Scientific evidence suggests: There is not one optimal protein to build muscle - it's the mix of fast to slow proteins that's key.

You can learn more about protein intake at the SuppVersity

Are You Protein Wheysting? Are You Protein Wheysting?

Cod protein for recovery Cod protein for recovery

Protein requ. of athletes Protein requ. of athletes

High EAA protein for fat loss High EAA protein for fat loss

Fast vs. slow protein Fast vs. slow protein

5x More Than FDA Allows 5x More Than FDA Allows

Figure 1: Graphical overview of the study design (Reidy. 2014)

Figure 2: Net phenylalanine enrichment (left) and inward and outward transport (right)

"However, the ingestion of the protein blend resulted in a prolonged and positive net phenylalanine balance during postexercise recovery compared with whey protein (P 0.05)." (Reidy)

net retention

Bolus ingestion could be a superior alternative: In view of the fact that the advantage of protein blends is directly related to their ability to trigger sustained increases of the level of amino acids in the blood, the same can be achieved by the ingestion of whey protein at regular intervals - e.g. at least every 2 hours. Needless to say that this is not just more expensive, but also less practical than the 20-40g of a protein blend many of you are probably already consuming right after their workouts. Bottom line: I am still very hesitant to suggest buying a blend with significant amounts of soy in it, when egg proteins should do a similarly beneficial job as a "filler" that keeps the amino acids (AA) levels elevated when the influx of AAs from whey is beginning to seize and the slow digesting casein protein (in the study at hand, we had regular sodium caseinate, which is actually faster digesting than micellar casein) are not yet fully digested.



In general, however, the study at hand clearly supports the notion that protein blends that are designed to provide a sustained elevation of all essential amino acids in the blood (not just BCAAs, learn why) will induce a superior growth response. Whether the same is true if we compare the ingestion of a single protein blend shake to the repeated (ev. 2h) ingestion of 20g of whey protein, will yet have to be elucidated in future studies.

Reidy, Paul T., et al. "Soy-dairy protein blend and whey protein ingestion after resistance exercise increases amino acid transport and transporter expression in human skeletal muscle." Journal of Applied Physiology 116.11 (2014): 1353-1364.

For someone like yourself, who's making sure to get his daily dose ofScience News, the results Reidy et al. present in their latest paper in thecan hardly be surprising. I have, after all, written about the superiority of whey + casein blends as potential muscle builders only recently ("When Whey & Casein Unite in the Spirit of True Physique Improvements, BCAAs & Glutamine Better Shut the F*** Up" | (re-)read the article ). It was thus only to be expected that a study in which the scientists from thecompared the effects of the prolonged hyperaminoacidemia that's associated with the ingestion of a blend of plant (25% soy) and dairy (50% casein, 25% whey) proteins (with varying digestion rates) to that of a pure rapidly digested whey would yield a definite points win for the "time-released" formula.The reasons why it's still well worth taking a closer look at the study results are (a) the fact that the f**** up supplement industry is still trying to tell you that protein blends would be inferior to overpriced isolates and (b) the educative value of the post-workout + post-supplementation serum amino acid profiles Reidy et al. observed the 16 healthy, young subjects (age range: 19 –30 yr) who participated in their double-blind, randomized clinical trial (with body fat levels of >24% those were certainly no physical culturists, though ;-)As you can see inthe study protocol involved a standardized resistance training session in the course of which the subjects who had been kept on a diet containing 20% protein, 60% carbohydrate, and 20% fat at 12 kcal/kg for 72h, performed leg extensions on a Cybex-VR2 (Medway, MA), i.e. 8 sets of 10 repetitions at 55% (set 1), 60% (set 2), 65% (set 3), and 70% (sets 4 – 8) of the participants previously determined 1 RM with 3-min rest between sets, before they consumed the protein beverages (Whey or Blend) exactly 1 h postexercise.The ingestion of the beverages of which the blend and the whey protein contained of 20.1 g total protein (providing 1.9 g leucine, 1.0 g phenylalanine, 1.3 g valine, and 9.0 g EAA; 50% protein from sodium caseinate, 25% protein from whey protein isolate, and 25% protein from soy protein isolate) and 17.3 g of protein (providing 1.9 g leucine, 0.6 g phenylalanine, 1.1 g valine, and 8.7 g EAA; 100% whey protein isolate), respectively, lead to significant increases in amino acid transporter activity (2/SLC38A2, proton-assisted amino acid transporter 1/SLC36A1, cationic amino acid transporter 1/SLC7A1).In view of identical postexercise myofibrillar protein synthesis in both groups this difference may appear negligible. If you've been following my articles about the often oversimplified protein synthesis and increases in skeletal muscle mass, you should be aware thatand notis the term you have to look for, when you're analyzing corresponding studies.