In a study comparing adolescent football players to swimmers, cyclists and a control group of boys not involved in regular sport, scientists at the University of Exeter found football led to significantly better bones after one year of training.
Adolescence is the key period for bone development, and poor development at this stage is linked to reduced peak bone mass, increased fracture risk and osteoporosis later in life.
Though swimming and cycling have proven health benefits, the scientists said their study “raises a question” about whether they are good for bone development due to the non-weight-bearing training, and they say young swimmers and cyclists could benefit from more weight-bearing exercise in training regimes.
“Our research shows that playing football can improve bone development in comparison to swimming and cycling,” said first author Dimitris Vlachopoulos, of Sport and Health Sciences at the University of Exeter.
“Though we focused on aspiring professionals who played as much as nine hours a week, playing football for three hours a week might be enough for a substantial effect.
“We already knew exercise was key for bone growth, but here we clarify what type of exercise.
“Although we didn’t study other sports, it’s reasonable to suppose that weight-bearing, high-impact, high-intensity exercise like tennis, badminton, basketball and handball will have similar effects to football.”
The year-long study, of 116 boys aged 12-14, took a variety of measures including bone mineral content (BMC).
BMC measurements were taken at the lumbar spine and femoral neck – both key sites for fractures and osteoporosis.
The results showed football players had higher BMC than swimmers and cyclists after one year of sport-specific training.
For example, football players’ BMC was seven per cent higher than that of cyclists at the lumbar spine, and five per cent higher at the femoral neck.
Dr Gracia-Marco said: “The sports we studied are the three most popular in the UK, and it’s important to know what effects they have in relation to bone health.
“Adolescence is the key time for bone growth. Once a person reaches puberty, the next five years are vitally important in this respect.”
The athletes in the study were all playing high–level sport – the football players in Exeter City FC’s youth setup, and the swimmers and cyclists at leading clubs in the South West.
The boys in the control group, though generally active, were not involved in regular sport.
Despite the many health benefits of cycling and swimming, the study found little difference in bone development between cyclists, swimmers and the control group.
“This raises a question about whether swimming and cycling are good for bone development,” Dr Gracia Marco said.
“We now need to consider how to counteract the lack of bone growth stimulus caused by cycling and swimming, possibly by encouraging swimmers and cyclists to add weight-bearing exercise in their training.”
One innovative aspect of the study was the measurement of bone texture of the lumbar spine using trabecular bone score (TBS) – the first use of this technique in adolescent athletes.
Source: University of Exeter
Reference: Dimitris Vlachopoulos, and others. Longitudinal Adaptations of Bone Mass, Geometry and Metabolism in Adolescent Male Athletes. The PRO-BONE Study. Journal of Bone and Mineral Research, 2017; DOI: 10.1002/jbmr.3206