There is no magic workout. I used to get frustrated with my training partners when they鈥檇 start stressing about whether we should take 90 seconds or two minutes between repetitions, or argue about whether we should be running 1,200-meter reps instead of 1,000 meters. Those minor details aren鈥檛 crucial.
But that doesn鈥檛 mean that all interval workouts are equal, as in the Journal of Strength and Conditioning Research reminds us. Researchers at Berry College in Georgia put eight volunteers (half of them men, half women) through four different workouts and measured the physiological and perceptual responses. The results offer a useful snapshot of what different types of intervals involve, and鈥攑erhaps unintentionally鈥攈ighlight a crucial divergence between the raw numbers and what you feel during and after a workout.
The four workouts were as follows, all performed on an exercise bike and preceded by a warm-up:
- 4 x 30 seconds聽hard (all-out), with 4:00 recovery (very easy cycling at 50 watts)
- 12 x 60 seconds hard (100% of power at VO2max) with 60 seconds recovery (50%)
- 4 x 4:00 hard (90%) with 3:00 recovery (60%)
- 45:00 steady (90% of power at lactate threshold)
The intensities for the middle two workouts were set based on the max power achieved during a previous VO2max test.
The researchers collected a bunch of data on how the subjects responded to the workouts, so I鈥檒l just point out a few highlights. One of the goals of the experiment was to determine what physiological changes occurred during the 30 minutes after the workout ended. 聽The general conclusion was that people recovered at pretty much the same rate for all workouts, with no differences in how long metabolism stayed elevated. In other words, there鈥檚 no magic afterburn that melts appreciable amounts of fat away in the hours after a high-intensity interval workout. Sorry.
The most objective way of measuring the demands of the workout itself is to look at the total work completed, which is measured in kilojoules. In theory, a short training session can require the same amount of work as a long one if it鈥檚 at a high enough intensity. But for these four sessions, the amount of work was clearly greater in the longer reps or continuous effort:
This isn鈥檛 really surprising. The 30-second reps took a total of 14 minutes, including recovery time; the one-minute reps took a total of 23 minutes; the four-minute reps took a total of 25 minutes; and the 45-minute continuous ride took a total of… well, you get the point. This is why high-intensity interval training studies have generated such excitement over the last decade or so: shorter workouts involving much less total work seem to, in some cases, generate similar fitness gains as longer ones.
If you鈥檙e looking to improve your aerobic fitness, the picture might be slightly different. Here鈥檚 what the overall average heart rates were, as a percentage of max, for each workout:
In this case, the long recovery period between 30-second sprints means that the average heart rate for the workout is quite low. The pattern is similar if you look at the fraction of VO2max sustained during the workout. The hardest aerobic challenges, instead, seem to be the longer intervals, which fits with 聽that concluded that the most effective interval durations to raise VO2max were in the three- to five-minute range. The really interesting question, to me, is how hard each of these workouts is. That鈥檚 not very realistic, as this study illustrates: total work is mostly just a function of the overall duration of the workout.聽For example, the total work in the 30-second sprints was 100 kilojoules, while the 45-minute steady sessions required 350 kilojoules. To equalize the total work, you鈥檇 either have to increase the number of sprints from 4 to 14, or shorten the 45-minute ride to just under 13 minutes. Neither option gives you a realistic comparison of how people actually do these sorts of workouts.
In the new study, the researchers looked at a couple of other options for measuring how hard the session is. One is a measure called聽鈥,鈥 which is a fairly intricate calculation that involves taking average heart rate for each 5-second period during the workout, multiplying it by a weighting factor derived from the individual鈥檚 heart rate-lactate curve, and then summing all the five-second contributions. This approach aims to give you an overall estimate of how hard you pushed your body, by combining intensity and duration. Here鈥檚 what that looks like for each workout:
By this measure, the sprints are easy compared to the longer intervals and the steady run.
Another option is 鈥淩PE-training load,鈥 which is simpler: you take the athlete鈥檚 subjective estimate of how hard the overall session was (their rating of perceived exertion, or RPE, on a scale of 6 to 20, assessed 30 minutes after the session finishes), and multiply it by the total duration of the session. Here鈥檚 how that looks:
Once again, the total duration of the workout dominates, and the sprints appear to be the easiest.
There鈥檚 one graph that didn鈥檛 make it into the paper, though: the simple RPE rating for the overall session. How hard did the subjects find each workout? Here鈥檚 my own graph of the RPE data from the paper:
Now we鈥檙e looking at a completely different picture! The 45-minute steady session, even though 90 percent of lactate threshold is not exactly lollygagging, is by far the easiest session overall. The three interval workouts are all pretty similar鈥攁nd hard. So the total amount of work performed in the session is a terrible predictor of how hard it is.
If you鈥檙e a hardcore athlete, this may be irrelevant to you. You鈥檒l do whatever workout you think will improve your performance the most, no matter how hard it feels. If that鈥檚 the case, there are different advantages for each of the three interval workouts described here (for more on choosing the details of interval workouts based on your goals, check out this article from a few months ago).
But if your focus is health, and you鈥檙e trying to find a workout routine that you鈥檒l be able to stick with in the long term, then you need to think carefully about what barriers you鈥檙e trying to overcome. Is it, as many high-intensity interval advocates argue, a lack of time that makes you miss workouts? If so, nothing rivals the time-efficiency of short sprint workouts like the 30-second reps. Or is the real barrier, as , the fact that your workout feels unpleasant? If that鈥檚 the case, the plain old 45-minute steady session looks like a better option, since it鈥檚 rated as the easiest (and thus presumably the most pleasant) option.
Personally (as always!) I鈥檓 in favor of a mix of all of the above鈥攂ut I would never suggest that all-out sprint workouts are easy just because they鈥檙e short and, objectively speaking, don鈥檛 involve much total work. The reason they鈥檙e so effective is that they鈥檙e very, very hard.
My new book, , with a foreword by Malcolm Gladwell, is now available. For more, join me on and , and sign up for the Sweat Science .