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Healthy older adults (n = 123, average age 72.0 years, body mass index 25.8 kg/m2) completed three 45-min supervised exercise sessions per week for 6 months. Participants were randomised to treadmill-based moderate-intensity training (n = 45), or high-intensity interval training (n = 41) or a low-intensity active control condition (n = 37), with individualised heart-rate prescription. Dual-energy x-ray absorptiometry was used to quantify body composition at baseline, and at 3 and 6 months.
ok they didn't even include light/moderate weight lifting as another control, so this is a fairly poorly executed study
basically it comapres hiit with treadmill walking in which case yes, it's slightly more useful, but hiit also causes a lot of damage in a lot of ways
I think it's important to note that this study, at least to my understanding, compared cardio training - not weightlifting or resistance training. Participants did 3 weekly sessions of either low intensity, moderate treadmill excercise or HIIT ( 4-min @ 85–95%, 3min 60-70% ).
I get the feeling some commenters here are misunderstanding this as a lot of the discussions seems to center about weightlifting.
Additionally from what I understood the biggest difference was that the HIIT group lost less muscle while fat loss was roughly the same.
It is supermaximal effort protocol, participants are required to exert maximum effort repeatedly.
The duration of active phase of Tabata is 20 seconds, half of approximately 40 seconds after which maximum performance (power output) drops significantly, because body switches to a different energy system.
In my experience, Tabata squats are done in range of 16-21 per 20 seconds of active phase. So, basically, Tabata squats are equal to somewhat less than 8 sets of 16-20 repetitions done close to failure. The failure usually come after first active phase, so that's why there are "somewhat less than 8 sets." I personally define failure as breakage of exercise form or exercise pace, and this is what I and others experience in Tabata squats.
And you know what? If you go close to failure, muscle mass and strength grow in the range of 5 to 35 repetitions [1].
Other HIIT protocols are similar. For example, 3 one-minute-active-phase-one-minute-rest supermaximal protocol also leans close to "3 sets of 35 repetitions done to failure" - squats' pace noticeably quickly deteriorate to 1 squat in two seconds.
Tabata is the craziest workout ever, with Tabata sprints I couldn't feel my legs 3 minutes in and after 4 minutes all I could do was to vomit while shaking on the ground. 7-minute workout with as many reps as possible (even if not in perfect form) helped more overall.
So that’s for building muscle, but what about if you wanted to lose a few kilos and increase endurance for long distance running? What would be the way to go to optimise your time?
Eat less to lose the weight. Tirzepatide or something similar makes that a lot easier.
Tabata (the sprint/recover running technique) was developed, I believe, to increase VO2-max. It should help with overall endurance, and you can go on a long run each week. That would probably be efficient.
If you want to increase endurance for running I think the general suggestion is to hit the track and do running? Get your mile time down or similar.
In my personal experience I've found strength training better for losing weight than just cardio but any activity will help a bit. You'll really need to adjust your diet in some way for it though, or at least start counting and keep your calories steady as you do more activity. Trying to outburn what you eat takes like an hour of exercise a day otherwise, it's tough.
Strength training has more of a positive effect on body composition.
The problem with doing a lot of cardio is that you need muscle to burn calories (especially so without injury and as you get older), and too much medium intensity cardio will start to chew up lean mass.
No harm in doing a bit of both though, especially if your goal is fitness/maintenance rather than maximum strength or a particular look.
This study is completely unsurprising to me having read a lot of fitness studies over the years. Work muscles harder, muscles get stronger. That is how hormesis goes. The fat loss is simple energy expenditure. You are still producing roughly the same work as someone doing more steady state work. Only effect that might come up is post exercise metabolism elevation but that effect is relatively small and probably present for both groups.
If you do aerobic exercise, almost all the energy comes from burning fat. Because your body will have used very little glucose, you're unlikely to feel particularly hungry after that exercise.
If you do anaerobic exercise, almost all the energy comes from glycogen stores. Your body will crave carbohydrates immediately after exercise, and only resort to glucogenesis burning fat if you don't fuel enough afterwards.
There's a significantly higher risk of over-consumption after doing anerobic exercise and aerobic exercise because your body wants to replace the glycogen that got used up.
"If you do aerobic exercise, almost all the energy comes from burning fat. " This is directionally incorrect. Your body will burn both concurrently. For low intensity aerobic exercise, fat is used as the dominant energy source. However even at moderate intensity levels like jogging and "zone 2" aerobic you are 50/50. At higher intensity you have crossed the inflection point and are using more glycogen than not. All strictly aerobic exercise. And it all works on a balance anyway. You use glycogen, it gets replaced until everything is topped off. Doing that means it isn't getting converted to fat.
Both forms of exercise are shown to have an "anti-hunger" effect.
And unless you are walking, your body is also shunting blood away from your gut which also has a secondary hunger dampening effect as it doesn't resume blood flow too it immediately.
So for anything we would call aerobic exercise, that is zone 2 "cardio" or greater, I would have to disagree with your main claims about it.
> This is directionally incorrect. Your body will burn both concurrently.
For aerobic exercise, your body gets around 95% of the energy from burning fat. If you are doing exercise where you are 50/50, then it is by definition no longer aerobic exercise but anaerobic.
Anaerobic exercise starts at the point that your body is forced to use glucose from glycogen to provide energy because you have reached the limit of the energy your body can produce from burning fat, because your body can't provide oxygen at the rate required to do so.
There are two exercise intensity thresholds related to respiration: VT1 and VT2 (ventilatory threshold).
Everything from minimal activity far below VT1 to VT2 (a.k.a. "lactate threshold", LT, a.k.a. "anaerobic threshold", AT) is "aerobic".
Near the VT2 limit, very little fat is used compared to glucose. Fat burning proportions as high as 95% are only reached under very light activity. (And/or in glycogen depleted exercisers whose body has switched to fat out of necessity). That doesn't represent the entire aerobic range.
There is aerobic use of glucose (below the lactate threshold, "clean burning") and anaerobic (above AT, generating lactic acid).
A useful parameter is the absolute fat burn rate. Maximal fat burning does not occur at exercise intensities that derive a large proportion of energy from fat. Supposedly, this "FatMax" exercise intensity fairly closely coincides with the VT1 threshold. Here, around 60% of the energy comes from fat.
I'm "fat checking" all this as I type; I used to know more about this stuff, but forgot a lot.
I thought it would help illustrate what you're saying but, gosh, those Y axes aren't making things easy to interpret. For those willing to do the mental arithmetic, 1g of FAT is 9 kcal and 1g of CHO is 4 kcal. :)
Can you clarify your last paragraph, looks like there’s a typo or grammatical error that states the same outcome for both arguments put forward in the preceding paragraphs.
Also worth noting that not all muscle mass is the same. Too many people read these things and lacking context, they get swindled one way and then another.
No, you also need cardio. Even if your heart rate goes up while lifting, it's sustained cardio that really improves your cardiovascular health, keeping your heart rate up in zone 2+ for 45+ minutes at a time a few times a week.
So warning about super-high intensity workouts. For a good while I would sprint hard as possible up 8 flights of stairs everyday instead of taking the elevator. I would do this multiple times per day (3,4 sometimes 5) with no warm-up/cool-down . Each time I would try to push for a PR, figuring might as well go for it! One day, after about a year of doing this, I noticed my heart rate at the top felt a little off. I tested with my watch and it said I was in AFIB. I was able to get back to normal sinus rhythm via getting zapped at the ER, but ever since then if I push too hard (usually on longer runs, going all out) I end up back in AFIB. Though it will reset the next morning.
This could be pure coincidence, but I would recommend doing proper warm-up and cool-down before going all out with HIIT. FYI I'm in my 40's.
Regardless of the sport you practice, you probably need to be doing some form of periodization. You can’t go for PRs every session because at some point your body stops being able to recover => you get hurt.
You may want to talk to your doctor about potential exercise-induced cardiac remodeling. Not an expert on this at all. But it’s an injury mode that’s been recently characterized due to sudden deaths among young, seemingly-healthy sprinters.
This happens to me occasionally, but it's typically stimulant and blood sugar related.
There are some indications that it might be related to ion availability in your body, so copper, zinc, and calcium specifically. You may also consider that HF RF found in phones, wifi, and Bluetooth can do not great things to the calcium channels in cell walls (it essentially locks the channels open in some cases).
There are a lot of factors to this, but these are things I've picked up in my reading for my own issues.
Also a significant increase in AFIB risk for runners. I am doing around 10-20MPW over the last 5 years. Not sure if this is enough training load, but I've had a habit of pushing too hard on my runs as well.
One thing that I think gets looked past in studies like this is the “noob gains” effect. These participants are healthy adults but not highly trained. It’s pretty well known, in cycling at least, that hard interval training is super effective for untrained people or people coming back from a break, but the gains plateau relatively quickly, and the stress of doing this kind of work is hard to sustain for long periods. Another notable thing is that they are doing 45 minute sessions regardless of intensity, in the real world it’s common for lower intensity sessions to be longer, and for those sessions to be a foundation on which higher intensity sessions are carefully added.
I doubt it. In my experience (at least when it comes to lifting), newbie gains last at least a year. Good chance that if they've been untrained all their life (or the majority of it) that phase is gonna last a real long time.
I've read a looot of physiology studies about running, and the same dynamics hold true there. This is a flaw (IMO) of of the whole "Norwegian 4x4 protocol" you hear parroted around by biohacker/longevity influencer online, of course with 0 nuance or context of the underlying study and its limitations
> It’s pretty well known, in cycling at least, that hard interval training is super effective for untrained people or people coming back from a break, but the gains plateau relatively quickly, and the stress of doing this kind of work is hard to sustain for long periods.
This is 100% experience with both cycling and running, and something I worked out on my own early on, prior to the advent of smartphones and even talking to anyone who knew anything.
I enjoy sprinting, both running and cycling, but it’s mostly something I do to regain my endurance ability after a break. Two two weeks of high intensity interval training, and then I’m able to sustain moderate intensity jogging for 30+ plus again, or an hour cycling.
Careful before you assume you'll have the same outcomes. That's a group of people who are already fairly light compared to the American populace, and likely are suffering from sarcopenia of sorts and have low potential to gain much more muscle. (Protein absorption, hormone profile)
> Dietary intake was assessed using a 3-day food diary at baseline and analysed for total energy intake (kcal) and macronutrient intake (kcal) by a dietician dietary analysis software (Foodworks, Xyris®, AUS).
So this is both recall + ad libitum. The change could be due to hormone profile, the exercise itself, inadvertent changes in consumption, inadvertent changes in NEAT.
I'm with ya at 29.4. I carry a lot more muscle than the average populace, so I'm both high BMI and appear to be "fit" to casual onlookers. But dexa says 26% which is about double what I would like.
Insulin -- the fat storing hormone. The opposite hormones -- cortisol and adrenaline mobilize fat tissue for burning. Chronic cortisol leads to fat gain because cortisol receptors become desensitized. Spiking cortisol in short bursts is better than long bouts of elevated cortisol.
Some move all their lives and keep adapting their movements as their age. Others did not move much through the lives and when they hit 60s and they start loosing the mobility, doctors suggest for them to move more, if anything.
If you never hiked and you start hiking in your 60s for health reasons.
Pick up short flat trails.
Everyone talking about strength training: that’s nice, but it’s not what this study was about. That doesn’t make it a bad study, it just means you’re looking for a different study.
I think this results vary depending on whether or not a person exercises regularly.
After just six months of training, older adults who do not exercise regularly may see significant changes, but those who exercise regularly are likely to see only minor changes.
> “High-intensity training reduced fat and maintained lean mass […] though changes were small and not clinically meaningful compared with exercise of lower intensity…”
High intensity does border on leading to injury — just making the wrong move — and you’re back to zero intensity?
Where are you getting this? The study was about various intensities of cardio - I didn't see it noted, but I'm guessing the high- and medium-intensity groups were on a treadmill, elliptical, or similar. Pretty small chance of injury for the durations they mention, especially as the subjects were monitored while exercising.
And I'm not really surprised by the study - building lean muscle mass takes resistance training, which wasn't part of the study. The study results appear to be inline with what was common knowledge/experience.
And if you're injuring yourself regularly during weight training or other gym activities, I'd suggest you might hire a good coach/trainer for guidance and programming, because that shouldn't happen either.
> And if you're injuring yourself regularly during weight training or other gym activities, I'd suggest you might hire a good coach/trainer for guidance and programming, because that shouldn't happen either.
After a certain age, it's difficult to train somewhat intensely without risking injury. You can always find some exercises that work and maintain a physical activity, but this may not be enough to maintain your muscle mass or your stamina.
Sure, thus the "find a trainer" suggestion. :shrug: You aren't wrong, but for somebody who has been active and healthy, intense exercise deep into their 60s should be possible.
Not sure a trainer is a silver bullet. After 50, it gets increasingly harder to improve as we become more and more injury-prone and start developing chronic issues.
Staying active and fit should be reachable for most, but high-intensity or competitive sports become a privilege for those with good genetics. Most of us switch to low-impact sports such as cycling, swimming, hiking, bodyweight training and so on...
This is specifically cardio. High intensity interval training can be safe, for example, air bike, battle ropes, etc. High intensity running does have higher injury risk.
I avoided - or that was my intention until the game started - the 50/50s but my calf and hamstring still felt the pain the next day
Totally worth it though
To build muscle, you need to push yourself to a limit. You can reduce the weight and increase the repetitions. This approach is just as effective and lowers the risk of injury.
Maybe with older adults the baseline goal should be to merely maintain or slow the loss of the muscle, mobility, and cardiovascular capacity they already have? It's not realistic for a 50 year old to think they could build muscle year-after-year for the next 30 years.
For the next 30 years, probably not, but mostly because you can get really strong really quickly, as most adults are really weak.
It's not that unusual for people to pick up e.g. powerlifting past 50 and still get to levels well beyond what most younger adults can lift.
I'm 51, and recently back into powerlifting after many years out of it, and I certainly expect to build back muscle and improving week over week for many years before I can't stem the decline any more, as long as avoid injury or health issues that takes me out of the gym - avoiding time off exercise is the biggest challenge with getting older.
The time off from exercise is not a bad thing; even when forced due to holidays and being sick, life et al. As we age, we need more of that rest time. For those of us on the back 9, its critical to avoid those injuries because they set us back.
Rest time of a couple of days is good. I'm not talking about that.
But more than a week and you'll typically need to deload to avoid DOMS. More than a few weeks and it will start taking significant time to work back up, and a lot of injuries happens because people try to rush that recovery and add even more time to that.
If you regularly lose weeks at higher age, it quickly becomes tricky to avoid tipping over into lasting decline.
However, if you are a male and age 50 you can definitely expect to still build muscle up to 60 if you are diligent with your strength training. You can maintain mass 60-70. You do need a little more protein. I collected as much proven data and studies on this as I could: https://stealthgoat.com/building-muscle.html
This is what I do. When I was beginning with weight training, I followed other's recommendations back then and pushed hard. Had quite often minor issues or injuries in the joints which set me back for weeks or even months, my tendons seem to be my weak spot and it does get worse with age, both limits and recovery.
Lowered the load, increased repetitions and basically nothing for a decade. I can still go almost to the failure, I don't even want to reach it since I don't care about that extra bit. Squats or deadlifts are hard even when not at limits, one feels used body parts for a day or two.
I still add cardio on top of that, its just basic logic of moving around a lot is very good for the body, even if effects are not immediately obvious.
Starting is a bit hazy, it was 15 years ago. I gradually got to cca 100kg deadlifts (maybe 5-6 reps each set) and maybe 70kg squats of similar reps/sets.
These days its more about 15 reps, still 3 sets (plus one just 20kg barbel warmup). When I feel like I could do more, i add 3 or 5 reps, and/or do things slower, especially the lowering part. Weight wise its cca 60kg deadlifts, 50kg squats. I feel like I could do more, but with worse form and thats not a good idea.
There are similar numbers for bench presses, dumbbell curls and few other exercises I sometimes add to mix.
I was never bodybuilder and never looked accordingly but I didn't care, any strong-enough body is attractive to females, good confidence is present and connection to one's body is very good. It was always just training for actual stuff - long hikes, climbing, ski touring etc. Now with kids and after quite brutal paragliding accident that left me wheelchair-bound for few weeks, walked after 6 months and have some permanent changes in calcaneus, I am happy with anything and above is good enough for me, just need to sustain it.
You just need to build back up to high intensity training over time by consistently exercising and pushing yourself. Injury comes from pushing yourself too hard too soon. Unless you are approaching 50 (and even then) you can recover most of your fitness from your early 20s.
No joke. I go to the gym a couple times a week so that I'll maintain mobility and won't injure myself as I age - unfortunately 80% of my injuries come from the gym.
hahah, so true. Also, there are multiple ways to do high intensity exercising that are very unlikely to injure you, like stationary bikes. High intensity only means going to a very high heart rate, you can do this in any way you like it.
This is highly unusual. You shouldn’t be injuring yourself that frequently at the gym, especially if your goal
Is just to maintain mobility and basic muscle mass as you age.
This is such a strange thing to hear, as someone who also has gone to the gym a couple times per week for my life with a lot of different gym buddies.
I would suggest considering a reset of your gym routine and gym knowledge, possibly with the help of a physical therapist to see what you’re doing wrong.
If you’re going to one of those gyms that encourage dumb things like doing heavy lifts in a timed competition format or other bad ideas that were trendy in the 2010s, I really recommend getting out of those environments.
My experience is that every movement pattern causes "injuries" like a sore tendon, wrenched back, inflamed shoulder that surface with every 20 pounds of added weight until I figure out what about my form is incorrect. Usually not something a trainer would see like "don't flare your elbows", internal stuff like "use your glute medius to help push" or "elbows in line with the torso on squats" that might be in 1 of 20 YouTube videos.
I use the weight training to surface the injuries to make me aware of what I'm doing wrong in daily movements. I might finally be past this and able to just go in and push weights but it's taken years. I feel like it's down to the body I'm living in and what I consider a pain threshold, not any risk taking or lack of information.
Only the 80% number was given. If he has been going to the gym for 30 years and had 5 injures at the gym, one outside that would be incredibly low for a total, and that level of carelessness at the gym is lower than I'd expect. If his routine was over 1 month then there are big problems.
Lift less weight then, there is no reason to get injured in the gym if you have a normal body, proper form and lift reasonable weight. From an health point of view it's better to squat/deadlift a mere 60kg safely than trying to go for 200kg+ and snap a disk for absolutely no reason. 100% of my injuries are gym related, because I threw my back exactly once, and since then I lift reasonable weights and focus on proper execution/form
Some people believe "high intensity" means lifting as much as possible as fast as possible, I'd say more reps and deliberately slow movements are as intense for the purpose of staying in shape/healthy.
Most body weight exercises are virtually impossible to fuck up to the point of injury, done properly they'll keep you fitter than 99% of the population
this happens to me quite frequently. i grew up playing years of baseball and my throwing shoulder is a bit loose as it is. combined with the way i fall asleep (on my stomach with my forearm under my pillow) i tend to dislocate or severely strain it pretty regularly
There are plenty of high intensity activities with low risk of injury. Rowing and swimming come to mind.
I think the bigger problem is that, as far as I can tell, very few people have the appropriate personality type for high intensity exercise. Most people seem to experience it just as pointless discomfort.
There is no correlation between exercise intensity and likelihood of injury, this is nonsense. You could e.g. just as well make one wrong move when going for a one rep max.
In my experience, there's a middle ground. Don't go for 1 to 3 rep maxes. Go for 4-6 rep maxes for a set and then follow it by set to failure in the 8-12 rep range. That gives a good mix of both intensity and volume while still reducing risks of injury as the weights are heavy but not crazy heavy to compromise form.
Calisthenics is a really easy way to push intensity at basically 0 risk of injury. They're all compound and depending on the variation could require high reps, but between push ups, pull-ups, squats, their numerous variations, and accessory work, I would challenge anyone to actually injure themselves while also being able to push to true technical failure.
It is very possible to injure yourself with calisthenics. Shoulder impingement or tendinitis from pullups with too much intensity/bad form for example. Weight is weight.
Ugh, tendonitis recovery is so slow and annoying in middle age. I had to stop training pull-ups for the best part of a year. Starting again now, but easing in gently as I'm very motivated to not have that again. I'm 220lb/100kg so even if strong enough that's a lot of weight on unadapted tendons.
This is not good advice and please remove the “basically 0 risk of injury” wording. Mobility is a limiting factor and poor body positioning WILL result in injury. Barbells are safe, progressively overloadable, and learning to move them is a straight line is what most people need to do before a lot of calisthenics training. Most people can’t even do 1 pull up.
From my son's experience in calisthenics and looking around at the group he sometimes trains with, there are definitely a lot of overload/overuse injuries, at a range from just needing rest to bicep tears.
They measured body composition. Is that your goal? Remember this is for 70 year olds (and a small sample size), even if you got to the ideal 70 year old body, you won't look that good naked - which is all body composition is directly good for. My guess is you care more about health (you should break this down into more details of what health means) and long life.
Body composition is a factor in health and long life. However there are many confounding factors if that is your goal and so you cannot draw any conclusions unless the sample size is very large, and the study runs over a very long time. Thus we get a lot of small studies that study something easy and hope that this is a good proxy for what we really care about. Sometimes science eventually figures the proxy is good, sometimes not, but often we still don't know. (meta studies have been really helpful here)
Large sample sizes are very expensive to study, a grad student without large grants can study 50-100[1] people alone, which makes the study cheap enough that they can do it. This was a 6 month study, again making it something a grad student could do leaving plenty of time to then write the paper and get it published. (Each subject was studied for 6 months, I'm not clear if they were all studied at once, or if different subjects had different start/end dates). All respect for the grad students who do this - despite all the problems I've pointed out[2], they still did a lot of work.
[1] I've never been a grad student, much less one in a field where you would study this. The 50-100 number feels right in my uneducated opinion, but if someone with more knowledge says something I accept their correction in advance.
[2] I wonder what other problems someone in this field could point out.
Just read the study... It was not inconclusive, they found that HIIT was the most effective level of exercise intensity to improve body composition in the ages of people that were studied. It just wasn't a meaningful improvement over medium intensity.
This was all treadmill. I would expect that medium intensity treadmill, combined with weight training, would have same positive results as the “HIT” treadmill group but without feeling like you’re dying or triggering AFib.
No, but past recommendations for older adults (note that the average age in the study was 72 years old) were towards "gentle" or moderate exercise. We're seeing a shift now towards recommending real weight lifting and higher intensity as we age. ("Real" -> closer to powerlifting in terms of goals and methods)
It says nothing about weightlifting. The high intensity training is on a treadmill. Also, "changes were small and not clinically meaningful compared with exercise of lower intensity and considering measurement error." The study is really not noteworthy and certainly not a basis for changing any population wide recommendations.
Mostly because functional strength is useful and keeps you alive. major goals as you age are avoiding falls and being able to continue doing things for yourself. Strength fits that bill pretty well (and it also improves fat free mass).
And on a slightly more technical note, recovering from higher volume becomes harder as you age, so focusing on a smaller number (5ish) of reps at higher weight gives you adaptation without quite as much stress.
But I should be clear, when I said real lifting, I don't mean to exclude any form of well calibrated progressive overload, whether that's strength focused or hypertrophy focused. I do mean to exclude the "go to the gym and lift a 10 lb weight the same number of reps each time" BS
Because hypertrophy is generally pointless compared to strength. The hyperthrophy that naturally accompanies strength work is sufficient but the strength that accompanies hypertrophy work is far less beneficial.
one of the best proxy we've for Hypertrophy is getting progressively stronger in medium rep range. (8-12)
The title says they are focused on improving body composition which is boosting lean mass, lowering of fat mass which kinda seems achieved best by focusing on Hypertrophy and fat loss?
Your strength comes both from your nervous system and physiology. Training your nervous system without also building a proper physical foundation to handle tension is a fast track to injury.
Read my comment more carefully if you think I'm describing the study instead of providing more general context for why people might find this particular study interesting.
There was plenty of obvious, common sense assumptions that didn't hold at all when methodically tested, like sugar rush in children. And this specific type of studies tries to find a sweet spot between benefits and effort taken. Some results were unexpected, If I recall correctly on found that having to take three flights of stairs daily outperformed many exercise regimes designed for elderly.
I have met people who figured, because they don't excercise they don't wear their body out, so their joints etc. will last longer. Same for injury, no sport no injury, that must be good!
In a way this is right with high intense/extreme sport. (I did Thai Boxing in my youth, but stopped at some point)
But it is very wrong otherwise, joints for example will suffer if not moved. Blood will only flow into all the areas of the joints if they are moved. And if you don't move, your muscles will be gone and without muscles to hold your joints, loss of stability, great risk of injury, etc.
I got codex to count my total heartbeats from my Garmin data. For four random days the counts were 72.252, 73.823, 68.922, 70.991.
According to google: "typical range for total heartbeats is 86,400 to 115,200 beats per day"
I run every day which would add a lot of beats, but my resting HR is 36 (pushed down by exercise i presume) with a daily average of 50 BPM. So in total a trained person may spend less of their heart beats.
Most people who talk about adding milage to a car have never tried to keep an old car running. Those who do have long learned that milage is a tiny issue, age is a much larger factor. They have also learned that low milage is a bad sign - what is wrong that you only drove it that much: often the answer is city driving which puts a lot more wear on the car than highway driving.
People who exercise regularly have a lower resting heart rate. You can likely remove 10,000 heartbeats per day just by doing 20 minutes of exerciser per day.
I don't believe the limited heartbeats theory, but it does support the idea of exercise.
Sports and exercise are definitely beneficial, but any sort of activity presents a risk of injury.
If people work out, or play sports, without knowing proper form, without using protection or precautions, they'll get injured and then worse off than before. Realistically, manual laborers should be in real good shape, but often their jobs are so low-wage, and they're so interchangeable, that safety precautions are ignored and must be regulated/enforced.
I took up roller skating and was rewarded with a broken leg. I took up gym exercise and was repaid with a hernia. Both required surgery. No regrets! Only wished I could've better understood how to exercise safely!
I once encountered a FB group that was for people to discuss "sports injuries sustained while we were in bed" and I could totally relate, having done weird stuff to my shoulder overnight, rather than pitching a baseball game...
> Healthy older adults (n = 123, average age 72.0 years, body mass index 25.8 kg/m2) completed three 45-min supervised exercise sessions per week for 6 months. Participants were randomised to treadmill-based moderate-intensity training (n = 45), or high-intensity interval training (n = 41) or a low-intensity active control condition (n = 37), with individualised heart-rate prescription. Dual-energy x-ray absorptiometry was used to quantify body composition at baseline, and at 3 and 6 months.
ok they didn't even include light/moderate weight lifting as another control, so this is a fairly poorly executed study
basically it comapres hiit with treadmill walking in which case yes, it's slightly more useful, but hiit also causes a lot of damage in a lot of ways
> "but hiit also causes a lot of damage in a lot of ways"
Please do explain this.
Technically weight lifting (muscle hypertrophy) also causes "damage" but in a controlled an beneficial way.
I would guess they mean hiit can traumatize e.g. joints or cardiovascular system, especially for the elderly.
"hiit also causes a lot of damage in a lot of ways"
Oh! I didn't know about this. Are there any references you could quote?
I think it's important to note that this study, at least to my understanding, compared cardio training - not weightlifting or resistance training. Participants did 3 weekly sessions of either low intensity, moderate treadmill excercise or HIIT ( 4-min @ 85–95%, 3min 60-70% ).
I get the feeling some commenters here are misunderstanding this as a lot of the discussions seems to center about weightlifting.
Additionally from what I understood the biggest difference was that the HIIT group lost less muscle while fat loss was roughly the same.
HIIT is a borderline strength training.
Consider Tabata protocol.
It is supermaximal effort protocol, participants are required to exert maximum effort repeatedly.
The duration of active phase of Tabata is 20 seconds, half of approximately 40 seconds after which maximum performance (power output) drops significantly, because body switches to a different energy system.
In my experience, Tabata squats are done in range of 16-21 per 20 seconds of active phase. So, basically, Tabata squats are equal to somewhat less than 8 sets of 16-20 repetitions done close to failure. The failure usually come after first active phase, so that's why there are "somewhat less than 8 sets." I personally define failure as breakage of exercise form or exercise pace, and this is what I and others experience in Tabata squats.
And you know what? If you go close to failure, muscle mass and strength grow in the range of 5 to 35 repetitions [1].
[1] https://www.youtube.com/watch?v=dN_c4sQwfTI
PS
Other HIIT protocols are similar. For example, 3 one-minute-active-phase-one-minute-rest supermaximal protocol also leans close to "3 sets of 35 repetitions done to failure" - squats' pace noticeably quickly deteriorate to 1 squat in two seconds.
Tabata is the craziest workout ever, with Tabata sprints I couldn't feel my legs 3 minutes in and after 4 minutes all I could do was to vomit while shaking on the ground. 7-minute workout with as many reps as possible (even if not in perfect form) helped more overall.
So that’s for building muscle, but what about if you wanted to lose a few kilos and increase endurance for long distance running? What would be the way to go to optimise your time?
Eat less to lose the weight. Tirzepatide or something similar makes that a lot easier.
Tabata (the sprint/recover running technique) was developed, I believe, to increase VO2-max. It should help with overall endurance, and you can go on a long run each week. That would probably be efficient.
If you want to increase endurance for running I think the general suggestion is to hit the track and do running? Get your mile time down or similar.
In my personal experience I've found strength training better for losing weight than just cardio but any activity will help a bit. You'll really need to adjust your diet in some way for it though, or at least start counting and keep your calories steady as you do more activity. Trying to outburn what you eat takes like an hour of exercise a day otherwise, it's tough.
Strength training has more of a positive effect on body composition.
The problem with doing a lot of cardio is that you need muscle to burn calories (especially so without injury and as you get older), and too much medium intensity cardio will start to chew up lean mass.
No harm in doing a bit of both though, especially if your goal is fitness/maintenance rather than maximum strength or a particular look.
Longer slower running burns more fat because your body isn’t forced to use as much glycogen as faster paced running.
I guess the answer for optimizing time is to get a home treadmill if removing the commute to a trail/track will make the timing work.
Overnight hiking. It's not boring, and you get 7 hours of hiking in with a backpack per day.
And if you're Andrew Skurka, in peak form, you'll get 15 hours in per day.
https://www.keithfoskett.com/the-andrew-skurka-interview/
This study is completely unsurprising to me having read a lot of fitness studies over the years. Work muscles harder, muscles get stronger. That is how hormesis goes. The fat loss is simple energy expenditure. You are still producing roughly the same work as someone doing more steady state work. Only effect that might come up is post exercise metabolism elevation but that effect is relatively small and probably present for both groups.
> The fat loss is simple energy expenditure.
But it's not, unless there is a calorie deficit.
If you do aerobic exercise, almost all the energy comes from burning fat. Because your body will have used very little glucose, you're unlikely to feel particularly hungry after that exercise.
If you do anaerobic exercise, almost all the energy comes from glycogen stores. Your body will crave carbohydrates immediately after exercise, and only resort to glucogenesis burning fat if you don't fuel enough afterwards.
There's a significantly higher risk of over-consumption after doing anerobic exercise and aerobic exercise because your body wants to replace the glycogen that got used up.
"If you do aerobic exercise, almost all the energy comes from burning fat. " This is directionally incorrect. Your body will burn both concurrently. For low intensity aerobic exercise, fat is used as the dominant energy source. However even at moderate intensity levels like jogging and "zone 2" aerobic you are 50/50. At higher intensity you have crossed the inflection point and are using more glycogen than not. All strictly aerobic exercise. And it all works on a balance anyway. You use glycogen, it gets replaced until everything is topped off. Doing that means it isn't getting converted to fat.
Both forms of exercise are shown to have an "anti-hunger" effect.
And unless you are walking, your body is also shunting blood away from your gut which also has a secondary hunger dampening effect as it doesn't resume blood flow too it immediately.
So for anything we would call aerobic exercise, that is zone 2 "cardio" or greater, I would have to disagree with your main claims about it.
> This is directionally incorrect. Your body will burn both concurrently.
For aerobic exercise, your body gets around 95% of the energy from burning fat. If you are doing exercise where you are 50/50, then it is by definition no longer aerobic exercise but anaerobic.
Anaerobic exercise starts at the point that your body is forced to use glucose from glycogen to provide energy because you have reached the limit of the energy your body can produce from burning fat, because your body can't provide oxygen at the rate required to do so.
There are two exercise intensity thresholds related to respiration: VT1 and VT2 (ventilatory threshold).
Everything from minimal activity far below VT1 to VT2 (a.k.a. "lactate threshold", LT, a.k.a. "anaerobic threshold", AT) is "aerobic".
Near the VT2 limit, very little fat is used compared to glucose. Fat burning proportions as high as 95% are only reached under very light activity. (And/or in glycogen depleted exercisers whose body has switched to fat out of necessity). That doesn't represent the entire aerobic range.
There is aerobic use of glucose (below the lactate threshold, "clean burning") and anaerobic (above AT, generating lactic acid).
A useful parameter is the absolute fat burn rate. Maximal fat burning does not occur at exercise intensities that derive a large proportion of energy from fat. Supposedly, this "FatMax" exercise intensity fairly closely coincides with the VT1 threshold. Here, around 60% of the energy comes from fat.
I'm "fat checking" all this as I type; I used to know more about this stuff, but forgot a lot.
This article has a graph from a lab test:
https://knowledgeiswatt.substack.com/p/20-120-vs-90-gh-of-ca...
I thought it would help illustrate what you're saying but, gosh, those Y axes aren't making things easy to interpret. For those willing to do the mental arithmetic, 1g of FAT is 9 kcal and 1g of CHO is 4 kcal. :)
P.S. It also only starts at 150W.
Can you clarify your last paragraph, looks like there’s a typo or grammatical error that states the same outcome for both arguments put forward in the preceding paragraphs.
I can't edit it now as it was posted more than 2 hours ago, but good spot.
"anerobic exercise and aerobic exercise" should have read "anerobic exercise compared to anaerobic exercise".
some people may become experience increased appetite from workout while others may have hunger dampening effect.
but bigger reason imho is that people overestimate calorie burn from exercises and fool themselves into thinking now it's OK to consume more food.
I would have thought the fat loss comes from hormonal changes, not merely the energy used during exercise.
Also worth noting that not all muscle mass is the same. Too many people read these things and lacking context, they get swindled one way and then another.
can you tldr me if weightlighting will put me roughly in the "hiit" group discussed in the paper, and give me its benefits?
No, you also need cardio. Even if your heart rate goes up while lifting, it's sustained cardio that really improves your cardiovascular health, keeping your heart rate up in zone 2+ for 45+ minutes at a time a few times a week.
So warning about super-high intensity workouts. For a good while I would sprint hard as possible up 8 flights of stairs everyday instead of taking the elevator. I would do this multiple times per day (3,4 sometimes 5) with no warm-up/cool-down . Each time I would try to push for a PR, figuring might as well go for it! One day, after about a year of doing this, I noticed my heart rate at the top felt a little off. I tested with my watch and it said I was in AFIB. I was able to get back to normal sinus rhythm via getting zapped at the ER, but ever since then if I push too hard (usually on longer runs, going all out) I end up back in AFIB. Though it will reset the next morning.
This could be pure coincidence, but I would recommend doing proper warm-up and cool-down before going all out with HIIT. FYI I'm in my 40's.
Regardless of the sport you practice, you probably need to be doing some form of periodization. You can’t go for PRs every session because at some point your body stops being able to recover => you get hurt.
You may want to talk to your doctor about potential exercise-induced cardiac remodeling. Not an expert on this at all. But it’s an injury mode that’s been recently characterized due to sudden deaths among young, seemingly-healthy sprinters.
Very interesting. I can also get Afib after many years of high intensity exercise
This happens to me occasionally, but it's typically stimulant and blood sugar related.
There are some indications that it might be related to ion availability in your body, so copper, zinc, and calcium specifically. You may also consider that HF RF found in phones, wifi, and Bluetooth can do not great things to the calcium channels in cell walls (it essentially locks the channels open in some cases).
There are a lot of factors to this, but these are things I've picked up in my reading for my own issues.
> FYI I'm in my 40's.
Bad news: Age is a risk factor for AFIB. The older you get, the more likely it is to happen.
Also a significant increase in AFIB risk for runners. I am doing around 10-20MPW over the last 5 years. Not sure if this is enough training load, but I've had a habit of pushing too hard on my runs as well.
One thing that I think gets looked past in studies like this is the “noob gains” effect. These participants are healthy adults but not highly trained. It’s pretty well known, in cycling at least, that hard interval training is super effective for untrained people or people coming back from a break, but the gains plateau relatively quickly, and the stress of doing this kind of work is hard to sustain for long periods. Another notable thing is that they are doing 45 minute sessions regardless of intensity, in the real world it’s common for lower intensity sessions to be longer, and for those sessions to be a foundation on which higher intensity sessions are carefully added.
This study followed everyone for 6 months so they probably got past that factor.
I doubt it. In my experience (at least when it comes to lifting), newbie gains last at least a year. Good chance that if they've been untrained all their life (or the majority of it) that phase is gonna last a real long time.
A year of continuous gains for a 72 year old? I highly doubt it. For a skinnyfat 20 year old, sure.
> I highly doubt it.
Not a very convincing discussion point without some support.
I stand corrected then.
I've read a looot of physiology studies about running, and the same dynamics hold true there. This is a flaw (IMO) of of the whole "Norwegian 4x4 protocol" you hear parroted around by biohacker/longevity influencer online, of course with 0 nuance or context of the underlying study and its limitations
> It’s pretty well known, in cycling at least, that hard interval training is super effective for untrained people or people coming back from a break, but the gains plateau relatively quickly, and the stress of doing this kind of work is hard to sustain for long periods.
This is 100% experience with both cycling and running, and something I worked out on my own early on, prior to the advent of smartphones and even talking to anyone who knew anything.
I enjoy sprinting, both running and cycling, but it’s mostly something I do to regain my endurance ability after a break. Two two weeks of high intensity interval training, and then I’m able to sustain moderate intensity jogging for 30+ plus again, or an hour cycling.
> average age 72.0 years, body mass index 25.8
Careful before you assume you'll have the same outcomes. That's a group of people who are already fairly light compared to the American populace, and likely are suffering from sarcopenia of sorts and have low potential to gain much more muscle. (Protein absorption, hormone profile)
> Dietary intake was assessed using a 3-day food diary at baseline and analysed for total energy intake (kcal) and macronutrient intake (kcal) by a dietician dietary analysis software (Foodworks, Xyris®, AUS).
So this is both recall + ad libitum. The change could be due to hormone profile, the exercise itself, inadvertent changes in consumption, inadvertent changes in NEAT.
Erm that's higher than the healthy BMI range, so not "fairly light". >25 is considered overweight.
It's still lighter than the average American BMI, which is around 29. On average, Americans are classified as overweight.
Yes thats what i was referring to, you're both correct on your respective angles.
My BMI is 28.7 at 181cm and 94kg at 45.25 years old.
Am I overweight, not far off obesity?
You probably wouldn’t say so if you saw me.
BMI is mostly only a useful metric when it is.
I'm with ya at 29.4. I carry a lot more muscle than the average populace, so I'm both high BMI and appear to be "fit" to casual onlookers. But dexa says 26% which is about double what I would like.
> NEAT
non-Exercise Activity Thermogenesis?
I’m a bit of a fitness enthusiast, but not enthusiastic enough to have come across all the acronyms.
Insulin -- the fat storing hormone. The opposite hormones -- cortisol and adrenaline mobilize fat tissue for burning. Chronic cortisol leads to fat gain because cortisol receptors become desensitized. Spiking cortisol in short bursts is better than long bouts of elevated cortisol.
Some move all their lives and keep adapting their movements as their age. Others did not move much through the lives and when they hit 60s and they start loosing the mobility, doctors suggest for them to move more, if anything. If you never hiked and you start hiking in your 60s for health reasons. Pick up short flat trails.
'were small and not meaningful' why is this on the front page of HN?
The perennial question.
Well, at least it’s spurred intellectually curious discussion.
Is it? What I mostly see is people describing their anecdotal experience and opinions about exercise in general.
I assume that only a few of them are actually in the age group of 65-85, so relevance of personal experience is dubious.
To be fair there are some questioning the study methodology and conclusions.
Everyone talking about strength training: that’s nice, but it’s not what this study was about. That doesn’t make it a bad study, it just means you’re looking for a different study.
this gets reheated over and over…
look at the study period.
hiit is not sustainable beyond a brief period. by definition you can only do a limited amount of high intensity before you get cooked.
what you really want is periodization and looking over long periods and aggregate volumes
I think this results vary depending on whether or not a person exercises regularly. After just six months of training, older adults who do not exercise regularly may see significant changes, but those who exercise regularly are likely to see only minor changes.
> “High-intensity training reduced fat and maintained lean mass […] though changes were small and not clinically meaningful compared with exercise of lower intensity…”
High intensity does border on leading to injury — just making the wrong move — and you’re back to zero intensity?
High intensity does border on leading to injury
Where are you getting this? The study was about various intensities of cardio - I didn't see it noted, but I'm guessing the high- and medium-intensity groups were on a treadmill, elliptical, or similar. Pretty small chance of injury for the durations they mention, especially as the subjects were monitored while exercising.
And I'm not really surprised by the study - building lean muscle mass takes resistance training, which wasn't part of the study. The study results appear to be inline with what was common knowledge/experience.
And if you're injuring yourself regularly during weight training or other gym activities, I'd suggest you might hire a good coach/trainer for guidance and programming, because that shouldn't happen either.
> And if you're injuring yourself regularly during weight training or other gym activities, I'd suggest you might hire a good coach/trainer for guidance and programming, because that shouldn't happen either.
After a certain age, it's difficult to train somewhat intensely without risking injury. You can always find some exercises that work and maintain a physical activity, but this may not be enough to maintain your muscle mass or your stamina.
Sure, thus the "find a trainer" suggestion. :shrug: You aren't wrong, but for somebody who has been active and healthy, intense exercise deep into their 60s should be possible.
> Sure, thus the "find a trainer" suggestion
Not sure a trainer is a silver bullet. After 50, it gets increasingly harder to improve as we become more and more injury-prone and start developing chronic issues. Staying active and fit should be reachable for most, but high-intensity or competitive sports become a privilege for those with good genetics. Most of us switch to low-impact sports such as cycling, swimming, hiking, bodyweight training and so on...
This is specifically cardio. High intensity interval training can be safe, for example, air bike, battle ropes, etc. High intensity running does have higher injury risk.
Everyone just needs to play soccer and avoid the 50/50s if you're an adult that wants to be pain free the next day.
I love me some adult coed soccer. And it can be very high intensity intermittently if you feel like it.
The study is about 70 year olds. I’m not sure it’s a good idea for the average 70 year old to be engaging in contact sports…
they play walking soccer
I avoided - or that was my intention until the game started - the 50/50s but my calf and hamstring still felt the pain the next day Totally worth it though
Hurting the ego will likely make you not play the next game
The ego is the enemy.
(I recommend the book w that title by Ryan Holiday)
Really depends on how you define high-intensity.
To build muscle, you need to push yourself to a limit. You can reduce the weight and increase the repetitions. This approach is just as effective and lowers the risk of injury.
Maybe with older adults the baseline goal should be to merely maintain or slow the loss of the muscle, mobility, and cardiovascular capacity they already have? It's not realistic for a 50 year old to think they could build muscle year-after-year for the next 30 years.
For the next 30 years, probably not, but mostly because you can get really strong really quickly, as most adults are really weak.
It's not that unusual for people to pick up e.g. powerlifting past 50 and still get to levels well beyond what most younger adults can lift.
I'm 51, and recently back into powerlifting after many years out of it, and I certainly expect to build back muscle and improving week over week for many years before I can't stem the decline any more, as long as avoid injury or health issues that takes me out of the gym - avoiding time off exercise is the biggest challenge with getting older.
The time off from exercise is not a bad thing; even when forced due to holidays and being sick, life et al. As we age, we need more of that rest time. For those of us on the back 9, its critical to avoid those injuries because they set us back.
Rest time of a couple of days is good. I'm not talking about that.
But more than a week and you'll typically need to deload to avoid DOMS. More than a few weeks and it will start taking significant time to work back up, and a lot of injuries happens because people try to rush that recovery and add even more time to that.
If you regularly lose weeks at higher age, it quickly becomes tricky to avoid tipping over into lasting decline.
The only problem with time off is it breaks habits. a couple days off and suddenly you haven't done anything for months.
However, if you are a male and age 50 you can definitely expect to still build muscle up to 60 if you are diligent with your strength training. You can maintain mass 60-70. You do need a little more protein. I collected as much proven data and studies on this as I could: https://stealthgoat.com/building-muscle.html
This is what I do. When I was beginning with weight training, I followed other's recommendations back then and pushed hard. Had quite often minor issues or injuries in the joints which set me back for weeks or even months, my tendons seem to be my weak spot and it does get worse with age, both limits and recovery.
Lowered the load, increased repetitions and basically nothing for a decade. I can still go almost to the failure, I don't even want to reach it since I don't care about that extra bit. Squats or deadlifts are hard even when not at limits, one feels used body parts for a day or two.
I still add cardio on top of that, its just basic logic of moving around a lot is very good for the body, even if effects are not immediately obvious.
> Squats or deadlifts are hard even when not at limits, one feels used body parts for a day or two.
That’s just regular ‘ol DOMS and not a problem.
Tendons tend to respond well to both heavy load or high reps, albeit adaptation in either case is very slow.
So, how many reps did you start with and how many do you do nowadays?
Starting is a bit hazy, it was 15 years ago. I gradually got to cca 100kg deadlifts (maybe 5-6 reps each set) and maybe 70kg squats of similar reps/sets.
These days its more about 15 reps, still 3 sets (plus one just 20kg barbel warmup). When I feel like I could do more, i add 3 or 5 reps, and/or do things slower, especially the lowering part. Weight wise its cca 60kg deadlifts, 50kg squats. I feel like I could do more, but with worse form and thats not a good idea.
There are similar numbers for bench presses, dumbbell curls and few other exercises I sometimes add to mix.
I was never bodybuilder and never looked accordingly but I didn't care, any strong-enough body is attractive to females, good confidence is present and connection to one's body is very good. It was always just training for actual stuff - long hikes, climbing, ski touring etc. Now with kids and after quite brutal paragliding accident that left me wheelchair-bound for few weeks, walked after 6 months and have some permanent changes in calcaneus, I am happy with anything and above is good enough for me, just need to sustain it.
Well, your body knows nothing about number of reps or the weights. You can also do your reps slower.
You just need to build back up to high intensity training over time by consistently exercising and pushing yourself. Injury comes from pushing yourself too hard too soon. Unless you are approaching 50 (and even then) you can recover most of your fitness from your early 20s.
No joke. I go to the gym a couple times a week so that I'll maintain mobility and won't injure myself as I age - unfortunately 80% of my injuries come from the gym.
If most of your injuries come from the gym, I recommend you get a trainer.
hahah, so true. Also, there are multiple ways to do high intensity exercising that are very unlikely to injure you, like stationary bikes. High intensity only means going to a very high heart rate, you can do this in any way you like it.
This is highly unusual. You shouldn’t be injuring yourself that frequently at the gym, especially if your goal Is just to maintain mobility and basic muscle mass as you age.
This is such a strange thing to hear, as someone who also has gone to the gym a couple times per week for my life with a lot of different gym buddies.
I would suggest considering a reset of your gym routine and gym knowledge, possibly with the help of a physical therapist to see what you’re doing wrong.
If you’re going to one of those gyms that encourage dumb things like doing heavy lifts in a timed competition format or other bad ideas that were trendy in the 2010s, I really recommend getting out of those environments.
My experience is that every movement pattern causes "injuries" like a sore tendon, wrenched back, inflamed shoulder that surface with every 20 pounds of added weight until I figure out what about my form is incorrect. Usually not something a trainer would see like "don't flare your elbows", internal stuff like "use your glute medius to help push" or "elbows in line with the torso on squats" that might be in 1 of 20 YouTube videos.
I use the weight training to surface the injuries to make me aware of what I'm doing wrong in daily movements. I might finally be past this and able to just go in and push weights but it's taken years. I feel like it's down to the body I'm living in and what I consider a pain threshold, not any risk taking or lack of information.
Only the 80% number was given. If he has been going to the gym for 30 years and had 5 injures at the gym, one outside that would be incredibly low for a total, and that level of carelessness at the gym is lower than I'd expect. If his routine was over 1 month then there are big problems.
Getting injured at the gym shouldn’t be such a problem that someone has to mention it.
You don’t need to be pedantic about the 80% number.
Lift less weight then, there is no reason to get injured in the gym if you have a normal body, proper form and lift reasonable weight. From an health point of view it's better to squat/deadlift a mere 60kg safely than trying to go for 200kg+ and snap a disk for absolutely no reason. 100% of my injuries are gym related, because I threw my back exactly once, and since then I lift reasonable weights and focus on proper execution/form
Some people believe "high intensity" means lifting as much as possible as fast as possible, I'd say more reps and deliberately slow movements are as intense for the purpose of staying in shape/healthy.
Most body weight exercises are virtually impossible to fuck up to the point of injury, done properly they'll keep you fitter than 99% of the population
80% of my injuries occurred while sleeping, which seems very weird.
The neck is quite vulnerable during sleep and could lead to neck muscle injuries that leave one with a stiff neck for days.
I knew someone who dislocated her shoulder often while sleeping. If I remember right, she's dislocated it 17 times or some ridiculous number.
For me it's often a foot sprain, but exercising has made it less frequent.
this happens to me quite frequently. i grew up playing years of baseball and my throwing shoulder is a bit loose as it is. combined with the way i fall asleep (on my stomach with my forearm under my pillow) i tend to dislocate or severely strain it pretty regularly
Isn't it easier for it to happen again once it's happened at least once?
Are you hypermobile?
My son is and once subluxed his shoulder while running
There are plenty of high intensity activities with low risk of injury. Rowing and swimming come to mind.
I think the bigger problem is that, as far as I can tell, very few people have the appropriate personality type for high intensity exercise. Most people seem to experience it just as pointless discomfort.
There is no correlation between exercise intensity and likelihood of injury, this is nonsense. You could e.g. just as well make one wrong move when going for a one rep max.
Going for one rep max is intense. If it weren't, you could get a better max.
In my experience, there's a middle ground. Don't go for 1 to 3 rep maxes. Go for 4-6 rep maxes for a set and then follow it by set to failure in the 8-12 rep range. That gives a good mix of both intensity and volume while still reducing risks of injury as the weights are heavy but not crazy heavy to compromise form.
Calisthenics is a really easy way to push intensity at basically 0 risk of injury. They're all compound and depending on the variation could require high reps, but between push ups, pull-ups, squats, their numerous variations, and accessory work, I would challenge anyone to actually injure themselves while also being able to push to true technical failure.
It is very possible to injure yourself with calisthenics. Shoulder impingement or tendinitis from pullups with too much intensity/bad form for example. Weight is weight.
Ugh, tendonitis recovery is so slow and annoying in middle age. I had to stop training pull-ups for the best part of a year. Starting again now, but easing in gently as I'm very motivated to not have that again. I'm 220lb/100kg so even if strong enough that's a lot of weight on unadapted tendons.
This is not good advice and please remove the “basically 0 risk of injury” wording. Mobility is a limiting factor and poor body positioning WILL result in injury. Barbells are safe, progressively overloadable, and learning to move them is a straight line is what most people need to do before a lot of calisthenics training. Most people can’t even do 1 pull up.
From my son's experience in calisthenics and looking around at the group he sometimes trains with, there are definitely a lot of overload/overuse injuries, at a range from just needing rest to bicep tears.
Lots of overuse injuries in calisthenics:
https://www.tandfonline.com/doi/full/10.2147/OAJSM.S394044
Poor form is possible with calisthenics and that leads to injuries or other problems.
“though changes were small and not clinically meaningful compared with exercise of lower intensity and considering measurement error”
So the the research is inconclusive?
They measured body composition. Is that your goal? Remember this is for 70 year olds (and a small sample size), even if you got to the ideal 70 year old body, you won't look that good naked - which is all body composition is directly good for. My guess is you care more about health (you should break this down into more details of what health means) and long life.
Body composition is a factor in health and long life. However there are many confounding factors if that is your goal and so you cannot draw any conclusions unless the sample size is very large, and the study runs over a very long time. Thus we get a lot of small studies that study something easy and hope that this is a good proxy for what we really care about. Sometimes science eventually figures the proxy is good, sometimes not, but often we still don't know. (meta studies have been really helpful here)
Large sample sizes are very expensive to study, a grad student without large grants can study 50-100[1] people alone, which makes the study cheap enough that they can do it. This was a 6 month study, again making it something a grad student could do leaving plenty of time to then write the paper and get it published. (Each subject was studied for 6 months, I'm not clear if they were all studied at once, or if different subjects had different start/end dates). All respect for the grad students who do this - despite all the problems I've pointed out[2], they still did a lot of work.
[1] I've never been a grad student, much less one in a field where you would study this. The 50-100 number feels right in my uneducated opinion, but if someone with more knowledge says something I accept their correction in advance.
[2] I wonder what other problems someone in this field could point out.
Just read the study... It was not inconclusive, they found that HIIT was the most effective level of exercise intensity to improve body composition in the ages of people that were studied. It just wasn't a meaningful improvement over medium intensity.
That is a conclusion.
... though changes were small and not clinically meaningful compared with exercise of lower intensity and considering measurement error.
Why even share this research ?
The study is conducted on 123 people.
This was all treadmill. I would expect that medium intensity treadmill, combined with weight training, would have same positive results as the “HIT” treadmill group but without feeling like you’re dying or triggering AFib.
In other news, water is wet
I’m genuinely confused. Was there any doubt before this study that sport makes people healthier?
No, but past recommendations for older adults (note that the average age in the study was 72 years old) were towards "gentle" or moderate exercise. We're seeing a shift now towards recommending real weight lifting and higher intensity as we age. ("Real" -> closer to powerlifting in terms of goals and methods)
It says nothing about weightlifting. The high intensity training is on a treadmill. Also, "changes were small and not clinically meaningful compared with exercise of lower intensity and considering measurement error." The study is really not noteworthy and certainly not a basis for changing any population wide recommendations.
I'm giving context for why a study of higher intensity cardio -in older people- might be interesting to people, and why it's not just "exercise good"
why is it powerlifting?
general prescription these days for Hypertrophy is 10 sets per muscle group per week 0-3 RIR.
Mostly because functional strength is useful and keeps you alive. major goals as you age are avoiding falls and being able to continue doing things for yourself. Strength fits that bill pretty well (and it also improves fat free mass).
And on a slightly more technical note, recovering from higher volume becomes harder as you age, so focusing on a smaller number (5ish) of reps at higher weight gives you adaptation without quite as much stress.
But I should be clear, when I said real lifting, I don't mean to exclude any form of well calibrated progressive overload, whether that's strength focused or hypertrophy focused. I do mean to exclude the "go to the gym and lift a 10 lb weight the same number of reps each time" BS
Because hypertrophy is generally pointless compared to strength. The hyperthrophy that naturally accompanies strength work is sufficient but the strength that accompanies hypertrophy work is far less beneficial.
one of the best proxy we've for Hypertrophy is getting progressively stronger in medium rep range. (8-12)
The title says they are focused on improving body composition which is boosting lean mass, lowering of fat mass which kinda seems achieved best by focusing on Hypertrophy and fat loss?
Hypertrophy and strength aren't as strongly linked as we thought. Generally for wellness, injury prevention, you want strength and flexibility.
Your strength comes both from your nervous system and physiology. Training your nervous system without also building a proper physical foundation to handle tension is a fast track to injury.
What? They are incredibly linked.
read the study more carefully if you think it encourages powerlifting for the elders.
Read my comment more carefully if you think I'm describing the study instead of providing more general context for why people might find this particular study interesting.
There was plenty of obvious, common sense assumptions that didn't hold at all when methodically tested, like sugar rush in children. And this specific type of studies tries to find a sweet spot between benefits and effort taken. Some results were unexpected, If I recall correctly on found that having to take three flights of stairs daily outperformed many exercise regimes designed for elderly.
I have met people who figured, because they don't excercise they don't wear their body out, so their joints etc. will last longer. Same for injury, no sport no injury, that must be good!
In a way this is right with high intense/extreme sport. (I did Thai Boxing in my youth, but stopped at some point)
But it is very wrong otherwise, joints for example will suffer if not moved. Blood will only flow into all the areas of the joints if they are moved. And if you don't move, your muscles will be gone and without muscles to hold your joints, loss of stability, great risk of injury, etc.
And don't forget benefits of weight training in improving bone density and preventing osteoporosis as we age.
And strengthening the nerves and all the other body parts that degrade with being idle.
I got codex to count my total heartbeats from my Garmin data. For four random days the counts were 72.252, 73.823, 68.922, 70.991.
According to google: "typical range for total heartbeats is 86,400 to 115,200 beats per day"
I run every day which would add a lot of beats, but my resting HR is 36 (pushed down by exercise i presume) with a daily average of 50 BPM. So in total a trained person may spend less of their heart beats.
Charlie Munger thought of exercise as adding mileage to the car.
Most people who talk about adding milage to a car have never tried to keep an old car running. Those who do have long learned that milage is a tiny issue, age is a much larger factor. They have also learned that low milage is a bad sign - what is wrong that you only drove it that much: often the answer is city driving which puts a lot more wear on the car than highway driving.
Donald Trump is one who also believes this. Apparently he believes you only have so many heartbeats, and so you should avoid increasing your pulse.
People who exercise regularly have a lower resting heart rate. You can likely remove 10,000 heartbeats per day just by doing 20 minutes of exerciser per day.
I don't believe the limited heartbeats theory, but it does support the idea of exercise.
That wasn't what this study was investigating.
Well I guess reading the article could ease your confusion. Unsurprisingly it is a bit less generalized than your take.
Sports and exercise are definitely beneficial, but any sort of activity presents a risk of injury.
If people work out, or play sports, without knowing proper form, without using protection or precautions, they'll get injured and then worse off than before. Realistically, manual laborers should be in real good shape, but often their jobs are so low-wage, and they're so interchangeable, that safety precautions are ignored and must be regulated/enforced.
I took up roller skating and was rewarded with a broken leg. I took up gym exercise and was repaid with a hernia. Both required surgery. No regrets! Only wished I could've better understood how to exercise safely!
I once encountered a FB group that was for people to discuss "sports injuries sustained while we were in bed" and I could totally relate, having done weird stuff to my shoulder overnight, rather than pitching a baseball game...