There are 3 main types of contraction that you will commonly see in any gym workout: concentric, isometric, and eccentric. To illustrate these, picture a bicep curl.
Characterised by a muscle shortening, such as your bicep while curling a weight up.
Where the muscle lengthens, but you are still applying tension, such as lowering the weight down under control.
A lot of exercises will have a concentric contraction, followed by an eccentric contraction for each rep. A bench press has an eccentric phase of lowering the bar, followed by a concentric phase of pushing the bar up. A squat has an eccentric phase of lowering down, followed by a concentric phase of standing up.
Where a muscle is tensed, however it doesn’t change length, such as holding a plank, or if you pause at any stage of a rep.
A lot of people focus on the concentric phase, and try to lift the weight with control, however this article will look into just how important the eccentric phase is, which is often not appreciated.
Why Use Negative Training?
#1 Push Past Failure
You are up to 20-30% stronger eccentrically than concentrically (1). This means that if you can bench press 100kg, then you may be able to slowly lower up to 130kg. So in a session where you are benching 100kg to failure, you are reaching failure concentrically, but not eccentrically.
Think of a time where you’ve lifted a weight to failure – it’s more than likely that you reached failure while trying to lift the weight, rather than during the lowering part of the movement. What ‘negative training’ does, is helps you to go on to push your eccentric strength to failure, rather than just your concentric strength.
This will allow you to push even further in your workouts.
#2 Greater Hypertrophy
Several studies have compared concentric and eccentric contractions, and different combination, to try and find how they influence both hypertrophy and strength. One study (2) used a combination of contractions on leg press and knee extension and found concentric lifting by itself was not effective at inducing muscle growth, and suggested that contractions require an eccentric phase in order to evoke hypertrophy.
A 2009 review (3), concluded that eccentric training can induce greater hypertrophy than concentric contractions, however only when the weight used during eccentric contractions is heavier. Another study (4) looked at how different speeds of bicep curl contraction could affect muscle growth.
Participants who lowered the weight at around 180 degrees per second experienced greater hypertrophy as well as strength gains. This equates to a downward phase lasting about 1 second, compared to a group that had a downward phase lasting about 6 seconds.
#3 Strength Gains
Research suggests that eccentric training is also able to produce greater strength increases than concentric contractions (3, 4). Interestingly though, the strength gains seen are more specific, suggesting that resistance training should incorporate a combination of concentric and eccentric contractions.
It has been shown that for optimum strength increases, a resistance training programme should involve different resistances on the concentric and eccentric phases. A 2002 study (5) had one group complete 4 sets of 10 reps of bicep curls, at 75% of 1-rep max, and then another group completed just 3 sets of 10 reps, and although they curled up 75% of their 1-rep max, on the lowering phase, the weight machine applied a force of 120% of their 1-rep max.
The group that had the varying weight produced significantly greater concentric strength in their elbow extensors.
#4 Plateau Breaking
Think of the first few times you worked out, or even a time when you’ve not trained for a while, and have then got back into it. The first few workouts will make you ache, because your body isn’t used to the way it’s being used. If you have now reached a stage where your body has adapted to the way you train, it can often be difficult to keep progressing.
Changing up your training to involve more eccentric contractions can help test your body in new ways, enabling you to break through plateaus you may have reached.
It’ll help recruit new and different muscle fibres than you’re used to, and shock your body into a new training stimulus, which can help break through any training plateaus you may have reached.