It might need attention and not just rest (Image: Dejan Sarec via Getty Images)
Yesterday morning, nearly 60,000 runners took on the London Marathon, pushing their bodies through extreme and, in many cases, unprecedented physical demands. Countless participants will have been battling blisters, fighting off cramp or gritting their teeth through pain well before they even glimpsed the finish line on The Mall, 26.2 miles later.
Experts say it is around mile eighteen that joints which had been holding up well during training begin to voice their complaints, with the knees, feet and hips in particular all crying out for attention simultaneously. In many instances, runners will have felt perfectly fine as they crossed the finish line, yet according to orthopaedic surgeon and body regeneration specialist Professor Paul Lee, feeling fine and actually being fine are two entirely different matters.
Paul said: “By the time you finish a marathon, your body is not just fatigued, it is in a state of biological stress and micro-damage. A marathon places an extraordinary cumulative load on every joint, tendon and muscle in the lower body. It’s often around mile 18 that the body begins to revolt.
“By mile 20, most runners have depleted their glycogen stores, the primary fuel for muscular contraction. This is when the body shifts to burning fat, a less efficient process that accelerates fatigue. By the time you cross the finish line of the London Marathon, your body is under biological stress, even if you feel fine.”
Paul explained that recovery was not merely rest, but a biological, scientific process — and that the 72 hours following a marathon are, in his clinical experience, the most critical: “During this three-day window after the race, the body will either adapt and rebuild, or accumulate damage that slowly progresses toward something more serious.
It could be new territory for some people (Image: Alamy/PA)
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“What the body actually needs in those 72 hours is not passive rest but active biological support. Circulation must be maintained to clear the inflammatory waste building in damaged tissues.
“Cellular energy production, depleted significantly during a marathon, needs to be restored at the level of the mitochondria. These are the power stations inside every cell that drive repair through the production of adenosine triphosphate (ATP). Without that energy, the repair process simply stalls. This forms the basis of Recovery Medicine, which is a clinical approach focused on supporting the body’s repair and adaptation processes rather than reacting to symptoms alone.”
Paul highlighted one method of rejuvenating the body following the physical demands of a marathon was red light therapy. This treatment utilises wavelengths that penetrate beneath the skin’s surface to bolster mitochondrial ATP production, and it boasts a well-established evidence base in both sports recovery and the reduction of inflammation.
He added: “Electrical muscle stimulation, similar to the recovery devices used by elite athletes and sports physiotherapists, produces controlled muscle contractions without adding mechanical load to already stressed joints. This supports circulation and prevents the compensation patterns that develop when the body unconsciously protects an area of damage. Left unchecked, those patterns become the source of the next injury.”
’48-hour’ warning
Paul noted that the majority of post-marathon discomfort cleared up within two weeks with adequate rest and nutrition: “The human body’s capacity for repair and regeneration never stops surprising me, even after decades as a surgeon. It wants to heal. And our job is simply to let it.”
However, he cautioned that any notable swelling or bruising around a joint, pain that deteriorates after 48 hours, any loss of sensation, or an inability to bear weight should all prompt professional assessment rather than simply waiting and watching.
He added: “The most common injuries I see following long-distance events are repetitive strain injury, tendinitis and stress fractures of the bone. By the time a runner reaches the later miles, the tissues sustaining these injuries are already inflamed and depleted, which is precisely what makes them so slow to resolve if left untreated.
“Most runners have a training plan, yet very few have a recovery plan. But it is recovery that determines whether the body adapts or breaks down.”
