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experiencelifemag.com
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Test Your Endurance
Sometimes the best way to track your progress toward your fitness goals is to
pick a test and make it a regular part of your regimen. Which benchmark
assessment you choose depends on what you want to measure.
By Matt Fitzgerald |
June 2009 |
1. Heart Rate Decoupling Test
2. Lactate Threshold Test
3. Maximum Aerobic Pace or Power Test
4. VO2 Max Speed Test
5. Anaerobic Capacity Test
How fit are you? Chances are you have some idea, but the only way to truly
measure your fitness level is by putting yourself to the test. Regular fitness
testing can help you gauge whether your workouts are producing the results you
want. Many fitness experts recommend formally gauging your fitness level on
an annual or semiannual basis with scientific tests administered by trained
professionals using specialized equipment. These tests measure such things as
strength, resting metabolic rate, body composition, your VO2 max and
biomechanics. But other, do-it-yourself (DIY) fitness tests can offer a valuable
complement to these more in-depth evaluations. The best approach: Use
professional fitness testing to establish a clear starting point, and then chart
your progress on your own until the next round of scientific analysis. (For more
on professional testing, see “Putting Your Fitness to the Test” in the October
2005 archives.) Below, we describe five DIY fitness
tests that measure a broad range of capacities, from raw endurance to anaerobic
capacity. Experts explain what these tests tell you and how you can do them on
your own — no PhD required. (There is however, some equipment required: a
heart-rate monitor, a running track for running-based tests and a stationary
bike with wattage feedback for cycling tests.) Note that all of these tests
require substantial exertion and shouldn’t be undertaken unless you have a solid
base of aerobic fitness (at least six weeks of consistent training).
1. Heart Rate Decoupling Test
Joe Friel, MS, an endurance sports coach and
founder of TrainingPeaks.com, created this test to easily assess raw endurance,
or your capacity to exercise for an extended duration without tiring. A high
level of raw endurance is essential in sports such as triathlon and distance
running. - Strap on a heart-rate monitor and run for at least 30 minutes
or cycle for at least 90 minutes at a steady, moderate intensity.
- Exactly halfway through the workout, press the lap button on your
heart rate monitor.
- After completing the workout, compare your average
heart rate for the first half of the workout with your heart rate for the second
half.
According to Friel, your second-half heart rate should be no more than
5 percent greater. (For more on using your heart-rate monitor, see “Master Your
Monitor” in the October 2005 archives.) “It is
normal for your heart rate to increase slightly during prolonged, steady-state
exercise as fatigue develops,” says Friel. “But the fitter you are, the less it
will increase.” He recommends that you do a heart-rate decoupling test during a
long ride or run once a week as part of your normal training. Try to get that
second-half heart rate down to within 5 percent of the first-half heart rate.
2. Lactate Threshold Test
The lactate threshold is the exercise intensity
at which lactate, a secondary muscle fuel, begins to accumulate rapidly in the
blood because it’s being produced faster than it’s being used. Exercise
scientists have long debated the definition and meaning of the lactate
threshold, but one thing is certain: It is a very powerful predictor of
endurance performance. In clinical environments, the lactate threshold is
determined through a graded exercise test (a workout in which the intensity
increases incrementally every few minutes) combined with blood draws. Typically,
the intensity level at which the blood lactate concentration reaches 4
millimoles per liter (mmol/L) is marked as the lactate threshold. Troy
Jacobson, national director of endurance sports training for Life Time Fitness,
is among those experts who believe it’s possible for athletes to find their
lactate threshold on their own with a functional test requiring no needle
pricks. In trained athletes, Jacobson says, lactate threshold intensity is
roughly the highest intensity that can be sustained for 60 minutes. Since going
all-out for 60 minutes is one killer workout, Jacobson instead uses a 20-minute
max effort that is then adjusted to estimate the result of a 60-minute
effort. - Wearing a heart-rate monitor, begin with a gentle warm-up of
10 to 15 minutes, either on foot on a measured course or on an indoor bike
trainer that provides power data (watts).
- After completing your
warm-up, run or ride as fast a pace as you can sustain for 20 minutes. Be sure
to pace yourself so that you don’t slow down before the 20 minutes are up.
- Finally, cool down for at least five minutes.
Note your average
running pace, cycling power, and/or heart rate for the 20-minute max effort.
Adjust these numbers downward by 5 percent to determine your lactate threshold
numbers. For example, if your average heart rate in the test was 179 bpm, your
lactate threshold heart rate is approximately (179 x 0.95 =) 170 bpm. “This is a
repeatable benchmark test that any conditioned athlete can perform every six to
eight weeks to assess changes in fitness,” says Jacobson.
3. Maximum Aerobic Pace or Power Test
One of the major performance
benefits of endurance training is greater economy of movement. This means that
your body uses less energy to move at any given speed and is able to go faster
at any given level of energy expenditure. With a heart-rate monitor, you can
measure this improvement: Over time, it will show that you are able to go faster
and faster at a fixed heart rate. Some coaches use a protocol known as the
maximum aerobic pace or power test to measure movement economy. To do it, you
must first determine your lactate threshold heart rate using the lactate
threshold test described below. You also need a measured course (such as a
400-meter track) to do the running version of the test or an indoor bike that
measures power output (watts) to do the cycling version. - Once you’ve
determined your lactate threshold heart rate, start the test with a warm-up that
elevates your heart rate to 10 beats per minute below your lactate threshold
heart rate.
- Next, cover a fixed distance (one to five miles for
running, five to 20 miles for cycling) at that same heart rate, keeping it as
steady as possible.
- After completing the distance, divide the
distance by the time to determine your maximum aerobic running pace; or, if
you’re on the cycle, divide the average watts by the time to determine your
maximum aerobic cycling power.
Repeat this test roughly once every four
weeks, suggests Friel. “If you’re training effectively, you will find that you
run or bike a little faster at the same heart rate,” he says. This trend shows
that your movement economy is improving.
4. VO2 Max Speed Test
The two most important physiological variables
in endurance sports are VO2 max, which is the maximum rate at which your body is
able to consume oxygen during cycling, running, or another activity; and
economy, which is the rate at which your body uses oxygen at any given speed.
Having a high VO2 max is of little use if your economy is poor, because you
won’t be able to reach a very high speed before you hit your personal oxygen
limit. Therefore, determining running speed at VO2 max and cycling power at VO2
max factors in both VO2 max and economy, and as such is a powerful performance
predictor. French exercise physiologist Veronique Billat created a simple
running self-test for VO2 max: - Warm up on a treadmill, then increase
your pace to a brisk but comfortable speed for two minutes.
- Next,
increase your speed by 1 mph and run for two minutes.
- Continue in
this manner until you rate the effort as difficult, and then raise the speed 0.5
mph every minute. Continue until you can no longer increase the speed, and then
cool down.
- The fastest speed you achieve is your VO2 max running
speed.
The test also can be adapted to cycling: To determine your VO2 max
cycling power, measure the highest wattage output you can sustain for one minute
on an indoor bike trainer. Repeat the test every four to six weeks to monitor
improvement. Your VO2 max running speed or VO2 max cycling power gradually will
increase as your fitness improves.
5. Anaerobic Capacity Test
>
For many years, exercise scientists have used
something called the Wingate test to measure anaerobic capacity, or the amount
of work an athlete can perform in sustained maximal bursts. The original Wingate
test requires a special type of exercise bike, but coaches such as Friel
regularly use similar tests that don’t require special equipment. Anaerobic
capacity is essentially the fastest speed or highest power output you can
sustain for 30 seconds. To determine your anaerobic running
capacity: - Warm up for five to 10 minutes, and then complete three to
four all-out sprints of 200 meters (a half lap around a standard track) and rest
for three to four minutes after each.
- Time each sprint.
- Divide 200 meters by your best time to determine your anaerobic
running power in meters per second.
To test anaerobic cycling capacity:
- Warm up for 10 to 15 minutes on
an indoor bike trainer that provides power data.
- After completing the
warm-up, complete three to four all-out sprints of 30 seconds and rest for three
to four minutes after each.
- Note your wattage number at the very end
of each sprint.
- The highest number at the end of any of the three to
four sprints is your anaerobic cycling capacity.
“Anaerobic power is
more important for athletes who specialize in shorter races, but it’s still
relevant for endurance athletes who race long,” says Friel, who notes that
anaerobic power comes into play during surges and finishing sprints. So if you
are a middle-distance runner, sprint triathlete, or criterium cyclist, you’ll
want to test your anaerobic power frequently — every four weeks or so — and make
sure it’s increasing. If you’re a long-distance endurance athlete, test your
anaerobic power every six to eight weeks and make sure it does not decrease
despite your emphasis on longer, slower training.
Each time you test, track your numbers in a notebook. The improving markers
will assure you that you’re headed in the right direction, or if you aren’t
seeing as much progress as you’d like, these tests will alert you to areas where
you need to adjust your training to maximize performance. Either way, regular
testing provides the kind of accountability that leads to a lifetime of good
results.
Matt Fitzgerald is a running and triathlon expert who has authored and
coauthored several books, including Maximum Strength (Da Capo, 2008) with Eric
Cressey.
Note: For more on fitness-testing methodologies for strength, cardio and
flexibility, see the “Fitness Testing 1,2,3” series in the April, May and June
2006 archives.
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Test Your Endurance
Sometimes the best way to track your progress toward your fitness goals is to
pick a test and make it a regular part of your regimen. Which benchmark
assessment you choose depends on what you want to measure.
By Matt Fitzgerald | Full Speed Department,
June 2009 |
1. Heart Rate Decoupling Test
2. Lactate Threshold Test
3. Maximum Aerobic Pace or Power Test
4. VO2 Max Speed Test
5. Anaerobic Capacity Test
How fit are you? Chances are you have some idea, but the only way to truly
measure your fitness level is by putting yourself to the test. Regular fitness
testing can help you gauge whether your workouts are producing the results you
want. Many fitness experts recommend formally gauging your fitness level on
an annual or semiannual basis with scientific tests administered by trained
professionals using specialized equipment. These tests measure such things as
strength, resting metabolic rate, body composition, your VO2 max and
biomechanics. But other, do-it-yourself (DIY) fitness tests can offer a valuable
complement to these more in-depth evaluations. The best approach: Use
professional fitness testing to establish a clear starting point, and then chart
your progress on your own until the next round of scientific analysis. (For more
on professional testing, see “Putting Your Fitness to the Test” in the October
2005 archives.) Below, we describe five DIY fitness
tests that measure a broad range of capacities, from raw endurance to anaerobic
capacity. Experts explain what these tests tell you and how you can do them on
your own — no PhD required. (There is however, some equipment required: a
heart-rate monitor, a running track for running-based tests and a stationary
bike with wattage feedback for cycling tests.) Note that all of these tests
require substantial exertion and shouldn’t be undertaken unless you have a solid
base of aerobic fitness (at least six weeks of consistent training).
1. Heart Rate Decoupling Test (Back to Top)
Joe Friel, MS, an endurance sports coach and
founder of TrainingPeaks.com, created this test to easily assess raw endurance,
or your capacity to exercise for an extended duration without tiring. A high
level of raw endurance is essential in sports such as triathlon and distance
running. - Strap on a heart-rate monitor and run for at least 30 minutes
or cycle for at least 90 minutes at a steady, moderate intensity.
- Exactly halfway through the workout, press the lap button on your
heart rate monitor.
- After completing the workout, compare your average
heart rate for the first half of the workout with your heart rate for the second
half.
According to Friel, your second-half heart rate should be no more than
5 percent greater. (For more on using your heart-rate monitor, see “Master Your
Monitor” in the October 2005 archives.) “It is
normal for your heart rate to increase slightly during prolonged, steady-state
exercise as fatigue develops,” says Friel. “But the fitter you are, the less it
will increase.” He recommends that you do a heart-rate decoupling test during a
long ride or run once a week as part of your normal training. Try to get that
second-half heart rate down to within 5 percent of the first-half heart rate.
2. Lactate Threshold Test (Back to Top)
The lactate threshold is the exercise intensity
at which lactate, a secondary muscle fuel, begins to accumulate rapidly in the
blood because it’s being produced faster than it’s being used. Exercise
scientists have long debated the definition and meaning of the lactate
threshold, but one thing is certain: It is a very powerful predictor of
endurance performance. In clinical environments, the lactate threshold is
determined through a graded exercise test (a workout in which the intensity
increases incrementally every few minutes) combined with blood draws. Typically,
the intensity level at which the blood lactate concentration reaches 4
millimoles per liter (mmol/L) is marked as the lactate threshold. Troy
Jacobson, national director of endurance sports training for Life Time Fitness,
is among those experts who believe it’s possible for athletes to find their
lactate threshold on their own with a functional test requiring no needle
pricks. In trained athletes, Jacobson says, lactate threshold intensity is
roughly the highest intensity that can be sustained for 60 minutes. Since going
all-out for 60 minutes is one killer workout, Jacobson instead uses a 20-minute
max effort that is then adjusted to estimate the result of a 60-minute
effort. - Wearing a heart-rate monitor, begin with a gentle warm-up of
10 to 15 minutes, either on foot on a measured course or on an indoor bike
trainer that provides power data (watts).
- After completing your
warm-up, run or ride as fast a pace as you can sustain for 20 minutes. Be sure
to pace yourself so that you don’t slow down before the 20 minutes are up.
- Finally, cool down for at least five minutes.
Note your average
running pace, cycling power, and/or heart rate for the 20-minute max effort.
Adjust these numbers downward by 5 percent to determine your lactate threshold
numbers. For example, if your average heart rate in the test was 179 bpm, your
lactate threshold heart rate is approximately (179 x 0.95 =) 170 bpm. “This is a
repeatable benchmark test that any conditioned athlete can perform every six to
eight weeks to assess changes in fitness,” says Jacobson.
3. Maximum Aerobic Pace or Power Test (Back to Top)
One of the major performance
benefits of endurance training is greater economy of movement. This means that
your body uses less energy to move at any given speed and is able to go faster
at any given level of energy expenditure. With a heart-rate monitor, you can
measure this improvement: Over time, it will show that you are able to go faster
and faster at a fixed heart rate. Some coaches use a protocol known as the
maximum aerobic pace or power test to measure movement economy. To do it, you
must first determine your lactate threshold heart rate using the lactate
threshold test described below. You also need a measured course (such as a
400-meter track) to do the running version of the test or an indoor bike that
measures power output (watts) to do the cycling version. - Once you’ve
determined your lactate threshold heart rate, start the test with a warm-up that
elevates your heart rate to 10 beats per minute below your lactate threshold
heart rate.
- Next, cover a fixed distance (one to five miles for
running, five to 20 miles for cycling) at that same heart rate, keeping it as
steady as possible.
- After completing the distance, divide the
distance by the time to determine your maximum aerobic running pace; or, if
you’re on the cycle, divide the average watts by the time to determine your
maximum aerobic cycling power.
Repeat this test roughly once every four
weeks, suggests Friel. “If you’re training effectively, you will find that you
run or bike a little faster at the same heart rate,” he says. This trend shows
that your movement economy is improving.
4. VO2 Max Speed Test (Back to Top)
The two most important physiological variables
in endurance sports are VO2 max, which is the maximum rate at which your body is
able to consume oxygen during cycling, running, or another activity; and
economy, which is the rate at which your body uses oxygen at any given speed.
Having a high VO2 max is of little use if your economy is poor, because you
won’t be able to reach a very high speed before you hit your personal oxygen
limit. Therefore, determining running speed at VO2 max and cycling power at VO2
max factors in both VO2 max and economy, and as such is a powerful performance
predictor. French exercise physiologist Veronique Billat created a simple
running self-test for VO2 max: - Warm up on a treadmill, then increase
your pace to a brisk but comfortable speed for two minutes.
- Next,
increase your speed by 1 mph and run for two minutes.
- Continue in
this manner until you rate the effort as difficult, and then raise the speed 0.5
mph every minute. Continue until you can no longer increase the speed, and then
cool down.
- The fastest speed you achieve is your VO2 max running
speed.
The test also can be adapted to cycling: To determine your VO2 max
cycling power, measure the highest wattage output you can sustain for one minute
on an indoor bike trainer. Repeat the test every four to six weeks to monitor
improvement. Your VO2 max running speed or VO2 max cycling power gradually will
increase as your fitness improves.
5. Anaerobic Capacity Test (Back to Top)
>
For many years, exercise scientists have used
something called the Wingate test to measure anaerobic capacity, or the amount
of work an athlete can perform in sustained maximal bursts. The original Wingate
test requires a special type of exercise bike, but coaches such as Friel
regularly use similar tests that don’t require special equipment. Anaerobic
capacity is essentially the fastest speed or highest power output you can
sustain for 30 seconds. To determine your anaerobic running
capacity: - Warm up for five to 10 minutes, and then complete three to
four all-out sprints of 200 meters (a half lap around a standard track) and rest
for three to four minutes after each.
- Time each sprint.
- Divide 200 meters by your best time to determine your anaerobic
running power in meters per second.
To test anaerobic cycling capacity:
- Warm up for 10 to 15 minutes on
an indoor bike trainer that provides power data.
- After completing the
warm-up, complete three to four all-out sprints of 30 seconds and rest for three
to four minutes after each.
- Note your wattage number at the very end
of each sprint.
- The highest number at the end of any of the three to
four sprints is your anaerobic cycling capacity.
“Anaerobic power is
more important for athletes who specialize in shorter races, but it’s still
relevant for endurance athletes who race long,” says Friel, who notes that
anaerobic power comes into play during surges and finishing sprints. So if you
are a middle-distance runner, sprint triathlete, or criterium cyclist, you’ll
want to test your anaerobic power frequently — every four weeks or so — and make
sure it’s increasing. If you’re a long-distance endurance athlete, test your
anaerobic power every six to eight weeks and make sure it does not decrease
despite your emphasis on longer, slower training.
Each time you test, track your numbers in a notebook. The improving markers
will assure you that you’re headed in the right direction, or if you aren’t
seeing as much progress as you’d like, these tests will alert you to areas where
you need to adjust your training to maximize performance. Either way, regular
testing provides the kind of accountability that leads to a lifetime of good
results.
Matt Fitzgerald is a running and triathlon expert who has authored and
coauthored several books, including Maximum Strength (Da Capo, 2008) with Eric
Cressey.
Note: For more on fitness-testing methodologies for strength, cardio and
flexibility, see the “Fitness Testing 1,2,3” series in the April, May and June
2006 archives.
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