Could you breakdown the jist of those articles? A lot of people seeking advice won't spend time reading through pages but would get more benefit from things spelled out in a paragraph or so.
First Article:
Do you believe in Intermittent Fasting and other non-generic meal patterns? Do you have to eat a certain amount of times per day to eat and why? It seems Meal Frequency is thrown around as Layne Norton has a 4-5 meal approach with BCAA’s in between, and some individuals who follow Intermittent Fasting thrive off 2-3 meals. What do you believe is optimal?
Layne Norton, PhD
The big question is, optimal for whom? Layne’s protocol’s theoretical basis is sound, at least on paper. It aims to strike a balance between avoiding the refractory nature of MPS under conditions of constantly elevated circulating amino acids, while still maximizing the number of nutrient-mediated anabolic ‘spikes’ through the day. This protocol might be appropriate for someone trying to pull the final strings to edge out the competition on a bodybuilding stage. However, I’m skeptical that this strategy would benefit those already consuming a high protein intake (which is already rich in BCAAs). For most non-competitors, I don’t see the realistic long-term sustainability of this routine.
As for the other end of the spectrum (2-3 meals per day), this is obviously more realistic for regular people. This works out well, since the importance of muscle retention during dieting varies according to the population. The more overfat & deconditioned someone is, the greater the proportional & net loss of fat vs. muscle is when dieting. Further along the progression, the leaner & more conditioned someone is, the more muscle they stand to lose as they continue to diet. So, can low meal frequency work for competitors? Yes, it can. Is it optimal? Well, that’s a question that so far doesn’t have a definitive, science-based answer, and it might never have one. For advanced athletes in a dieting situation, the objective is to retain as much muscle as possible while losing fat, since muscle loss at this point is a more urgent threat than it is for guys coming straight off the couch. Nitpicking for advanced athletes, I‘d speculate that anything below 3 meals (technically, 3 protein feedings) per day is not optimal, regardless of program phase.
Second:
Research Summary
Meal Frequency
§ A haphazard/randomly variable meal frequency, not necessarily a lower frequency, negatively impacts thermogenesis, blood lipids, and insulin sensitivity.
§ Within a day, a higher frequency has no thermodynamic advantage over a lower frequency under controlled conditions.
§ The majority of controlled intervention trials show no improvement in body composition with a higher meal frequency.
§ Studies indicating the disappearance or lack of hunger in dieters occur in either complete starvation, or very low calorie VLCD regimes (800 kcal/day or less).
§ Hunger is a persistent problem with reduced meal frequency in non-starvation and other protocols with calories above VLCD levels.
§ For controlling appetite, the majority of research indicates the superiority of a higher meal frequency.
§ The body appears to be "metabolically primed" to receive calories and nutrients after an overnight fast. Breakfast is a particularly beneficial time to have dietary protein, since muscle protein synthethis rates are typically lowest at this time.
§ Overall, both experimental and observational research points to breakfast improving memory, test grades, school attendance, nutrient status, weight control, and muscle protein synthesis.
Intermittent Fasting
§ Animal research has shown a number of positive health effects of ADF and CR.
§ Human ADF research is scarce and less consistent than animal research, showing both benefits (insulin sensitivity is the most consistent outcome) and risks (impaired glucose tolerance in women).
§ So far, control groups are absent in all human ADF studies. Thus, no comparative conclusions can be drawn between ADF and linear caloric intake.
§ The of the single published controlled trial to date (Stote, et al) comparing 1 versus 3 meals is heavily confounded by an exceptionally high dropout rate in the 1-a-day group, and the use of BIA to measure body composition.
§ The 1-a-day group reported increasing hunger levels throughout the length of the trial, echoing the problem of hunger with a reduced meal frequency seen in other similar research.
§ Ramadan fasting (12-16 hours per day, sunrise to sunset) decreases daytime alertness, mood, wakefulness, competitive athletic performance, and increases the incidence of traffic accidents. It's difficult to determine the relative contributions of dehydration and a lack of food to these adverse phenomena.
§ The effects of exercise and meal frequency on body composition is an interesting but largely unexplored area of research.
Fasting & Exercise
§ Improvements in insulin sensitivity, glucose tolerance (except in women undergoing ADF), bodyweight/bodyfat, blood pressure, blood lipids, and heart rate are commonly cited benefits of IF & CR.
§ All of the above benefits can be achieved by exercise, minus the downsides of fasting.
§ IF and CR have both been found to have neuroprotective effects by increasing BDNF levels.
§ A growing body of research shows that exercise can also increase BDNF, and the degree of effect appears to be intensity-dependent.
§ Based on the limited available data, resistance training performance, especially if its not particularly voluminous, might not be enhanced by preworkout EAA+CHO.
§ Despite equivocal performance effects of pre- or midworkout EAA+CHO, it minimizes muscle damage that occurs from fasted resistance training.
§ Immediate preworkout protein and/or EAA+CHO increases protein synthesis more than fasted resistance training with those substrates ingested immediately postworkout.
§ It’s possible that a partial fast (as short as 4 hours) before resistance training can negatively impact muscle protein status.
Conclusion
It's given that personal goals and individual response are the ultimate navigators of any protocol. Therefore, training and meal schedules should be built upon individual preferences & tolerances, which undoubtedly will differ. However, the purpose of this article is to arm the reader with the facts, so that opinions and anecdotes can be judged accordingly. Personal testimony is invariably biased by the powerful placebo effect of suggestion, and sometimes by ulterior agenda. Science is perched on one end of the epistemological spectrum, and hearsay is on the opposite end. As the evidence clearly indicates, IF is not a bed of roses minus the thorns - there are definite pros and cons.
In the world of fitness, recommendations for improving performance and body composition often gain blind acceptance despite a dearth of objective data. This is common in a field where high hopes and obsessive-compulsive tendencies are united with false appeals and incomplete information. In order to be proven effective beyond the mere power of suggestion, supposed truths must be put through the crucible of science. Drawing conclusions from baseless assumptions is a good way to get nowhere - fast.
Third:
Based on the available evidence, it’s false to assume that the body can only use a certain amount of protein per meal. Studies examining short-term effects have provided hints towards what might be an optimal protein dose for maximizing anabolism, but trials drawn out over longer periods haven’t supported this idea. So, is there a limit to how much protein per meal can be effectively used? Yes there is, but this limit is likely similar to the amount that’s maximally effective in an entire day. What’s the most protein that the body can effectively use in an entire day? The short answer is, a lot more than 20-30 g. The long answer is, it depends on several factors. In most cases it’s not too far from a gram per pound in drug-free trainees, given that adequate total calories are provided [8,9].
In terms of application, I’ve consistently observed the effectiveness of having approximately a quarter of your target bodyweight in both the pre- and post-exercise meal. Note: target bodyweight is a surrogate index of lean mass, and I use that to avoid making skewed calculations in cases where individuals are markedly over- or underweight. This dose surpasses the amounts seen to cause a maximal anabolic response but doesn’t impinge upon the rest of the day’s protein allotment, which can be distributed as desired. On days off from training, combine or split up your total protein allotment according to your personal preference and digestive tolerance. I realize that freedom and flexibility are uncommon terms in physique culture, but maybe it’s time for a paradigm shift.
In sum, view all information – especially gym folklore and short-term research – with caution. Don’t buy into the myth that protein won’t get used efficiently unless it’s dosed sparingly throughout the day. Hopefully, future research will definitively answer how different dosing schemes with various protein types affect relevant endpoints such as size and strength. In the mean time, feel free to eat the whole steak and drink the whole shake