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| If Yap et al. were right and only continuous and not accumulative physical activity mattered, activity trackers like the this would be useless. No one needs a device to remind him of the 30 min of brisk walking he did / skipped today. |
Read more about exercise-related studies at the SuppVersity
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Tri- or Multi-Set Training for Body Recomp.?
Alternating Squat & Blood Pressure - Productive?
Pre-Exhaustion Exhausts Your Growth Potential
Full ROM ➯ Full Gains - Form Counts!
Body Pump, Cardio & Exercise Expenditure
Study Indicates Cut the Volume Make the Gains!
- Dietary nitrate improves sprint performance and cognitive function during prolonged intermittent exercise - While anyone of you should know that nitrate from beetroots can have significant physiological effects, the observations Thompson et al. made in their recent double-blind randomised crossover study are probably real news and above all practically relevant for some of you and/or your clients from various athletic domains (Thompson. 2015).
To investigate the effects of dietary NO3(-) supplementation on exercise performance and cognitive function, the scientists had 16 male team-sport players consume NO3(-)-rich (BR; 140 mL/day; 12.8 mmol of NO3(-)), and NO3(-)-depleted (PL; 140 mL day/1; 0.08 mmol NO3(-)) beetroot juice for 7 days (these are the regular shots you can buy at supplement stores | if you want to drink regular beetroot juice, you need 3-4x the amount). With the nitrate supplement being consumed over a one week period we are thus not talking about the effects of acute, but about the effects of chronic supplementation. Keep that in mind, if you buy one shot and don't feel the results immediately.
On the test day the subjects completed a prolonged intermittent sprint test (IST) protocol (two 40-min "halves" of repeated 2-min blocks consisting of a 6-s "all-out" sprint, 100-s active recovery and 20 s of rest) on a cycle ergometer during which cognitive tasks were simultaneously performed.
As you can see in Figure 1 both, the total work done during the IST, as well as the reaction times that were measured during cognitive tasks in the second half of the IST, were improved in the beetroot vs. placebo trial.![]()
Figure 1: Comparison of total work during the sprints and reaction times during cognitive decision making tasks designed to emulate the cognitive tasks during team sports (Thompson. 2015).
Even though, the scientists didn't find a difference in response accuracy, the findings are highly relevant for any athlete who has to (a) perform at high intensities, while (b) maintaining optimal cognitive performance and decision-making reaction times. Who is that? Well, I'd say almost every team sport athlete of whom previous studies have shown that his / her cognitive acuity suffers during prolonged intermittent exercise. - Extra water is not necessary for optimal glycogen replenishment after workouts - In fact, bodybuilders may want to avoid it... Avoid water? No, I am not saying you should not drink water at all, but if you look at the results of Valentín E. Fernández-Elías' recent "analysis of the relationship between muscle water and glycogen recovery after prolonged exercise in the heat in humans" you will see that too much water in the post-workout window may actually give you the 'watery' look some physique athletes like bodybuilders are trying to avoid.
It is usually stated that glycogen is stored in human muscle bound to water in a proportion of 1:3 to 1:4 g. In their latest study, the scientists from the University of Castilla-La Mancha investigated this proportion in biopsy samples that were taken when their trained subjects recovered from prolonged exercise in the heat:"On two occasions, nine aerobically trained subjects (VO2max = 54.4 ± 1.05 mL/kg/min; mean ± SD) dehydrated 4.6 ± 0.2 % by cycling 150 min at 65 % VO2max in a hot-dry environment (33 ± 4 °C). One hour after exercise subjects ingested 250 g of carbohydrates in 400 mL of water (REHLOW) or the same syrup plus water to match fluid losses (i.e., 3170 ± 190 mL; REHFULL). Muscle biopsies were obtained before, 1 and 4 h after exercise" (Fernández-Elías. 2015).
In contrast to what you may have expected, the muscle glycogen replenishment was not impaired by the lack of water in the REHLOW group. Ok, if you look at the data in Figure 2 right, there is a minimal advantage for the adequate water group, but this advantage is not statistically and almost certainly not practically relevant (79 ± 15 and 87 ± 18 g/kg dry muscle; P = 0.20).
The thing that did differ between the adequat (REHFULL) and the inadequate (REHLOW) hydration trial, however, was the muscle water content which was significantly higher in the REHFULL than in the REHLOW trial (3814 ± 222 vs. 3459 ± 324 g/kg dm, respectively; P < 0.05; ES = 1.06).![]()
Figure 2: Muscle water content before and after dehydrating exercise and after 3 h recovery period (a). Muscle glycogen content before and after dehydrating exercise and after 4 h recovery period (b). Data is presented as mean ± SD. *Different from previous time point. †Different from REHFULL (P < 0.05 | Fernández-Elías. 2015).
What's even more striking is that the scientists analysis of the ratio in which water and glycogen were stored in the two groups showed that subjects in the REHLOW trial stored the glycogen at the minimal 1:3 glycogen : water ratio, while their peers who got plenty of water exhibited a glycogen : water ratio of 1:17. Needless to say that this difference in water storage may be very important for bodybuilders during the last days and hours of their contest prep. In view of the importance of optimal hydration for your health, cognition and the hitherto unproven hypothesis that increases in cellular water may be involved in the hypertophy response to exercise (including the efficacy of creatine | Op‘t Eijnde. 2001), (non-)rehydration practices as they were used in the study at hand are nothing I would generally recommend.![]()
SuppVersity Suggested: "Hydrated or Dumb: Dehydration Affects Brain, Muscle and Other Vital Organs - Plus: 15+ Causes of Dehydration + Can the Color of Your Urine Tell You if You Drink Enough?" After reading this SV Classic and my recent article about the link between dehydration and type II diabetes you will probably stop thinking about using dehydration more than just occasionally. - Study says: Only continuous, not accumulated 30 min of walking will improve your glucose sensitivity - While step counters suggest that all you have to do to improve your health is to take "X" steps per day, the conclusion of a recent study from the DSO National Laboratories in Singapore refutes the simple and beautiful idea that you can distribute the X number of steps you would usually take during 30 minutes of brisk walking over three or more small "exercise servings" and see the same benefits as you'd see with 30 minutes of continuous brisk walking:
"These findings demonstrate that 30 min of brisk walking is sufficient to improve insulin sensitivity in healthy, young Asians but only continuous and not accumulated walking provides this benefit. " (Yap. 2015).
In said study, twenty-five healthy participants (12 males) participated in an oral glucose tolerance test (OGTT) the morning after: (i) accumulating three 10 min bouts of walking the previous evening; (ii) walking continuously for 30 min the previous evening or; (iii) resting the previous evening. Blood samples were taken in the fasted state and for 2 h post-OGTT. The subjects' insulin sensitivity was estimated from fasting blood glucose and insulin using the quantitative insulin sensitivity check index (QUICKI) and in response to the OGTT using an insulin sensitivity index (ISI-Matsuda).
Now, as you've read a few lines above, the scientists say: Only the continuous walking is beneficial. Well, I don't know about you, but if I look at the study results in Figure 1, I wouldn't say that the data suggests that only continuous brisk walking would be beneficial. In fact, the early morning glycemia, which is by the way a pretty stupid measure of glucose tolerance anyway (cortisol rises in the AM and ruins the results), is very similar and the OGTT data in Figure 2 shows no practically relevant effect or difference either.![]()
Figure 3: Changes in fasting glucose, insulin and insulin sensitivity (QUICKI) the morning after accumulated walking, continuous walking or a rest day; values expressed rel. to sedentary control (Yap. 2015).
With that being said, you can still rely on your step counter as a guide to a health-relevant amount of activity. What is important is that you get your physical activity in; and not that you do it in a continuous matter (even though that may offer small benefits in the study at hand). Plus, you will remember: Especially for those with some extra-weight on their hips "Increasing Physical Activity Just as Effective as Strength, Endurance or Combined Exercise to Lose Fat and Build Muscle" | re-read the SV article.![]()
Figure 4: Glucose (a), insulin (b) and insulin sensitivity index (ISI-Matsuda) (c) calculated from an oral glucose tolerance test the morning after three 10 min bouts of accumulated brisk walking, a 30-min continuous brisk walk or resting the previous evening. Values are mean (SD) (n = 25). Main effect of time for glucose (a) and insulin (b) (both P < 0.001). Main effect of trial for ISI-Matsuda (c) with Bonferroni post hoc t tests: accumulated walking vs. continuous walking (P = 1.000); accumulated walking vs. rest (P = 0.204); continuous walking vs. rest (P = 0.081 | Yap. 2015)
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| Figure 5: Summary of exercise-induced responses in signaling proteins and their selected signaling pathways investigated in the present study. The figure is simplified, and not all the possible connections between the proteins are shown. Signaling proteins are marked according to the present findings of changes from pre-exercise to 30 min post-exercise within the group (Ahtiainen. 2015). |
The educational value is thus also the reason I still mention the study. I mean, I didn't want to deny you the opportunity of looking at the scientists' excellent "summary of exercise-induced responses in signaling proteins and their selected signaling pathways" in Figure 5 - even though, the cause-and-effect relationships are still 'hypothetical' in parts ;-) | Comment on Facebook!
References:
- Ahtiainen, Juha P., et al. "Exercise type and volume alter signaling pathways regulating skeletal muscle glucose uptake and protein synthesis." European journal of applied physiology (2015): 1-11.
- Fernández-Elías, Valentín E., et al. "Relationship between muscle water and glycogen recovery after prolonged exercise in the heat in humans." European journal of applied physiology (2015): 1-8.
- Op‘t Eijnde, B., et al. "Effect of creatine supplementation on creatine and glycogen content in rat skeletal muscle." Acta physiologica Scandinavica 171.2 (2001): 169-176.
- Thompson, Christopher, et al. "Dietary nitrate improves sprint performance and cognitive function during prolonged intermittent exercise." European journal of applied physiology (2015): 1-10.
- Yap, Mei Chan, Govindasamy Balasekaran, and Stephen F. Burns. "Acute effect of 30 min of accumulated versus continuous brisk walking on insulin sensitivity in young Asian adults." European journal of applied physiology (2015): 1-9.