It’s important to remember that these are merely suggestions from multiple authors and studies. Shorter rest can benefit hypertrophy and muscular endurance adaptations. Higher rest is beneficial for strength and power, along with multi-joint movements. Research tends to agree on similar numbers when it comes to strength and hypertrophy. There are multiple factors that constitute quality rest in-between sets. They found that the athletes who were supine or seated produced more work and rested more efficiently. The authors took 15 members of the CrossFit community in Salt Lake City, Utah, and compared three different resting positions in-between sets: supine (lying down), seated, and walking.Īuthors also recorded heart rate, respiratory rate, and oxygen consumption, as these are all indicators of one’s state of rest. ![]() Suggestions: The evidence is conflicting in regards to muscular endurance, but they note that a few studies have highlighted that 20 seconds to 1-minute was sufficient for this adaptation.ĭoes the Position of How You Rest Matter?Īn interesting study from December of 2016 looked at the differences between an athlete’s work output and the positions they rested in. The authors reviewed previous literature to infer and make suggestions for training adaptations on interset rest periods. Training for muscular endurance: A study published in 2009 analyzed multiple rest intervals for strength training. When performing the bench press (multi-joint) near maximal load, the subjects responded best to a 3-5 minute rest. Suggestions: They noted that at least 2-minutes rest was sufficient for the machine fly group (single-joint exercise) when performing near maximal weight. ![]() They trained near their maximal strength performing 3-RM loads for 5 sets. The authors looked at 15 trained men who lifted for eight sessions with two different exercises (machine chest fly and bench press). Training for power: A study published in March of 2016, looked at differences between 1, 2, 3, and 5-minute rest intervals. Suggestions: The group that rested 3-minutes saw a greater increase in muscular strength and hypertrophy compared to the 1-minute group. Workout programs were consistent between the two and lasted a total of 8-weeks. One group utilized 1-min rest, while the other 3-minutes. Training for strength & hypertrophy: A study published in July of 2016, was led by head author Brad Schoenfeld to compare two resistance trained groups with different rest intervals. Intensity: High and low training intensities will influence the amount of rest needed to perform optimally.Ī photo posted by Mike Dewar on at 3:19pm PDT Training status: In-season, off-season, trained, and untrained will all have an effect on how someone’s body will recover and how much rest they need. Dynamic movements paired together will require more rest, than single-joint movements. For example, compound movements are more demanding on the nervous system and muscles, which will require more rest.Įxercise order: The structure of a workout will influence rest time. Type of exercise: The type of exercise will influence rest intervals due to the demand it places on the body. Strong lifters can maintain an intensity with less rest because their body has built the strength and neural efficiency to do so. Strength level: Stronger lifters have the ability to maintain a higher intensity for an extended period, as opposed to a newer lifter. They will recover better than someone who’s newer in the gym. ![]() Training history: How long has someone been lifting? A higher training age will suggest a lifter’s ability to handle more stimulus. These vary from athlete-to-athlete and could be things like, time constraints, type of muscle contraction, etc. Keep in mind that there are smaller components too that are not listed. The list below highlights a few of the main components to consider when programming. When it comes to programming this variable for yourself or others, there should be consideration of multiple factors. In addition, we’ll look at general guidelines science suggests to maximize your rest. This article will look at multiple factors to consider when programming rest times. Like everything in the exercise world, the word “perfect” can be elusive and misleading. For example, it’s generally agreed upon that those working on strength and power should take longer rest intervals. Then on the contrary, those working towards a cardiovascular/endurance benefit should utilize brief rest intervals. Rest intervals are an important variable to consider when working towards a training adaptation. This is usually common knowledge among lifters, but is there a “perfect” rest time? For example, heavier multi-joint exercises with low-reps receive longer rest, while lighter single-joint movements receive less rest. It’s generally understood that rest time is dependent on type of exercise, training goal, and rep scheme.
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