HIT, mitochondria and health
Jacinta: Well now, I know you’re dying to explore the recently touted benefits of your favourite exercise, so let’s have it.
Canto: Yes, I’m very much a HIT man, that’s high intensity interval training, highly recommendable because it takes so little time and only requires an exercise bike. I was put onto it by one of Michael Mosley’s documentaries, though I’ve been a rather theoretical enthusiast in recent times, having trouble overcoming my laziness and my pain-avoidance tendencies, because though it’s short exercise it is a little painful.
Jacinta: So the recent Catalyst episode has brought your enthusiasm surging back?
Canto: Naturellement, especially as it brings with it some new research to focus on. Mitochondria – what do you know about them?
Jacinta: That they are organelles in our cells, believed to have originated as bacteria but to have united with our eukaryotic cells way back in time in a process known as endosymbiosis. They’re also responsible for producing ATP, the energy molecules… though I’ve no idea how, or what an energy molecule actually is.
Canto: That’s music to my ears.
Jacinta: The dulcet tones of ignorance?
Canto: In the country of the blind the one-eyed science pundit is king, and I’d rather be a king than a commoner, so hear ye, my subject.
Jacinta: I may be blind but I’m all ears, Your Majesty.
Canto: Well, as the Catalyst program tells us, mitochondria are about a billion times smaller than a grain of sand, but the world at nanoscales has really opened up to us in recent decades. Mitochondria are good for us, and the more the merrier. And the evidence is that HIT exercise can not only increase the production of mitochondria but increase their function.
Jacinta: So how do we produce mitochondria?
Canto: Are you going to keep interrupting me with questions? Okay, the production of mitochondria relies on our oxygen intake. The story goes that we fill our lungs with oxygen and it enters the bloodstream for a specific purpose…
Jacinta: Hang on, we fill our lungs with air, not just oxygen, so how does the oxygen get separated, and how does the blood take up the oxygen? Aren’t you skipping a few steps here?
Canto: Yes, go and research it yourself and you can report on it next time. The destination of this inhaled oxygen is the mitochondria. There are billions of these mitochondria in our musculature, though the more fit and trained up you are, the more you’re likely to have. Mitochondria apparently comprise some 10% of our body mass, which I’m sure will come as a surprise. Now oxygen, as you know, acts as a corrosive through the process known as oxidation, which involves the loss of electrons…
Jacinta: Hang on…
Canto: Please shut up. So oxygen can have a negative effect on proteins, enzymes and even our DNA, but mitochondria uses this corrosive electron-stripping power to break down nutrients and to create energy in the form of adenosine triphosphate (ATP). Don’t ask! Of course this doesn’t just happen in humans but in all other mammals and complex creatures, and in plants. And that brings us to physical fitness, and the VO2 Max, which is, essentially, the measure of the fitness of our mitochondria. The term stands for volume (V), oxygen (O2), and of course maximum, though generally those concerned with aerobic fitness don’t make the association with mitochondria, they’re just looking at increasing their maximum oxygen consumption levels. Now it’s not an easy thing for impoverished nonentities like us to find out what our VO2 Max is, but it’s probably pretty pathetic. It’s something that endurance athletes tend to obsess about as they try to improve their performance – I believe rowers in particular have some of the highest levels. I notice there’s at least one VO2 Max app on the market – going very cheap too – but I’d be very sceptical about its reliability. In the testing facility shown on Catalyst they measure it via a version of HIT. They get the subject to ride an exercise bike, building up speed till she’s going as fast as she can, and she can go no faster and starts slowing down. That peak represents her VO2 Max. She will be tested 16 weeks later, after a mere 6 minutes of HIT a week, and you can bet your rented house that her VO2 Max will have substantially improved.
Jacinta: So for us low-lifes – excuse my interruption – who can’t easily or cheaply measure improvements in our VO2 Max or, say, our fat to muscle ratio, we just have to feel the difference in aerobic fitness, mitochondrial health and the like…
Canto: Yeah, and your weight will go down too, if you’re carrying a bit extra, as we both are. And the exertion will make you feel better and healthier, I guarantee it. We all know that the placebo effect is real after all. But seriously, I’m sure if we keep to a regime of HIT – say 3 bursts of 20-second full-pelt pedalling interspersed with a minute or so of more relaxed pedalling, or even if we start with 10-second bursts and then 15-second bursts, maybe eventually getting up to 30-second bursts, we’ll feel it getting easier, and it won’t be purely subjective even if we have no way of objectively measuring it.
Jacinta: But shouldn’t we consult a doctor beforehand? I already feel a heart-attack coming on.
Canto: I know you’re joking, but certainly anyone who has any kind of heart condition, or are diabetic or pre-diabetic or have any other serious chronic condition should discuss it with their GP, but really, apart from your couch potato tendencies, there’s nothing wrong with you.
Jacinta: You’re right, and I’m looking forward to the challenge, even though I’m already a to-die-for, effortlessly slim, perpetually twenty-two year old intellectual beauty..
Canto: And I’m the ultimate metrosexual hipster of indeterminate age and shoe size, discreetly tattooed and tucked…
Jacinta: Ah, yuck, you stupid twat, tattoos are the most repugnant fashion development of all time. At least you’re not a spornosexual, yuk, stay away from the gym or I’ll never speak to you again .
Canto: Promise? Anyway, around 35 is the average VO2 Max, but that’s a bit meaningless for us low-lifes as you say. Top athletes have levels in the 60s and 70s, with the highest ever recorded being around 96 or 97 for humans, but some mammals – like racehorses and Siberian sled dogs – can reach much higher levels. But there’s also going to be a big improvement in your fat-to-muscle ratio with regular bouts of HIT. In the Catalyst episode, the reporter took a DEXA body composition scan to measure this ratio. It also measures bone density. DEXA stands for Dual Energy X-ray Absorptiometry, that means you’re subjected to 10 minutes of very low-dose x-radiation at two different energy levels. It measures the relative densities of the different tissues. You can get this scan done in Adelaide, for a baseline measure, but it’ll probably cost an arm and a leg.
Jacinta: One way to lose weight. Cheaper to just take it for granted that you’re getting more muscular with every HIT.
Canto: Spoken like a true scientist. But generally, inactivity itself is a health problem, and anything that raises your metabolism, as HIT most definitely does, will be good for you, if it doesn’t kill you. And of course one of the most exciting findings in recent times is that your VO2 Max can be raised, with all the associated health benefits, without spending crazy amounts of time and money at the gym.
Jacinta: So how did they make this discovery?
Canto: Well I suppose they were doing a lot of experimenting and testing around the health benefits of exercise, but one test, a Wingate test, involved 30 seconds of all-out pedalling on an exercise bike, repeated a few times between periods of rest, to make up to two or three minutes of full-on exercise per session.
Jacinta: And this was for already-athletic types, right?
Canto: Yes – not advisable for middle-aged or post-middle-aged couch potatoes to start on that regimen. I’m currently doing three fifteen-second bursts, building up to 20-second bursts, then up to 30 seconds and no more. So researchers found that endurance levels can be dramatically improved after just six minutes or so of this kind of exercise. A doubling of endurance capacity, no less. Compare this to the current recommendations of 150 minutes a week. Who ever does that, apart from gym junkies?
Jacinta: So, it’s like this incredible short-cut to health.
Canto: Well of course it isn’t the solution to all ills, but among other things such a quick turn-around is a great motivator towards a healthier lifestyle all round. And it doesn’t have to be an exercise bike – you can adapt it, for example you can get yourself outside and do interspersed 30-second sprints, but I hate running and I’ve got a gammy knee so I’ll stay on the bike.
Jacinta: So, have they looked more into the actual science of this? What’s happening here?
Canto: Well again it seems to be about sucking in oxygen and providing a drug hit to the mitochondria. They did this rather nasty experiment with mice, genetically modifying them so that their mitochondrial DNA wasn’t functioning properly – their mitochondria were getting worn out. They looked pretty sorry-looking compared to the control mice, prematurely ageing as evidenced in their fur, their neural activity, heart function and sensory abilities. Their life-span was about half that of normal mice, and no drugs improved the situation. Then they set them on a treadmill regularly, 3 times a week, at a brisk pace, for 45 minutes each session, which you might think would’ve killed them off all the more quickly, but the result was a spectacular improvement in mitochondria production and overall health and energy levels.
Jacinta: And this was in genetically modified mice?
Canto: Apparently so. The program didn’t go into detail about that, except to say that the bad mitochondria were apparently being selected against. Now of course we’re talking about mice here, and this was looking at endurance fitness rather than HIT, but it’s been shown that HIT does all the right things, and in some areas performs better than endurance training. Reductions in blood pressure, improvements in insulin sensitivity, in muscle to fat ratio, in VO2 max all in a matter of weeks, but the really interesting finding was that with HIT, improvement in mitochondrial function was significant – which wasn’t the case after endurance training.
Jacinta: How do they know that?
Canto: They took muscle samples and measured the ability of the muscles to produce oxygen – basically a measure of mitochondrial function. After just four weeks of HIT, mitochondrial function improved by up to 30%, while endurance training over the same period showed little or no change.
Jacinta: Wow. Doesn’t say much for endurance training.
Canto: Well endurance training does improve your VO2 max and it’s hardly bad for you. But the thing with these quick sprints is the difference at the muscle level. Sports medicine distinguishes between fast-twitch, slow-twitch and intermediate muscle fibres. HIT uses a wider range of muscles and muscle types than endurance work, and that seems to be the key. Improvement in mitochondrial function confers a heap of benefits, so this kind of exercise wards off neurological and other conditions, including muscle weakness and epidermal deterioration, the tell-tale signs of ageing. In fact all exercise does this. Ever heard of the stratum corneum?
Jacinta: Mmmm, corneum, cornea, isn’t that part of the eye?
Canto: Excellent guess but wrong in this case. The stratum corneum is the top layer of the epidermis, the skin. It starts to thicken as you age, and the layer underneath gets thinner as your mitochondrial function reduces. You can slow down that process quite significantly with regular exercise. They did skin biopsies of sedentary people over 65 before and after endurance training. After just 3 months the skin showed great improvement – a 20 to 30 ‘youthening effect’, according to one researcher. The dead outer layer thinned, and the dermis, full of collagen fibres, thickened. So, clearly, you’re never too old to start.
Jacinta: Or never too young. So okay I’ll start.
Canto: Great, but let me describe one more impressive study, being done on menopausal women using HIT. Menopause is about a major decline in estrogen, which has serious vascular, heart and metabolic effects, as well as insulin resistance. You tend to produce a lot of bad visceral fat which negatively affects the liver, due to the over-production of cytokines – but that’s another story. Anyway, the women were given a sprint regime, of just a short period of fast peddling interspersed with more relaxing peddling, amounting to eight minutes of fast but not hard exercise all up. The results of this research haven’t been published yet, but the women’s self-reporting is all very positive, which isn’t surprising. The research is also based on previous research with obese young men, and the exercise proved very effective. Visceral fat is generally much easier to reduce than subcutaneous fat.
Jacinta: Okay, so we’re going to do this?
Canto: Absolutely. And finally, here are some links.
The Catalyst episode, http://www.abc.net.au/catalyst/stories/4319131.htm
https://newsroom.unsw.edu.au/news/health/sprint-fight-fat
High-Intensity Training and Changes in Muscle Fiber, [www.springerlink.com/content/1137px7x66667132]
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