Do Women
Have Different Recovery Needs?
Provided by American Council on Exercise
When it
comes to human physiology, males and females are distinctly different, so it
doesn’t make sense that most recovery guidelines for men and women are
basically the same. This article highlights key physiological differences
between women and men and provides guidelines for creating effective training
recovery recommendations for your female clients.
When it
comes to human physiology, males and females are distinctly different. For
instance, compared to men, women have a greater percentage of slow-twitch
muscle fibers. Additionally, there are significant sex differences in the
endocrine, musculoskeletal and other bodily systems. Therefore, it doesn’t
really make sense that most recovery guidelines for men and women are basically
the same. This article highlights key physiological differences between women
and men and provides guidelines for creating effective training recovery
recommendations for your female clients.
Sex
Differences in Muscle Fiber Types
Skeletal
muscle is divided into two types of fibers: type I (slow-twitch) and type II
(fast-twitch).
Type I
fibers are more efficient than type II fibers at using oxygen to create
adenosine triphosphate (ATP), which is the body’s source of energy. This is
ideal for endurance exercise, which involves more type I fibers.
By
contrast, type II fibers have 10 to 20% greater contractile force than type I
fibers. For this reason, type II fibers are ideal for activities requiring
speed, such as sprinting, or high-force movements, such as weight training.
The
energy systems that correspond with each muscle fiber type also differ. While
type I fibers predominantly use mitochondrial respiration, type II fibers
predominantly use glycolysis. When studying the rate of fatigue of each muscle
fiber, type I fibers are more resistant to fatigue than type II fibers. Research has shown that women
have a higher proportion of type I skeletal muscle fibers. The differences
found in muscle-fiber proportion between men and women most certainly
contribute to varying performance capabilities. For example, several studies indicate that women
have a greater resistance to skeletal muscle fatigue when compared to men. It
has been suggested that the primary mechanism underpinning these
fatigue-resistance differences is the sex-specific differences in type I
fibers.
Sex Differences in Substrate Utilization
For
a human body to perform any type of exercise, energy—in the form of ATP—is
needed and is manufactured by three systems: the phosphagen
system, glycolysis and mitochondrial respiration. These three energy systems
utilize different forms of fuel, also known as substrates, and produce ATP
through different chemical processes. Several key differences exist between men
and women with respect to substrate utilization. For example, one study reported
that men had a 15 to 32% higher glycolytic enzymatic capacity when compared to
women. The same study also found that women had a 15% higher capacity for ß-oxidation (i.e., burning
fat) relative to men. Moreover, additional research found
that women demonstrate a 4 to 5% lower respiratory exchange ratio (RER) than
men during submaximal endurance exercise.
Collectively,
these findings demonstrate that women are generally more reliant on fats as a
fuel source, whereas men tend to be more dependent on carbohydrates as a
substrate for metabolism. These sex differences in substrate selection can
be explained, in part, by the dissimilarities in the distribution of muscle
fibers mentioned in the previous section.
Sex
Differences in Hormone Concentrations
A
key hormone that differs greatly in men and women is estrogen. Indeed, women
have significantly higher concentrations of estrogen when compared to their
male counterparts. During a women’s menstrual cycle, estrogen concentrations
fluctuate, with lower levels occurring during the follicular phase (the 14- to
21-day period when the egg is maturing) and higher levels occurring during the
luteal phase (the period after ovulation but before menstruation begins).
Higher concentrations of estrogen are positively correlated with increased fat
oxidation and a concomitant sparing of muscle glycogen. As stated above, fat
utilization regenerates ATP at a slower rate relative to carbohydrate
oxidation. Overall, these differences in estrogen levels further contribute to
greater fatigue-resistance capacities in women.
Sex
Differences in Body Composition and Thermoregulation
On
average, men have lower body-fat percentages when compared to women, and women typically store body fat peripherally and
subcutaneously rather than around the abdominal region. The differences in body
composition and adipose tissue distribution underpin important sex-specific
differences in thermoregulatory capacity.
Interestingly,
research has shown that in a hot environment, men begin to sweat at a lower
core temperature, more quickly and at a greater magnitude relative to women.
For example, one study had men
and women pedal on a cycle ergometer that was immersed in 82.4° F (28.0° C)
water for 100 minutes at an intensity of 60% maximal oxygen uptake. Researchers
found that men began to sweat at a core temperature of 98.4° F (36.9° C), while
women did not begin to sweat until their bodies reached a significantly higher
core temperature of 99.0° F (37.2° C).
In
another study, subjects performed a 90-minute indoor cycling
bout, drank water as needed and were measured for rate and amount of sweat
loss. Male participants had a twofold higher rate of sweat loss and twofold
greater overall magnitude of sweat loss when compared to their female
counterparts. In conclusion, men and women differ in body composition,
distribution of adipose tissue and thermoregulatory capacity.
Strategies
to Improve Training Recovery in Women
Understanding
the concept of recovery is essential for designing effective training programs.
As was just discussed, there are notable physiological differences between men
and women. This physiological reality should be considered when making recovery
recommendations. Consider implementing the following sex-specific strategies to
expedite training recovery in your female clients.
1.
Recommend Active Recovery
ACE-supported research highlights the superiority of active
recovery over passive recovery. Logically, from a physiological perspective,
this practice makes sense. Continued blood flow to the skeletal muscle post-exercise
promotes the resynthesis of glycogen stores and
facilitates removal of metabolic byproducts. However, research suggests that females
tend to have lower post-exercise mean arterial pressure relative to their male
counterparts. This lower pressure leads to lesser blood flow to the skeletal
muscles under resting conditions. As such, recommending active recovery,
whether it is immediately after an interval session or the day following strenuous
exercise, for your female clients is particularly important.
2.
Utilize Cold-water Immersion
As
highlighted earlier, throughout the post-exercise period, females tend to
display lower thermolytic capacities relative to
males. Therefore, the use of cooling recovery strategies such as cold-water
immersion following exercise may be particularly valuable for recovery in
female clients. In previous ACE-supported research, we
found cold-water immersion to be a viable recovery strategy. In particular, the
study findings offer important evidence related to both the dose and timing of
cold-water immersion, and confirm its value as an effective acute and chronic
training recovery strategy:
- Water
temperature = 55.0° F (12.8° C).
- Cold
water immersion duration = 10 minutes
- Cold
water immersion frequency = up to five days per week
- Cold water immersion timing = immediate
to two hours post-exercise
3.
Encourage Post-exercise Hydration
Given the
sex-specific differences in thermoregulatory capacity, it is important to
encourage your female clients to focus on intentional post-exercise hydration
practices. Following exercise, the goal is to correct any fluid imbalances that
occurred from exercising. This includes consuming water to restore hydration,
carbohydrates to replenish glycogen stores, and electrolytes to speed
rehydration. If a female client has at least 12 hours to recover before the
next workout, rehydrating with their usual meals and snacks and water should be
adequate. The sodium in food helps the body retain the fluid and stimulates
thirst. If rehydration needs to occur quickly, urge your female clients
to drink about
1.5 L of fluid for each kilogram (or 23 oz of fluid
for each pound) of body weight lost. This is enough to restore lost fluid and
compensate for the increased urine output that occurs with rapid consumption of
large amounts of fluid.
4. Pay
Attention to Post-exercise Protein Consumption
After an
exercise bout, the body needs to repair the muscle damage sustained during
exercise training. Favorable muscle adaptations and repair to exercise-induced
muscle damage are dependent on positive muscle protein balance. This is
especially true for female adults who are more prone to negative energy
balance. Encourage your clients to follow these recommendations:
- Consume
a protein (0.4 g/kg/hr) plus carbohydrate (~1.0
g/kg/hr) mix immediately post-exercise.
- Consume protein and carbohydrate at 15-
to 30-minute intervals.
5. Reduce
the Frequency and Duration of Recovery
As a
health and exercise professional, you can optimize training recovery by
correctly managing the various components—frequency, intensity, time and
type—of your clients’ exercise programs (Figure 1). However, given the
physiological differences between women and men, some adjustments may be
necessary:
- Female
clients likely require less rest between interval bouts when compared to
their male counterparts. For example, if female and male clients are each
performing 8 x 60-second intervals bouts, the female client may be fully
recovered between bouts after two minutes of rest, while the male client
might require an additional 30 seconds of rest.
- Women
also likely require less recovery time between sets of resistance training
when compared to men. A similar sex-specific discrepancy for rest periods
as just described between interval bouts should
also exist between resistance-training sets. Although there is no specific
recommendation, evidence suggests that women may require anywhere between
25 and 50% less recovery time.
- Women may require a reduced day of
recovery following higher-intensity training sessions. For instance,
following a difficult interval session, a female client might be fully
recovered after two days of moderate-intensity training relative to a male
client who may need three days of recovery.
Figure
1.
FITT for Training Recovery
The
Take-home Message
Intentional
tactics are required to ensure adequate recovery from training that accounts
for the unique attributes and needs of clients, especially sex-specific
differences in physiology. Consider utilizing these five evidence-based
strategies to better optimize recovery with your female clients. As always, it
is important to recognize that a purposeful trial-and-error approach is needed,
as not all these recovery strategies will be applicable or desirable for
everyone. Ultimately, it is up to you to systematically implement and evaluate
these various strategies to ultimately pinpoint the recovery strategies
that best suits each of your female clients.
Expand Your Knowledge
AUTHOR
Lance C. Dalleck
Lance
C. Dalleck, PhD, is a professor of Exercise and Sport
Science at Western Colorado University. His research interests include
improving exercise performance and health outcomes through evidence-based
practice, quantifying the energy expenditure of outdoor and non-traditional
types of physical activity, and studying historical perspectives in health,
fitness and exercise physiology. Dr. Dalleck is a
member of the ACE Scientific Advisory Panel.