HOW TO BEAT ‘THE WALL’
There is a way to beat ‘The Wall’ – or at least set it back in time and distance. It’s called glycogen-depletion training or ‘training low’ and it can help the endurance athlete whose event takes more than a couple hours. WARNING – there are risks of impaired recovery and immunity, plus greater stress on body in general – and it may feel terrible while you do it (especially at first), so take care with post-training nutrition and recovery. This is a case where the rule, ‘more is not always better’ definitely applies.
JUST FOR RUNNERS?
People come to OCR from a variety of sporting backgrounds – and succeed. Some of the best OCR athletes have been wrestlers, adventure racers, triathletes, Crossfit athletes, and even ex-kayak/surf ski paddlers, thanks to their strong aerobic capacity and their above-average upper body strength. The terrain and the obstacles in OCR and mud runs break up the rhythm of the elite runner so it’s not all in their favor, plus elite runners are often challenged by the strength component required for some obstacles.
GLYCOGEN VS ‘THE WALL’
“Hitting the wall” in a long endurance event such as a marathon occurs when your body runs out of sugar (stored in your liver and muscles bound into large chains called glycogen). While your body can also burn fat directly for energy, it tends to prefer glycogen, as it is easier to utilise.
A study published by Benjamin Rapoport of Harvard University in 2010 showed that your probability of hitting the wall depends on the amount of glycogen you store in your muscles, how fast you run, your pacing strategy, your body size and your muscle mass. Most research has shown that most advanced runners can run for about two hours at marathon intensity before they run out of glycogen. So if you were able to burn more fat for energy, then you’d be able to make your glycogen stores last longer and you wouldn’t “crash” in the later stages of your event. Simply eating on the run won’t entirely replace all the glycogen you burn, plus your digestive system isn’t very efficient at delivering glycogen to your bloodstream when the body’s under duress from running, cycling, etc.
TURNING ON THE FAT FUEL
Training in a glycogen-depleted state amplifies the activation of signalling proteins (in particular AMPK and MAPK), which, via the signals from the genes, results in adaptations like increased mitochondria – i.e. a better ability to produce energy and burn fat for fuel1. Over time, the body makes adaptations and gets used to both training in a glycogen-depleted state and using more fat for fuel. You can train this in a relatively short time. A Danish study showed that 10 weeks of training in a glycogen-depleted state resulted in an 85% greater increase in time to exhaustion compared with training with high glycogen. Researchers put the increase in endurance down to a larger increase in important enzymes for fat metabolism. Similar results were later confirmed in highly trained cyclists.
The funky catchphrase is “train low, compete high” – that is, do limited training in a glycogen-depleted state, then compete in a glycogen-loaded state. Note that training low can feel terrible and your performance is expected to suffer – the benefits come when you’re back to long-endurance activity in a glycogen-loaded state.
There are two ways to ‘train low’:
1) Training in the morning before breakfast or after fasting for 10-12 hours. Train for 25-100 minutes (building up over time) session at 65-70% heart rate maximum.
2) ‘Double-up’ – train two sessions in the same day, one straight after the other or separated by no more than 1-3 hours, without eating between (or during) sessions. The first is a session of 30-60 minutes at 65-70% heart rate maximum to wear down glycogen stores. The second session is a more intense, long interval session reaching heart rates between 75% and 90% max.
The benefits of both methods are proven, although there is argument over which is better. There’s no doubt that the second method takes more time and is more stressful on the body, so personally I would always advise athletes up to an intermediate level and people who have real problems with ‘The Wall’ to start with the early morning training for six sessions before attempting the double-up method.
It’s important not to overdo the frequency – once per week is plenty and it’s something best begun early in your training cycle. More frequent or extra training in a fasted state doesn’t increase the fat utilisation benefits – it will just impair performance, recovery and immunity.
Closer to a race, you should be doing long sessions in a glycogen-loaded stateso that their overall quality is better, you’re faster and you’ll recover more quickly.
Once you’ve finished a fasted session, fuel up again ASAP to help recovery. Aim for 15-25 grams of protein and 60-100 grams of carbohydrate, depending on your size and the intensity of your session. If you’re doing the double-up method, you should reserve the next day for rest or an easy session.
BETTER ENERGY STORAGE
Danish and Belgian researchers discovered that the low-glycogen trained muscles also became better at soaking up carbohydrate to store muscle glycogen when eating resumed after training. This ‘anabolic rebound’ is big news for athletes who do sports such as ultramarathons or expedition racing, where they will eat several times during the event.
- TRAINING IN A GLYCOGEN DEPLETED STATE PRODUCES MORE STRESS THAN NORMAL. Too many sessions or too long in a glycogen depleted state risks excessive fatigue, reduced motivation and a drop in performance.
- IT’S NO GOOD FOR RESISTANCE TRAINING OR HIGH-INTENSITY TRAINING. When Australian scientists examined the influence of pre-exercise muscle glycogen content on the activity of several genes involved in the regulation of muscle growth, they said “commencing resistance exercise with low muscle glycogen does not enhance the activity of genes implicated in promoting muscle hypertrophy”. Dr Keith Baar, a leading scientist in this field, also said that the greater metabolic stress of training with low glycogen can actually reduce muscle protein synthesis.
- There appears to be no performance benefit for shorter events done at over 70% heart rate maximum, e.g. 10km running, time trial cycling, rowing. Championships where there are heats prior to a final on the same day might be the exception – the capacity to use fat as fuel may improve recovery and therefore benefit subsequent performance.
- IT DOESN’T WORK WITH A HIGH-FAT DIET. Belgian studies demonstrated that when people eat a high fat diet, the advantages of fasted training on ability to utilise fats and on aerobic development are lost.
1 Yeo et al. 2008, Hansen et al. 2005