What's not so nice is that people are still way too focused on aerobics and the number of US citizens that's combining resistance and aerobic training to reach their exercise goals is stagnating below 20%. Moreover, best-agers and baby boomers, who would probably benefit even more from some weight lifting than the 36% of the young men (age 18-24) who make up the lion's share of the 'real' physical culturists who know about the importance of both, 'weights' and 'cardio', are - if they work out at all - still sticking to the tried and disproven LISS only regimen.
On Short Notice, today: A Health & Exercise Quickie
Apropos "LISS" as the headline of today's On Short Notice news quickie already gave away, light intensity steady state aerobic training aka LISS is one of the exercise related topics today. We will however start out with the health related news... and don't wonder that the first post is about polar bear health. I promise you will be intrigued, when you've read it ;-)
- 'Westernized' polar bears' bones look as if they would need vitamin D supplements, in reality all they are probably missing is sufficient taurine in their diet. I don't know but maybe you've asked yourself before: "How on earth can a white bear survive in the Arctic, when his nose is the only part of his skin that's exposed to the sun and would thus be able to produce vitamin?" (Please mind that this is not a serious question ;-) He eats his vitamin D!
Ok, first question first answer, but what about question #2: "How come that the clubs of his brethren and cousins in captivity get rickets and fractures as if they were vitamin D deficient, although they get the exact same amount of vitamin D from mother's milk and their later diet (sometimes the latter is even supplemented) as their wild counterparts?" Answer? No idea? Well, if you ask the researchers from the The University of Tennessee Health Science Center the answer is (Cheesney. 2009): A lack of taurine in the diet.
Scientists speculate: Their cousins in captivity suffer from rickets and fractures due to secondary vitamin D deficiency in consequence of insufficient taurine intake.
Taurine plays a fundamentally important role in the conjugation of ursodeoxycholic acid to TUDCA and facilitates the uptake of fatty acids and fat soluble vitamins. With insufficient taurine in the diet polar beers (and human beings) can probably drink as much vitamin D in olive oil or whatever other fat base they deem more appropriate then dry tabs without any effects on their 25-OHD => calcitonin levels and consequently bone health (suggested read "Fat D-Ficiency! Study Shows, Even 50.000 IU of Vitamin D3 Useless, When You Ingest It Without Fat").
Moreover, a recent guinea pig study from Department of Internal Medicine at the Medical College of the National Cheng Kung University suggests that glycine could be another 'pro vitamin D amino acid' due to its beneficial effect on the liver and subsequent protection of disturbances in vitamin D metabolism and low 25-OHD levels (Chen. 2008) - now, what if any of these, i.e. taurine or glycine, or simply insufficient bile acid, which incidentally depends on the consumption of the "bad, bad" cholesterol (cf. Kern. 1994), is the actual reason of the rampant vitamin D deficiency in our meat-, fat- and cholesterol-o-phobic societies?
- "Low vitamin D and remote EBV infection may be associated with clinical MS breakthrough within 2-3 years." (Décard. 2012) Usually I don't simply copy the study titles, but this one says it all. Even before the first symptoms of multiple sclerosis occur, i.e. in the so-called pre-CIS (=clinically isolated syndrome) interval, patients with quiescent multiple sclerosis have 50% lower 25OHD levels than their healthy peers and - what could actually be the causal factor, here - three times higher Epstein-Barr specific IgG levels (EBNA1). Can these observations a group of scientists from the Department of Neurology at the St. Josef-Hospital of the Ruhr-University Bochum in Bochum, German, really be mere coincidence?
At least as far as the Epstein-Barr relation goes the answer of a 2010 review of the literature would be 'no, probably no coincidence' (Ascherio. 2010). It appears to be established that Epstein-Barr (EB) plays a pivotal role in the etiology of MS. Based on the observation that people without EB are virtually MS free, and the fact that their own previous research has clearly shown that late infections with EP increase your risk to develop MS by more than 2x (compared to people who have been exposed in childhood; see figure 1), Ascherio et al. argue that it is very unlikely that EP is not at least the trigger, if not the ultimate cause of MS.
Figure 1: While it would be best never to be infected with Epstein-Barr your risk of EP-related MS is more than twice as high if you are exposed late (Ascherio. 2010)
The scientists also refer to the hygiene hypothesis which has been advanced by other authors before, unfortunately, however, getting rid of the 'cleanliness' and exposing your immune system to the training it needs by exposing yourself to the virus at an earlier age, is of little use, if not totally stupid. After all it would only reduce your risk to develop MS to a level that's still more than 1,000% higher than in people who have never been exposed to the virus in the first place (see figure 1).
Due to the inconclusive data on the long and short term effects of Epstein-Barr infections on the B-cell and T lymphocyte response, the Ascherio et al. are not yet sure about the exact mechanism by which EP stimulates, triggers or drives the development of MS. All that can be said with relative certainty is that Epstein-Bar infections contribute to the increase in multiple sclerosis. Aside from the previously mentioned correlations the mere fact that those regions of the world where Epstein-Barr is quasi non-existent are virtually MS free is probably the best evidence of its involvement in autoimmune attacks on your brain. So if you want to protect yourself you better make sure you don't get infected! Since EP is part of the herpes family and transmitted via saliva this is unfortunately not exactly easy...
Against that background the most recent results from the College of Nursing at the University of Colorado Anschutz Medical Campus may be important news (Jankowski. 2012). I mean, if the use of N-acetyl-4-amniphenol (ACET) aka paracetamol would hamper or even forestall muscle gains, the training efforts of the men and women who take ACET would be to no avail.
Now the good news is that the chronic use of paracetamol at a daily dose of 1,000mg did not reduce the lean mass gains in the 17 men (age >50y) who actually participated (instead of giving up) in all of the 3-5 days A/B resistance training sessions
The chronic ingestion of paracetamol is not advisable regardless of its negligible detrimental effects on skeletal muscle gain. Only recently, Kane et al. have shown that older people in are particularly prone to the hepatoxic effects of this (imho falsely OTC available) NSAID (Kane. 2012). If there is no way around it, because you cannot stand the pain, a safer (at least for the liver) and more effective medical approach could be the combination of tramadol (75 mg), a weak opioid analgesic, with low dose of paracetamol (325-650mg, max!; cf. Pergollizzi. 2012).In as much as the nonexistent negative effects are good news, they are likewise strange news, because according to the expression of proteins involved in the protein synthetic response to exercise, it should actually have hampered the gains:
- workout A: R three sets of lateral pull down, bench ress, hip abduction and adduction, biceps curls, seated row, and ssisted chin ups
- workout B: overhead press, leg press, triceps xtension, knee extension and ﬂexion, heel raise, and shoulder external rotation
- warm up / cool down: 10 min warm-up on the treadmill, a stair climing intermezzo after the first warm up sets and another 10 min cool down
"[...] in the ACET group that the expressions of the anabolic gene p70S6K and the catabolic gene MAFbx were signiﬁcantly reduced at week 16 of PRT. Given that the increases in FFM in response to PRT were not signiﬁcantly different between the groups, it is possible that the suppression of catabolic signaling was sufﬁcient to offset reductions in anabolic signaling in the ACET group." (Jankowski. 2012)As the authors point out future studies will have to elucidate the exact mechanism this at first sight contradictory results.
In the mean time Jankowski et al. do yet speculate that the loss of prostaglandin signalling and supsequent increases in p70S6K, the protein that's responsible for muscle protein synthesis may be countered by the normalizing effects paracetamol exerts on the expression of Akt, the ameliorative effect on the overexpression of nitric oxide synthase (iNOS) and the reduction of the age-relatedly increased myocyte apoptosis.
Men and women tire differently - men (once more ;-) the weaker sex Let's face it guys, we are weaklings. At least this is what Beth W. Glace and her colleagues from the Nicholas Institute of Sports Medicine and Athletic Trauma at the Lenox Hill Hospital in New York report in their latest paper. Other than the quadriceps muscles of our significant others, our muscles fatigue after 2h of cycling with intermittent one minute sprints every 20 minutes.
Compared to Hope Solo or Serena Williams Olympian Brian Lochte, is probably a weakling - of course only as far as the fatigabilty of his skeletal muscle is concerned - as far as the risk do develop the Athlete's Triad is concerned, this may yet be advantage.
In women, in this particular case just like their male counterparts trained cyclists or triathletes with a training load of at least 100km per week, on the other hand, it's solely the central nervous system fatigue that will keep them from cycling 'forever'. Unfair, right? Us men have to battle both, central as well as local muscular (=peripheral) fatigue.
Now what seems nothing but advantageous can however turn against you. In a way the low fatigability of female muscle is also part of the reason why are way more susceptible to the athlete's triad (click here to learn more) than men: They are simply able to work their CNS into the ground, because their peripheral musculature is less prone to exhaustion.
- Recent study puts question mark behind assumed appetite reducing benefit of HIIT sprints vs. classic aerobics - but does that mean that aerobics is the way to go? Not yet in press, but already intriguing are the results of a recent study by Kevin Deighton et al. from the School of Sport at the Loughborough University who say that they found that ...
"[a]n acute bout of endurance exercise resulted in lower appetite perceptions in the hours after exercise than sprint interval exercise and induced a greater 24 h energy deﬁcit due to higher energy expenditure during exercise" (Deighton. 2012)
Now this sentence from the abstract certainly suggests that sprinting would have nothing but negative effects. The actual data you see in figure 3 does yet tell you something different. The sprinters may have had increased ghrelin and lower PYY levels with the expected downstream effects on perceived hunger, but this did not translate into significant differences in food intake. In other words, even longish sprint exercises like the ones in the study at hand won't put you at danger of overeating - despite transient increases in ghrelin levels.
Figure 3: Intentionally or not, based on the conclusion of the abstract you would probably not have expected to see these results (data adapted from Deighton. 2012)
In fact, the increased ghrelin amplitude can actually be an advantage (see August 04, 2012) and the calories in vs. out calculation the scientists do is so irrelevant to the real world health and body composition effects of exercise that I refuse to repeat it here ("No, you cannot eat that extra piece of layer cake because you ran on the treadmill earlier today" ;-)
In the end, comparisons like this always suggest you had to choose between doing one or another mode of "cardio", when a combination of both, i.e. cycling HIIT and LISS, yet not both in one session, would be the most productive way to go. And no, Mr. Taubes, none of them is "just going to make you hungry" (see "Every Dog Has His Day: Dr. Oz Was Right, Exercise Does Not "Just Make You Hungry", But Reduces Energy Intake!")
- Researchers debate the "low vs. high weight" conundrum. In the editorial to the next issue of the Journal of Applied Physiology Mark D. Schuenke, Jennifer Herman, and Robert S. Staron reject the criticism they received from Nicolas Burd et al. for the pro heavy weights arguments they put forward in their recently published study on the effects of high vs. low weight training (Schuenke. 2012a; covered on the SuppVersity on October 01, 2012). Now while this back and forth between the two groups does not deliver any new data, I believe that it is still interesting and highly educative to see how science is actually a matter of negotiated not set truths. So, let's see how Schuenke et al. respond to Burd's assertion that ...
Figure 4: Changes in body composition (left) and changes in muscle fiber cross-sectional area in response do different training regimen (Schuenke. 2012a; this study was discussed here on the SuppVersity on October 01, 2012)
"[t]he authors’ views continue to contribute to a resistance training doctrine that is incorrect, most notably the belief that heavier weights are better concept. This conclusion is likely due to the relative dearth of quality studies assessing the hypertrophy potential of lower load resistance training paradigms, in contrast to the large number of studies employing ‘traditional’ resistance training intensities (*70 % of maximal strength).
Clearly, evidence exists to support the concept that light(er) loads can support training-induced muscle hypertrophy both independently and by comparison to heavy loads. We would propose that so long as the stimulus is an overload, performed with high effort (fatigue), and progressive then even the most seasoned lifters would see progression, at the very least no regression, in strength or muscle mass." (Burd. 2012)I will briefly summarize the most important points the researchers from the University of New England College of Osteopathic bring forward to defend their "go heavy or go home" argumentation:
- The list of previous studies which confirm the the efficacy of training with high(er) weight for "optimal" gains in hypertrophy and strength is extensive.
- Low load training is not as Burd et al. suggest "simply a milder form of low-load blood flow restrictive exercise", of which the researchers state that it is "interesting".
- Schuenke et al. specifically refer to a Y2k study by Takadara et al. which shows that without the cuffs light loads don't build anything (Takadara. 2000).
- The researchers point out that the claim by Burd et al. that "maximal muscle fiber activation can be achieved in any circumstance as long as the effort is to failure is unwarranted and unsubstantiated".
- The study by Mitchel et al. Bird et al. cite to prove their hypothesis may not report significant differences between knee extensions performed at 30 % of 1RM for 3 sets, 80 % of 1RM for 1 set, or 80 % of 1RM for 3 sets as far as the isometric strength and hypertrophy between the three types of training are concerned, but
"[t]his result is not surprising considering the following: (1) no control group was used, (2) each subject trained each limb using a different protocol (cross-over effect), (3) only one single-joint exercise was used (low volume versus a much higher volume of training used, for example, in Schuenke et al.: 3 sets each of leg press, squat, and knee extension), and (4) only fiber types I and II were delineated (severely limiting interpretation of the results).In that the last parentheses is obviously another direct criticism of what Schuenke would probably call "cherry picking" studies and specific results to support an unwarranted hypothesis.
If you asked me, both are right. While I personally tend to agree with Schuenke, the main reason that I do is that the heavy weights approach is tried and proven, while - just as Burd says - the sceintific evidence pertaining to low weights is scarce and ambiguous and the anecdotal evidence from 'big guys' is non-existent. I am still curious about the next move(s) on both sides of this divide. And by the way, conflicts like these have always been among the driving forces of scientific progress, so I am pretty sure that we as trainees can only benefit from this debate as well as potential follow-up studies, both groups will feel inclined to conduct in order to 'prove' their point.
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