences among males and females in cardiovascular disease presentation, detection and clinical pathology; Second, to offer insights highlighting recent findings regarding primary prevention and treatment protocols in women. Based on our current knowledge, continued efforts geared toward optimal diagnostic testing and screening protocols for primary disease detection and risk factor modification programs are recommended. This would include further investigations of the potential role that genetics and/or environment play/plays in the natural progression of the disease process. Additionally, comprehensive lifestyle interventions aimed at reducing cardiovascular disability and mortality in women is also recommended.
Society has come a long way over the past several decades from the old fashion belief that cardiovascular disease (CVD) is a man’s disease, this owing to an overwhelming number of gender-based research findings focusing on disease prevention, pathogenesis and progression in women. As a result of this increased awareness, heart disease has moved to the forefront as a leading cause of disability and death among women, surpassing breast cancer and other cancers combined. It has been reported that 1 of every 31 women die from breast cancer each year and 1 of 3 women die from heart disease [
Although evidence from the National Cholesterol Education Panel (NCEPII) has reported a 35% - 50% reduction in the cardiovascular death rate over the past several decades, the reduction among women has not yet reached those reported in men [
While CVD does affect both genders the problem does not affect them in a similar manner. This is due to several unique features among women with regard to the disease presentation (i.e. risk factors, pathology, and symptoms) and clinical course. While precise mechanisms behind the differences have not yet been elucidated one fact remains; women have a higher cardiovascular mortality and morbidity compared with men.
It was previously observed that disease onset in women generally begins approximately 10 years later compared with men, with the rate increasing following menopause. This may be explained by a greater cluster of risk factors associated with metabolic syndrome in postmenopausal women as well as the gradual removal of the estrogen-provoked cardiovascular protection compared with younger women. Although the lifetime risk of developing CVD is equal between men and women, this risk is generally lower in younger women and it accelerates as a woman approaches menopause, at which point the heart disease risk increases by threefold [
More recently, findings have provided alarming evidence to support an increase in the cardiovascular death rate in young women between the ages of 35 - 44 years (1.3% annually since 1997) [
When a diagnosis of CVD is made in women, they are noted to have pathologically more severe coronary disease compared with men of the same age and they are more likely to die within the first 2 weeks of a heart attack. Several mechanisms appear to relate to this including differences in vascular size, pathology and function combined with a hormonal influence which further adds to the complexity of diagnosing coronary disease [
Additionally, epidemiologic findings have reported that women have a lower prevalence of atrial fibrillation but they have a greater risk for stroke when compared with men [
The purpose of this review is to highlight gender-based similarities and differences in CVD presentation and pathology that have been obtained through the years and to provide insights into primary prevention of CVD in women.
While we have learned and studied the gender differences as they pertain to CVD, there are many unanswered questions. Deeper analyses have extended into genetics. Silander et al. examined men and women in Finland to determine the effects of genetic risk factors versus environment on the development of CVD. Their findings suggested that men are generally affected by both environmental (modifiable risk factors) and genetic factors while genetic factors seem to exert a greater influence among women [
Several studies have looked at gender differences in the early onset of disease pathology by focusing on traditional risk factor profiles between men and women. While the prevalence of traditional risk factors such as hypertension, diabetes, obesity and sedentary lifestyle occur with a higher frequency in women [
The cardiometabolic effects of diabetes in women appear different compared with men. In a recent meta- analysis of 64 cohorts, involving 900,000 patients, Peters et al., demonstrated that women with diabetes on average showed a 2.63 (95% CI 2.27 to 3.06) fold increase in relative risk, whereas men with diabetes showed a 1.85 (95% CI 1.64 to 2.10) fold increase in relative risk for coronary heart disease. This translates to a 44% greater increase in relative risk for coronary heart disease in women with diabetes compared to men [
Asaff et al. in their study involving a large cohort of young men and women (mean age 35 yrs) noted that women were more likely to participate in risk factor prevention programs compared with men for smoking cessation, weight loss and physical activity. As for the success rate for risk factor management, men appeared to be more successful at smoking cessation and both groups had similar success rates for weight loss and increased physical activity. However, an 8-year follow-up in men showed that they achieved significantly more weight loss compared with women [
Despite the increased prevalence of traditional risk factors, women with ischemic heart disease in general are older and tend to have more comorbidities compared with men, consistent with previously mentioned genetic findings, this observation suggests that women may be affected to a lesser extent or differently when compared with men by these traditional risk factors [
Although there has been an improvement in the recognition of non-fatal CVD among women in the past decade [
Until recently, very little was known about the early warning signs of heart disease in women with regards to symptoms. More women present with atypical symptoms prior to or during a myocardial infarction (MI) compared with men. While men typically present with chest discomfort, the most common complaints during an MI in women include: shortness of breath (58%), weakness (55%) and unusual fatigue (43%), with nearly two thirds of death associated with an MI in women occurring in those with no prior history of chest pain.
Mc Sweeny et al. noted that between 80% - 85% of women reported a vast array of prodromal symptoms one month prior to their MI including: shortness of breath, unusual fatigue, indigestion, anxiety, arms weak and heavy, or sleep disturbances. When they examined acute symptoms they found that chest pain was also feeling uncommon. As a result of this, the early recognition of a coronary event is not as straightforward in women as it is for men [
In the setting of acute coronary syndrome, it is not unusual to find non-obstructive disease on coronary angiography and despite having less obstructive CAD, women have a poorer prognosis. This has been attributed to advance age, multiple comorbidities and underutilization of life saving therapies at the time of disease detection [
Among those women with non-obstructive disease who actually present with chest pain the majority may continue to have persistent chest pain necessitating hospitalization, repeated stress testing and in some cases coronary angiogram, adding to an increased financial burden with no further benefit. Data from the Women’s Ischemia Syndrome Evaluation Study (WISE) showed a deteriorating mortality and adverse cardiovascular events for these women when compared to those who are asymptomatic [
Women who experience chest pain and other heart symptoms are more likely than men to have coronary microvascular disease (MVD). MVD may be associated with Syndrome-X or non-obstructive epicardial coronary artery disease, and it presents as a form of atherosclerosis affecting the walls of the small vessels which branch from the major epicardial coronary arteries resulting in a reduction in blood flow to the heart. MVD when present in the retinal artery has been shown to be associated with CVD events in women, but not men [
There is emerging data to support a gender specific role for MVD. In comparison to men autopsy data has shown that women have more microvascular plaque erosion and distal embolization compared with men [
In a study done to examine intravascular ultrasound and coronary reactivity testing in men and women, the results showed that women have less obstructive epicardial coronary disease even when they present with chest pain suggesting prevailing MVD [
Traditional non-invasive diagnostic testing currently in use for detecting coronary artery disease is not optimal for the detection of MVD. Other alternative screening tests are currently being evaluated. The assessment of vascular reactivity has become an important research tool in cardiovascular medicine and endothelial dysfunction has become a growing topic as such is considered a surrogate to CVD. The assessment of the peripheral endothelial response along with a direct assessment in coronary circulation has been shown to be associated with ischemic heart disease risk.
Endothelial function reflects the health of regional and to some extent the total vascular bed and as such en- dothelial dysfunction is an important prognostic indicator. Healthy endothelial function allows for an adaptive vascular response and it plays a role in cardio protection against ischemic injury. In men endothelial dysfunction will present itself earlier compared with women and a steep decline in endothelial function occurs in women following menopause [
Skaug et al. studied the association between cardiovascular risk factors and endothelial function in more than 2500 women and 2200 men. They noted that endothelial dysfunction occurred twice as frequently among women with hyperglycemia compared with men and the presence of metabolic syndrome, hypertension and poor exercise capacity increased the prevalence of endothelial dysfunction more in women than men [
Although these newer technologies have provided greater insight into disease pathology, further data are needed to devise the most effective means for detecting and diagnosing both macrovascular and microvascular coronary disease in women. Based on current research the area of concentration should relate to strategies involving the measurement of vascular reactivity and non-invasive surrogate measurements.
Several prominent scientific organizations such as the National Heart Lung and Blood Institute, American Heart Association, American Diabetes Association and the American College of Cardiology have outlined preventive measures aimed at promoting cardiovascular health. In general, the major cornerstone of their recommendations for primary prevention is to adopt healthy lifestyles which includes: refraining from smoking, maintaining a desirable body weight (BMI 18.5 - 24.9 kg・m2 with a waist circumference of ≤35 inches in women), regularly exercising (a minimum of 30 min of moderate exercise most or all days of the week) and incorporating healthy dietary habits (<10% saturated fat calories, <300 mg cholesterol and substituting trans-fatty acids for fruits, veggies and grains) [
Weight loss and physical activity are two important areas for targeting cardiovascular risk factor management. The National Heart, Lung and Blood Institutes (NHLBI) 2010 statistics reported a slightly higher rate of obesity in US women (38.8%) compared with men (35%). More importantly, women between the ages of 20 and 60 have a higher rate of obesity compared with aged-matched males. The obesity rate for minorities is higher, with 45% of Mexican-American and 54% of black women reportedly being overweight or obese. In addition, African American women have a startling 50% higher obesity rate compared with age and ethnic matched males [
An overwhelming body of evidence has been presented to document the inverse relationship between exercise capacity, cardiovascular and all-cause mortality and morbidity among men.
Data dating back to the earlier studies by Paffenbarger on 17,000 male college alumni, those who walked a distance of 9 or more miles per week had a 21% lower mortality rate compared with those who walked 3 miles per week or less [
Although the mortality-physical activity relationship has been well documented, it still remains unclear as to the precise mechanism by which there is a cardiovascular risk reduction.
In the past there was a great deal of uncertainty regarding the association between physical activity and cardiovascular mortality among women and minorities. Prior to the late 1980’s women were under-represented in epidemiologic studies for CVD prevention. Over the past few years, investigators have begun to examine the role of exercise in the primary prevention of cardiovascular disease in women (summary on
The findings reported in large cohort studies such as the Women’s Health Initiative, Women Take Heart
Author (year) | N | Gender(M/F) | Mean age | Follow-up time (yrs) | Exercise modality | Results |
---|---|---|---|---|---|---|
Lee (2001) | 39,372 | F | 47 - 60 | 3 | Walking | 1 hour walking per week light-to-moderate lowered CHD rates. Inverse relation also showed in those at risk for CVD (overweight, increased cholesterol levels, smokers) |
Manson (2002) | 73,743 | F Postmenopausal | 50 - 79 | 8 | Walking | Walking and vigorous exercise substantially reduced incidence of CV disease. Prolong sitting increased risk Inverse relation observed independent of race, body type and age |
Hu (2004) | 116,564 | F Lean BMI (<25 kg・m2) active and inactive obese BMI (>30 kg・m2) active and inactive | 30 - 55 | 24 | Physical activity recall time spent per week brisk walking, jogging, cycling etc. | Excess weight (BMI > 25 kg・m2 or higher and Physical inactivity (less than 3.5 hours per week) accounted for 31% of all premature deaths (59 from CVD) |
Mora (2007) | 27,005 | F With and without CV risk factors | 54 ± 7 | 10.9 ± 1.6 | Physical activity kcal/week | Moderate exercise (600kcal/wk equivalent to 2 hr/wk brisk walking) lower risk of CVD events Modest changes in risk factors, Inflammation, blood pressure) 200 - 599 kcal/wk, 600 - 1499 kcal/wk and >1500 kcal/wk associated with a 25%, 32% and 41% CV risk reduction, respectively |
Schmitz (2007) | 164 | F Overweight and obese BMI 25 - 35 kg・m2 premenopausal | 25 - 44 | 2 | Strength training 2×/wk | Strength training effective for preventing increase in percentage of body fat and intra-abdominal fat mass in Overweight and obese premenopausal women |
Sattelmair (2011) Meta-Analysis | 33 Studies | M and F | Adults > 18 years old | 1995-2009 | Leisure time physical activity (min/wk) | Those who engaged in 150 min/wk or more had a 14% lower CHD risk compared with sedentary 300 min/wk of moderate intensity leisure activity modestly lower risk There was a significant interaction by sex (p = 0.03); suggesting a stronger relationship among women |
F = female; M = male; CHD = coronary heart disease; CVD = cardiovascular disease.
Project and the Lipid Research Clinics Research Prevalence Study have all conferred the inverse and graded association between physical activity and mortality [
Gregg and associates reported that sedentary women who became physically active over a 6-year period of time had a 32% and a 38% decline in all-cause and cardiovascular mortality, respectively compared with those who remained sedentary [
Despite the growing body of evidence which reports the inverse relationship between physical activity and cardiovascular risk, 32% of US adults currently do not engage in at least 10 minutes of light or moderate leisure time activity per day [
Data reveal that physical inactivity is higher among women compared with men (33.2% versus 29.9%) with only 21% of women currently meeting American Heart Association exercise guidelines for improving cardiovascular health. Equally important is the fact that sedentary lifestyle is greatest among minority women and the trend continues to increase as individuals grow older.
It is interesting to note that epidemiologic data from the Centers for Disease Control and Prevention (CDC) combining the obesity rate, physical activity rate and cardiovascular disease rate has demonstrated that in those areas of the United States where the obesity rate is higher than 30%, the prevalence of adults who do not engage in physical activity was higher than 30%. In addition the CVD death rates in women 35+ years or older was also greater in those areas as well [
The distribution of body fat is a major consideration for CVD risk. Abdominal/androidal obesity (apple-shaped) is associated with greater CVD risk compared with gluteal-femoral/gynoidal (pear-shaped) obesity. Obesity increases CVD risk by serving as a precursor to the development of other CVD risk factors such as hypertension and insulin resistance. Women who are overweight have a 3 fold increased risk of diabetes, whereas obesity carries a 9 fold increased risk for the development of diabetes [
Prior to menopause, females often store the majority of fat in subcutaneous depots, mainly in the gluteal-fe- moral region, making them gynoidal or pear-shaped while men store adipose primarily in the abdominal region making them androidal. During menopause, there is a decrease in estrogen production and the ratio of androgen (testosterone) to estrogen increases. Several studies have linked this shift to a potential cause for an increased abdominal fat after menopause. In addition, some studies have also noted that the drop in estrogen is also linked to the increase in cortisol levels (stress hormone which promotes accumulations in abdominal fat or “middle age spread”).
Based on the data reported in the Nurse’s Health Study, women with a waist circumference greater than ≥35 inches had an increased CV mortality and this relationship existed even among those women who were not overweight. Based on these findings it is safe to assume that the CVD burden from obesity becomes an additional consideration among menopausal women and maintaining a healthy waist size is important [
Lovejoy and coworkers reported on the influence of estrogen altering metabolism and visceral fat distribution. Estrogen influences lipoprotein and lipase in adipose tissue, in addition estrogens play an important role in regulating body fat distribution. With abdominal fat on the rise during the peri-menopausal period an increase in visceral abdominal fat is noted in the first 2 years following menopause [
An important recommendation to combat abdominal obesity is regular-moderate exercise for at least 30 minutes per day. The Studies of Targeted Risk Reduction Interventions through Defined Exercise (STRRIDE) study examined 175 sedentary men and women and they demonstrated equivalence of exercising 11 miles per week, independent of intensity, prevented a significant accumulation of visceral fat with the greatest reduction occurring during vigorous exercise in both groups. More importantly, those who did not exercise experienced a 9% gain in visceral fat [
Schmitz studied 164 overweight and obese (BMI 25 - 35 kg・m2) premenopausal women between the ages of 24 - 44 years and found that those women who engaged in strength training an average of one hour twice per week reduced their proportion of abdominal fat by nearly 4%. They were also successful at keeping off visceral fat compared with those who merely received advice concerning exercise [
One of the most common misconceptions for abdominal weight loss is to perform sit-ups. Spot reduction will tighten abdominal muscles but it will not reduce visceral fat [
Chiuve SE et al. in the prospective Nurse’s Health Study demonstrated a lower risk of sudden cardiac death in a large cohort of females who engaged in 30 minutes of physical activity combined with a low risk lifestyle which included a low BMI, and a Mediterranean-type diet [
Hu and coworkers studied a cohort of 116 women age 30 - 55 years and they noted that the combination of physical inactivity (less than 3.5 hours per week of exercise) and excess body weight (BMI of 25 kg・m2 or higher) were independent predictors of death, accounting for 59% of deaths from cardiovascular disease [
The recommendation for engaging in an exercise program is usually met with reluctance because the mere mention of exercise to most sedentary individuals carries with it an intimidating connotation of marathon running or some other form of high intensity activity. Although an optimal dose for the maximum cardiovascular benefit has not been established, it is of interest to note that exercise consisting of as little as 75 minutes per week has been associated with a significant reduction in cardiovascular risk.
Blair et al. looked at the age-adjusted death rates among 13,000 men and women over an 8-year period. Despite accounting for other risk factors such as smoking, hypertension, hyperlipidemia, family history and diabetes, the death rate was three times higher among the most sedentary males and females (64% and 39.5% deaths per 100,000, respectively) compared with the most active men and women (18.6% and 8.5% deaths per 100,000, respectively). It appeared that as both men and women progressed from sedentary to high levels of fitness the death risk declined, with the greatest benefit occurring when they performed moderate exercise (walking briskly for 30 minutes several times per week) [
Sattelmair et al. in their meta-analysis of a cohort of 33 studies including men and women showed that those achieving a program consisting of 75 - 150 min/week had a 14% reduction in cardiovascular risk and a higher dose of 300 min/week reduced cardiovascular risk by 20%. In addition, there was some evidence to suggest that the risk reduction in women was greater compared with men [
Manson et al. examined the role of walking and vigorous exercise on CVD prevention in a large group of postmenopausal women of various ethnic and minority groups. They noted a similar beneficial CV effect for both walking and vigorous exercise without differences among the groups and this benefit was demonstrated across ethnic and racial backgrounds, age and BMI. In addition, those who were sedentary had an increased CV risk [
The new innovation for physical activity monitoring is the activity tracker. Unlike your standard pedometer which monitors physical activity level with steps per day, the activity tracker will monitor activity level through steps per day, calories burned, metabolic rate, heart rate and sleep pattern.
Luke et al. in their cross-sectional study of men and women 20 - 65 years old showed an inverse relationship between minutes of moderate and vigorous exercise using an activity tracker and systolic blood pressure, blood glucose, and BMI. They also demonstrated a positive relationship between activity level and high density lipoprotein cholesterol [
The utility of hormone replacement therapy (HRT) for reduction of cardiovascular disease in women remains of great interest. Estrogen is known to modulate risk factors for CAD including hypertension and hyperlipidemia. The effects of estrogen includes but is not limited to a reduction in the level of Endothelin-1 which results in vasodilation as well as the up regulation of lipoprotein lipase which leads to break down of VLDL. The results of clinical trials utilizing HRT have been mixed. The Women’s Health Initiative (WHI) was terminated early when HRT with combined estrogen and progesterone resulted in greater breast cancer, pulmonary embolism, stroke and cardiovascular events [
Scientific research is only beginning to uncover the unique features associated with CVD among women and female minorities by examining differences in the biological, pathophysiological and therapeutic areas.
To date, we have managed to identify the following unique characteristics among women:
- An increased awareness of the crucial role that diabetes mellitus plays in the disease process and the higher cardiovascular mortality and morbidity in women with diabetes. This has resulted in a more aggressive approach focused at primary prevention programs particularly among those women at risk of developing diabetes mellitus.
- Identification of non-traditional symptoms that precede a cardiovascular event in women. This has not only made the diagnosis of the disease a more complex process, it has resulted in a more tailored approach for detecting CVD.
- As a result of the greater prevalence of MVD among women, especially those with chronic chest pain, a redirected approach for diagnostic testing and the clinical management of vascular disease among this patient population has been made.
- Finally, the cardiovascular benefits associated with an active lifestyle have been revealed. In fact, there is some evidence to suggest a slightly greater benefit compared with men. Additionally, the dose response relationship between exercise and cardiovascular health has been well documented in women and findings suggest that moderate and even low intensity exercise has been shown to play an important role in primary prevention.
The hope for the future is for the medical community to continue to increase the awareness regarding the clinical features associated with CVD in women as well as emphasizing optimal and comprehensive prevention programs geared toward women and female minorities.
Based on the findings presented in this review, the following are recommended:
1) Although little could be done about the genetics, risk factor lifestyle modification would be of central importance for primary prevention. Given the significant risk that diabetes imposes on coronary disease, diabetes prevention with diet and exercise may prove to be the optimal means for ameliorating diabetes and at the same time reduce other traditional cardiovascular risk factors that are associated with the development of CAD and improved endothelial health. Furthermore, although HRT may eventually prove to be of benefit, given the current available evidence HRT should not be routinely recommended.
2) Women with acute coronary syndrome may not present with the classic anginal symptoms, more awareness of the “atypical” symptoms by both the medical practitioner and the general public is needed. Furthermore, a thorough investigation with optimal diagnostic procedures and detailed physical examination may prevent delay in the treatment of potential fatal myocardial infarctions. Despite the fact that women have a lower prevalence of coronary disease at a younger age compared with men, this should not deter guideline directed management.
3) Total body fat is important for several risk factors, however a greater emphasis should be on maintaining a healthy waist circumference and a reduction in visceral adiposity as this becomes more crucial among peri-me- nopausal and postmenopausal women.
4) You do not have to run marathons or perform intensive exercise to obtain the cardiovascular benefits. The findings in women support a beneficial effect with moderate walking. The emphasis should be on consistency and regularity.