Title and Abstract
Willardson, J.M. A brief review: Factors affecting the length of the rest interval between resistance exercise sets. J. Strength Cond. Res. 20(4):978-984. 2006
Research has indicated that multiple sets are superior to single sets for maximal strength development. However, whether maximal strength gains are achieved may depend on the ability to sustain a consistent number of repetitions over consecutive sets. A key factor that determines the ability to sustain repetitions is the length of rest interval between sets. The length of the rest interval is commonly prescribed based on the training goal, but may vary based on several other factors. The purpose of this review was to discuss these factors in the context of different training goals. When training for muscular strength, the magnitude of the load lifted is a key determinant of the rest interval prescribed between sets. For loads less than 90% of 1 repetition maximum, 3-5 minutes rest between sets allows for greater strength increases through the maintenance of training intensity. However, when testing for maximal strength, 1-2 minutes rest between sets might be sufficient between repeated attempts. When training for muscular power, a minimum of 3 minutes rest should be prescribed between sets of repeated maximal effort movements (e.g., plyometric jumps). When training for muscular hypertrophy, consecutive sets should be performed prior to when full recovery has taken place. Shorter rest intervals of 30-60 seconds between sets have been associated with higher acute increases in growth hormone, which may contribute to the hypertrophic effect. When training for muscular endurance, an ideal strategy might be to perform resistance exercises in a circuit, with shorter rest intervals (e.g., 30 seconds) between exercises that involve dissimilar muscle groups, and longer rest intervals (e.g., 3 minutes) between exercises that involve similar muscle groups. In summary, the length of the rest interval between sets is only 1 component of a resistance exercise program directed toward different training goals. Prescribing the appropriate rest interval does not ensure a desired outcome if other components such as intensity and volume are not prescribed appropriately.
When you look around the weight room, it’s not uncommon to see folks using rest intervals that are wholly inappropriate for their stated goals. The paper I want to look at today was a good overall review of how rest intervals should be structured for different training goals including maximal strength, hypertrophy, power production or local muscular endurance.
Looking first at maximum strength training (typically defined as low repetition, heavy weight), the review points out that most strength-oriented programs place a primary emphasis on maintaining training intensity (defined in most research as the percentage of 1 rep max) throughout the sets.
That is, when the goal is maximal strength, you want to be able to use the heaviest weight for the number of reps you intend to do in any given set. This means avoiding a lot of cumulative fatigue and that means complete rest intervals although there are occasional exceptions to this.
Examining a variety of studies along with some theoretical concerns involving ATP regeneration and the nervous system, the review recommends a fairly standard rest interval of 2-5 minutes between sets for maximal strength work. I’d say that this is a recommendation that is certainly consistent with empirical experience.
When training with a system such as 5X5 (discussed in more detail in The 5X5 Program) or even something like 6 sets of 3, rest intervals of 3-5 minutes between maximally heavy sets would be a common recommendation; again this ensures that the heaviest weights can be handled on each set without too much accumulated fatigue.
The paper suggests, however, that when the intensities go above 90% of maximum (generally 3 reps per set or less) short intervals can sometimes be used. In premise, very low reps sets don’t generate much in the way of metabolic fatigue; basically a set of 5 will generate more metabolic fatigue than a set of 1-2 reps. This may make shorter rest intervals workable.
Related to this, some studies have found that short rest intervals can be used when testing 1 repetition maximum, for the same reason; there is less metabolic fatigue from only a single repetition set. Practically I tend to question this a bit , most people testing a true 1 rep max tend to take fairly long rest intervals, 5 minutes or more aren’t uncommon for individuals moving very heavy weights (as well, I’ve seen some claim that you can train yourself to need lest rest on maximum attempts).
I think this is because, even if there is less metabolic fatigue generated, factors of neural fatigue in addition to psychological factors play a role. Testing a true 1 rep max requires an extreme amount of focus and I prefer longer recoveries on test days for this reason.
An additional variable here is the type of movement being done. Olympic lifters will often use fairly heavy weights with, relatively speaking anyhow, shorter rest intervals. This is probably because with the exception of the front squat recovery, a maximal Olympic lift has very little ‘grinding’ to it. A single repetition typically either goes or doesn’t go.
Powerlifters, in contrast, who tend to grind a bit more often require longer rest intervals due to the nature of the lift they are doing. Grinding out a near maximum single tends to be very neurally fatiguing and requires longer rests.
I should note that, while the paper didn’t mention it explicitly, I have seen folks for whom too long of a rest interval actually does more harm than good. This is especially true for highly technical movements, especially when technique isn’t completely stable. Lifters will lose their groove (and this happens most often on Olympic lifts) if they sit around too long between repetitions. As well, some lifters seem to cool down between sets if you let them rest too long. So there can be some individual variance in the length of time taken between heavy sets.
Muscular power training is generally performed to improve how quickly a muscle can generate force. Typically speaking, power training takes the form of moving sub-maximal weights fairly quickly. Various types of medicine ball throws, jumps, the Olympic lifts, or even traditional weight exercises (e.g. squat, bench, deadlift), can be performed in this fashion.
Since the focus, as with maximal strength, is on the quality of movement, fatigue should generally be avoided during this type of training. And the paper suggests similar long rest intervals of 3-5 minutes between sets of power work. This allows maximal quality in each set without accumulated fatigue hampering movement speed.
This is especially true for higher rep efforts such as high rep bounding or higher rep sets of power weight training. Someone performing power endurance work, performing 10 or more fast repetitions per set needs to be fully rested for each set to ensure that movement speed doesn’t slow down. That requires full recovery between sets.
I should note that lower repetition sets are sometimes used (in powerlifting and Olympic lifting) for power work and this won’t require the same long rest intervals since the fatigue from each set tends to be lower. For example, the Westside Barbell approach to dynamic work is multiple low rep sets (10-15X1 for deadlift, 8-10X2 for squat, 8-10X3 for bench) with relatively short rest intervals (45-60 seconds) and a sub-maximal weight (anywhere from 40-60% of 1RM. Since each set is very short and relatively unfatiguing, shorter rest intervals can be used with the quality of work being maintained.
The section on hypertrophy is the one in the paper that I had the most potential disagreement on in terms of their recommended rest intervals. Based on some of the hormonal stuff (Growth Hormone primarily) that’s been floating around for years (but in my opinion has never really been shown to play much role in the growth response), the paper argues for relatively short rest intervals of 30-90 seconds between sets for hypertrophy.
From a real-world perspective, the issue I have with that is that the biggest guys are usually the strongest and often use fairly long rest intervals between heavy sets. As I’ve commented on before, dieted down many big powerlifters have as much if not more muscle size than folks training strictly as bodybuilders.
And at least part of the powerlifter’s training is usually performed with very heavy weights and relatively long rest intervals. Of course, many powerlifters also perform higher reptition work (often with shorter rest intervals) as well so it’s hard to draw a line in the sand between the types of training being done.
I guess my point is that there is more to hypertrophy than giving a simple short or long rest interval can properly address. The interaction of tension with fatigue/metabolic work and tonnage are all involved in the growth stimulus and by the time you get into issues of sarcoplasmic vs. myofibrillar hypertrophy, it starts getting complicated. Some of those issues are addressed in the series on Periodization for Bodybuilders.
Put simply, I think that both longer (complete or near complete) and shorter (incomplete) rest intervals have their place in hypertrophy training. In general, I’ll typically use longer rest intervals when the goal is primarily a tension stimulus (e.g. rest interval of 2-3 minutes for sets of 5-8 reps) and shorter rest intervals when the goal is a fatigue stimulus (e.g. 60 seconds for sets of 12-15 reps).
Finishing up, I will say that i think people who always use 10-15 seconds between sets so that they ‘get real tired’ or ‘get a good pump’ or what have you are shortchanging themselves when it comes to growth. Outside of some specific applications (usually involving rest pause or drop sets), very short intervals tend to drastically decrease how much weight can be used.
As I discuss in Reps Per Set for Optimal Growth, tension is the primary stimulus for growth and very short rest interval systems tend to be fatigue dominant instead of tension dominant. If anything, that hurts growth.
Local Muscular Endurance
Local muscular endurance refers to a muscle’s ability to resist fatigue (usually against high levels of acid production) and, as such, fatigue is a more important stimulus than tension or intensity. Generally high repetitions (15-25 ore more) very short rest intervals (30-60 seconds or less) and circuit type training (to get a more metabolic effect) are used with this type of training.
Although they aren’t necessarily performance oriented, many of the currently popular ‘metabolic weight training’ programs for fat loss actually make a pretty good model for local muscular endurance training.
Summing up this review, practically folks may manipulate rest intervals for different goals according to the following guidelines:
- Maximal strength training: 2-5 minutes between sets. Possibly shorter when intensity is above 90% and reps are three or less.
- Testing 1 rep max: the paper recommends short rest of 1-2 minutes. From a real-world perspective, I’m not sure I agree with this as a general rule.
- Muscular power: generally 3-5 minutes although shorter rests of 30-45 seconds can be used with very short sets (multiple sets of doubles and triples).
- Hypertrophy: the paper recommends incomplete rest intervals of 30-90 seconds but I disagree somewhat with this. I feel that both complete and incomplete rest intervals have their place in hypertrophy training.
- Muscular endurance: Short rest intervals of 30-60 seconds performed in circuit fashion.
- Pole Vaulting for a Hot Body
- Steady State vs. Intervals in Real World Training – Q&A
- Methods of Endurance Training Part 5: Interval Training Part 1
- Steady State and Interval Training: Part 1
- Steady State and Interval Training: Part 2