Women in their midlife years are the most likely to be “in and out of exercise,” according to the Australian Longitudinal Study on Women’s Health (Lucke et al., 2010). In other words, they want to exercise, but something is keeping them from sticking with it over the long term.
The women who participated in my research study told a similar story. They wanted to exercise, but workouts were too hard, and their muscles and joints were sore for days. They also expressed dissatisfaction with exercise professionals who believed that healthy aging was dependent upon high-intensity workouts. The following response from Jay, a 54-year-old woman living in New Zealand, was typical:
“You know, I’ve gone through three personal trainers now. Every one of them put me through workouts that exhausted me. They don’t seem to realize that I’m not 20 anymore. I don’t want to go back to the gym. My joints just hurt so much when I do those workouts now.”
Admittedly, touting the benefits of exhausting, high-intensity workouts used to be my mantra, too. In fact, I was one of the first women to bring this “go hard or go home” workout approach to the New Zealand fitness industry in the late 1980s and early 1990s. What we didn’t anticipate, however, was how our feelings about high-intensity training might change when our bodies began to change, particularly during perimenopause and menopause transitions. As I discovered myself, when intense workouts and busy lifestyles intersect with the changing hormonal environment in menopause, cortisol levels increase significantly. Not only does this cause increased inflammation and joint, muscle and myocardial (cardiac) mitochondrial issues, it causes something called “pregnenolone steal,” which leads to increased hot flashes, anxiety and depression. Given these issues, it’s no surprise that midlife women are reported as the highest demographic to be ‘in and out’ of exercise.
Menopause is a hallmark of a woman’s biological aging. However, many women and health and fitness professionals don’t realize exactly what early midlife hormonal changes occur. The World Health Organization’s Healthy Aging Report (2016) defines midlife as half of the average life expectancy of females, which in the United States is 81 years. Thus, midlife for American women begins at 40 (World Bank, 2015). This means that the transition into biological aging, whereby a woman’s ovaries start to lose estrogen receptors and estrogen production diminishes, starts earlier than once believed. This transition is known as perimenopause and for all women, it is the start of changes to their hormonal environment that can affect their health, energy, exercise response, sleep, moods, bone density, cardiac health and, for many, their weight.
As a health and fitness professional who is helping your female clients reach their health and fitness goals, it is essential that you understand menopause and how it affects the exercise response—and, importantly, how exercise affects how women experience menopause. It is important to realize that women who are in their early 50s now may have been active and exercising in a health club environment for much of their adult lives, which means that they may have engrained beliefs about the type, amount and intensity of exercise that they believe burns calories and provides the most benefits. However, in a changing hormonal environment and with interrupted sleep, weight-management strategies that have worked in the past may no longer work during menopause. Although this is partly due to the biological aging of blood vessels, organs, muscles, tendons and ligaments, and, of course, a changing hormonal environment, it may also be due to the increased cortisol and subsequent insulin disruption that results from too much high-intensity exercise. Additionally, increased fat around the abdominal and diaphragmatic regions is another indicator of inflammation, which contributes to metabolic syndrome, heart disease and, for some, type 2 diabetes. All of this helps explain, in part, why heart disease is the number one health risk for women over the age of 50 in the U.S., Australia, New Zealand and the United Kingdom (National Institute on Aging, 2012; Kowal et al. (2010).
Clearly, understanding the “science of menopause” is important for many reasons, including helping to mitigate cardiac risk for women (American Heart Association, 2013). This article examines how perimenopause and menopause can dramatically alter a woman’s response to exercise and offers effective strategies for designing programs that are both effective and enjoyable for your clients.The Science of Menopause
Defined by the World Health Organization (WHO) as the permanent cessation of menstrual periods that occurs naturally or is induced by surgery, the Greek derivative is men (month) and pausis (cessation). The years preceding menopause that encompass the transition from normal menstruation to cessation are termed perimenopause and are characterized by irregular periods, which may last up to five years. Based on the Massachusetts Women’s Health Study, one of the largest studies on midlife women, the average age of menopause, when menstruation stops completely, is 51 years. This hasn’t changed since ancient times.
Postmenopause begins at the time of the final menstrual period, although it is often not recognized until after 12 months of a woman’s periods ceasing. This cessation of menstruation is known medically as the climacteric, the end of a woman’s reproductive potential. With the huge decrease in estrogen levels that occurs at this time, it is no wonder that hormonal changes cause havoc with the endocrine (hormonal), psychological and somatic (bodily) systems. More importantly, women who don’t manage the menopause transition through symptom and/or weight management, may spiral into negative health changes as they age (Lucke et al., 2010; Church et al. 2009).
Given that the production of the primary reproductive hormones occurs in the hypothalamus and pituitary gland in the brain, menopause symptoms are, arguably, more about the brain than the ovaries. The human endocrine system works as a negative-feedback loop (i.e., an increase or decrease in a single hormone’s production has an influence over other hormone production in the body). That means when estrogen and progesterone production decreases, the amount of follicle-stimulating hormone (FSH) released from the pituitary gland changes, too (Figure 1).
FSH is a powerful hormone that controls estrogen production in the ovaries. In the normal menstrual cycle of younger women, another hormone called luteinizing hormone (LH) works in tandem with FSH in estrogen-producing ovulation. However, as perimenopause approaches, the aging ovaries become less responsive to FSH. As such, the amount of FSH rises in the pituitary gland and increases 10 to 20-fold as more and more FSH is released by the pituitary gland to “bribe” the ovaries into responding. LH is cleared from the blood faster, which means that high levels of FSH are what causes havoc on menopausal symptoms during this time. For some women, this can go on for years. As a woman hits her 50s, fewer and fewer follicles respond to the FSH. This can result in symptom chaos for women, both physically and psychologically.
The hormone progesterone, which is the hormone of pregnancy, also is implicated in the hormonal changes caused by low estrogen production. During perimenopause, progesterone levels fluctuate and decline, but this decline can happen more rapidly, particularly when stress and inflammation in the body builds up. So, when women aren’t sleeping and have other stress in their lives, high-intensity exercise programs can propel women into a sharper-than-normal decrease in progesterone levels. When cortisol levels stay high both day and night, it “steals” progesterone from the adrenal gland pathway. This means that progesterone is not available for its usual role, which is to maintain a calm, happy and clear mind. Mood swings, anxiety and depression may all become worse and, for many women, body fat levels increase.Common Symptoms in PerimenopauseHot Flashes and Night Sweats
Hot flashes (known as hot flushes in some parts of the world) are clinically defined as instability of the vasomotor system (blood vessel control). The vasomotor system is driven by the adrenal glands through the sympathetic nervous system, which also controls blood pressure and blood vessel dilation.
Hot flashes and night sweats are the hallmark of menopause for many women. Reddening of the face, a sensation of heat and, in some women, profuse sweating drive many to despair. Because these symptoms commonly occur at night, hot flashes are a primary cause of insomnia. Decreased estrogen production, increased feelings of stress and hyperglycemia (high levels of blood glucose) all influence hot flash frequency and severity, as does high levels of vigorous exercise. This is not a surprise, given the adrenal system’s influence on other hormones such as those produced by the thyroid, pancreas and pituitary gland. These hormones control a wide range of body functions, including temperature, blood pressure, metabolism and blood sugar.
The hot flash is the end result of vasodilation, which is how the body is trying to cool down. When hot flashes become intolerable, many women go on hormone replacement therapy (HRT) to reduce their symptoms, but evidence from the Women’s Health Initiative Study (2001) linking long-term use to breast cancer, has resulted in the use of HRT becoming somewhat controversial.Insomnia
Wakeful nights in perimenopause are often an overlooked symptom of menopause, because women often don’t associate this symptom with their menopause changes. But low estrogen also affects melatonin, the “go-to-sleep” hormone. This sleep hormone is also disrupted by high cortisol levels as well as increased insulin production, because these hormones also affect pineal gland production of melatonin. When melatonin levels remain low, sleep is interrupted and light, so women wake up throughout the night and find it difficult to get back to sleep. When this happens consistently it becomes routine, but lack of sleep increases a woman’s risk for developing heart disease later on. As a health and fitness professional, you must be aware of your perimenopausal and menopausal clients’ sleep patterns, especially for those who are performing vigorous activity or resistance training. When women aren’t sleeping, the restorative hormones—growth hormone and DHEA—are not produced overnight to restore immune system recovery.Estrogen Dominance and Insulin Sensitivity
How many women do you know who continue to put on weight in their midlife years, despite being on a good eating regime and exercising daily? Insulin sensitivity is known to worsen with advancing age and increasing central obesity (diaphragmatic and abdominal obesity), is a common symptom of menopause. High levels of cortisol are the main reason for the development of insulin sensitivity, but so, too, is a condition called estrogen dominance.
Estrogen dominance was relatively unheard of a decade ago, but has become more commonly accepted as a cause of menopausal weight gain. The term refers to the consequence of estrogen storage in fat and liver cells throughout a woman’s life. Hence, because estrogen is stored in these other cells, even in a low-estrogen environment in menopause this stored estrogen plays havoc on progesterone levels, causing them to drop dramatically. This imbalance naturally causes estrogen to dominate the hormonal environment, overshadowing progesterone. With low progesterone, the estrogen is unopposed, which leads to increasing weight gain and insulin resistance from high blood lipids and high levels of low-density lipoprotein (LDL) cholesterol—which also happen to be common risk factors for heart disease.
It is important to understand that some women who have exercised regularly in the past and maintained a healthy weight may experience weight gain as they transition through and into menopause. This diaphragmatic weight gain increases their risk of cardiovascular disease three-fold. Women who do not gain weight in this low-estrogen, low progesterone environment, are more likely to experience calcium loss and increased osteoporosis risk (Lucke et al., 2010).How to Help Your Menopausal Clients Make Sense of Exercise
As a health and fitness professional who helps your clients adopt healthy lifestyle practices, you are in a unique position to support midlife women make positive lifestyle behaviors that align with healthy-aging ideals (Sweet, 2008). Here are five effective strategies you can use to support your menopausal clients in ways that may make a difference to how they feel and how they stay healthy during this phase of life:
There is no question that the benefits of being physically active as women age are both proven and well-known (Beard et al, 2015). However, because there is little information about exercise for women during menopause, exercise programming is often approached as a “one-size-fits-all-across-the-lifespan” endeavor. It is evident from reviewing and critiquing the literature that women in perimenopause and menopause are not often the subjects of exercise-related research.
It is important to realize that the women who are in their 50s today were the among first groups of women to embrace the fitness industry in the 1980s (Hentges, 2014). The gym is a familiar space for many women to work out and spend time, but we need to do a better job of adequately supporting both their age and stage of life by creating exercise programs that address their unique needs.