When it comes to building muscle, resistance training and nutrition are the two biggest factors in your ultimate success. Optimize all the right variables and you’ll progress far faster than someone who is unsure of what he or she is doing.

Lift heavy weights and your muscles will grow—as long as you’re consuming plenty of protein. In the absence of food, your body will remain in a negative protein balance—or catabolic state—following a bout of resistance training. Hence, the consumption of food—specifically protein—becomes critical to the control of muscle protein metabolism.

Casein and whey protein ingestion following resistance exercise can result in a positive amino balance, suggesting muscle protein synthesis will occur with either protein. However, several studies have found that the type of protein, and not simply the presence of amino acids, can differently modulate the anabolic response.

Recent evidence has shown that whey protein has a superior capacity to stimulate rates of protein synthesis at rest and after exercise with compared to proteins like soy and casein.1 The greater stimulatory effect of whey has been attributed to its high leucine content combined with a rapid rate of digestion, which is optimal for stimulation of muscle protein synthesis.2 Conversely, casein has a modest effect on protein synthesis, but instead inhibits protein breakdown.

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The whey versus casein comparison is well-covered ground. Casein, often referred to as the “slow-digesting” protein, takes longer to digest than whey, allowing for a slow release of amino acids into the blood stream. Casein’s amino-acid profile is slightly different than whey’s, containing more of the amino acid glutamine and less leucine. This makes casein less of an “anabolic” protein and more “anticatabolic” protein—helping to aid in the recovery process. The best time to consume casein is right before bed.

Whey, on the other hand, is known as the “fast-acting” protein, meaning the body can break down and absorb it at a much faster rate. In some cases, manufacturers will break down whey even further into an isolate, which allows for even quicker uptake by the body. The majority of the research supports the use of whey protein supplements for increased muscle mass and strength. The best time to consume whey is pre- or post-workout.

Some supplements will contain both whey and casein (you may see them listed as milk proteins) to take full advantage of the different absorption rates. This combination allows you to take advantage of both protein synthesis (from whey) and reduced protein breakdown (from casein). The major issue with milk proteins is that they typically contain only 20 percent whey, which means less leucine in the bloodstream and potentially a lower anabolic response.


So what if there was an efficient way to slow the absorption of whey just enough that you could still reap its anabolic benefits, while enjoying the slow-releasing effect of casein? That’s exactly what researchers set out to create—a highly anabolic protein that releases slowly into the bloodstream. Through modifications to whey-protein processing, they aimed to create a whey protein that contained a high content of leucine, yet had a slow rate of digestion comparable to micellar casein, ultimately creating a highly anabolic, slow-releasing protein.

At its heart, micellar whey is whey protein put through a specialized filtration process before it becomes modified by an advanced proprietary process. This process, which uses protein polymerization technology, results in whey protein particles that are double the molecular weight of regular whey protein particles. This allows for prolonged periods of elevated amino acids in the bloodstream, which can assist in the growth and repair of muscle after exercise.



Preclinical in vitro research examining the digestion rate of micellar whey is promising. Although still in its infancy stage, preliminary findings have found micellar whey to have similar protease digestion when compared to micellar casein. What this means is that these larger whey protein molecules take as long as micellar casein to digest, thus allowing the amino acids to release more slowly into the bloodstream. Meanwhile, the higher leucine content of micellar whey means you can stimulate higher protein synthesis and provide overall higher anabolic potential for a longer length of time!

At this point there’s not enough clinical data to say that micellar whey is any better than whey or the combination of whey and casein on rates of protein synthesis. However, in theory, the unique molecular structure of micellar whey would make for the perfect protein for overnight anabolic/anticatabolic support. Micellar whey also makes for the perfect between-meal protein, helping to keep protein synthesis levels elevated longer between meals.

Given the potential of micellar whey, future research studies looking at the effects of micellar whey on muscle size and strength are warranted. This very well could be one more weapon athletes can have in their arsenal for making the fastest gains possible.


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