Athletes with a larger bottom are able to reach higher running speeds, a study has found.
The study revealed that the size of a number of muscles relate to the time it takes sprinters to run 100 metres, with the gluteus maximus explaining 44 per cent of the variability in performance.
Experts found that for top sprinters, some muscles, such as hip extensor muscles, were far bigger compared to sub-elite sprinters, but others were similar, such as calf muscles.
Previous research has found that the growth of the gluteus maximus muscle was a key factor in the evolution of early human running capabilities.
Rob Miller, a PhD student at Loughborough University and a strength and conditioning coach with British Athletics, and Professor Jonathan Folland, an expert in neuromuscular performance, used a magnetic resonance imaging (MRI) to measure the size of 23 lower body muscles in 42 men - five elite sprinters, 26 sub-elite and 11 untrained men.
Among the elite and sub-elite sprinters there was variability in performance with 100 metre personal bests that ranged from 9.91 to 11.25 seconds.
The researchers found the gluteus maximus was 45 per cent bigger in elite sprinters than sub-elite sprinters.
Prof Folland said: "This is surprising because sprinting is thought to be influenced by many factors - technique, psychology, nutrition, anatomy of other structures - so to find a single muscle that alone seems so important, explaining nearly half the variability, is remarkable.
"It appears that muscle size is more important for fast running than we thought and especially the size of the hip extensors and gluteus maximus."
He added: "The logical implication is that with a larger gluteus maximus the runner will be able to generate more power and therefore greater sprint speed.
"Thus, increasing the size of the gluteus maximus in particular, as well as the other hip extensor muscles, would be expected to improve sprint performance."
Researchers say the study, published in the journal Medicine and Science in Sports and Exercise, has the potential to revolutionise the physical training and performance of athletes.
Mr Miller, the first author of the paper, said: "I believe this line of research has the potential to have a significant impact on coaches and practitioners working with elite level sprinters - it is unusual to find research on truly elite athletes and it's exciting to have found specific characteristics that seem to differentiate between the good and very-good."
The team is now building on the research with a study focused on female sprinters.
It is also collecting data for a comparison of muscle anatomy of runners competing over different distances.
Additional reporting by agencies.