Blood d-βHB, pH, bicarbonate (HCO3-) and electrolytes measured in arterialized blood samples from resting subjects (n = 7) following a ketone ester or salt drink containing 3.2 mmol.kg−1 of βHB. Shaded areas represent the normal range. Values are means ± SEM. (A) Venous blood d-βHB. (B) Arterialized blood pH. (C) Blood bicarbonate. (D) Blood potassium. (E) Blood sodium. (F) Blood chloride. †p < 0.05 difference between KE and KS, *p < 0.05 difference from baseline value.
As seen in this exercise, glucose tends to fall quite precipitously following exogenous ketone ingestions. Without exception, every time I ingested these compounds (which I’ve probably done a total of 25 to 30 times), my glucose would fall, sometimes as low as 3 mM (just below 60 mg/dL). Despite this, I never felt symptomatic from hypoglycemia. Richard Veech (NIH) one of the pioneers of exogenous ketones, has suggested this phenomenon is the result of the ketones activating pyruvate dehydogenase (PDH), which enhances insulin-mediated glucose uptake. (At some point I will also write a post on Alzheimer’s disease, which almost always involves sluggish PDH activity —in animal models acute bolus of insulin transiently improves symptoms and administration of exogenous ketones does the same, even without glucose.)
Beta-hydroxybutyrate (BHB) is a ketone body produced in the liver naturally under conditions when glucose isn’t very available. Other types of ketones produced via the restriction of dietary carbohydrates are acetoacetate and acetone. A VLCHF or ketogenic diet provides the optimal conditions for this process. Fasting, exercise and/or basic caloric restriction are all also methods for promoting ketogenesis (literally, the making of ketones).
There are a couple factors that will make this look much more viable and achievable. For example, if you were to skip breakfast and have your first meal at 12PM, you could eat up until 8PM. This will also mean that dinner needs to be eaten slightly earlier. But let’s not forget about the fact that if we were to combine this with the 6-10 hours of sleep that you would normally have each night, that’ll take up the majority of your fasting period. Obviously, you’re not restricted to these hours, as everyone has a different schedule. Doesn’t sound as bad as you initially thought? Well let’s make it even more enticing! During your fasting hours, and this is extremely helpful during mornings up until you can have your first meal, non-caloric beverages such as tea and coffee can help starve away those hung pangs. Just make sure you’re taking these drinks on it’s own, without any added sugar or milk. There are many variations of intermittent fasting with the most common being 16/8. But depending on your schedule, there are other options advocated such as 20/4, 22/2, and if you’re crazy enough and can eat a full day’s worth of calories in one sitting then there is also OMAD (one meal a day).
As I mentioned before, this was by no means a scientific experiment carried out under lab conditions, and this means we can only draw tentative conclusions from any of the data. Nonetheless, carrying out the testing in the way described above should give most people a good idea of how well the ketone supplements show the noticeable benefits they are marketed to have and provide a clear enough basis for a decision on whether or not to buy them.
For all studies, the area under the curve (AUC) of blood [βHB] was calculated using the trapezium rule. In Study 3, for each of the three drinks, the initial rate of d-βHB appearance was estimated using d-βHB concentrations at baseline and 30 min post-drink, and d-βHB elimination was estimated using the AUC between the post-drink peak (60 min) and trough (180 min) d-βHB concentrations, with a baseline correction to the value at 180 min.
If the claims about the benefits of exogenous ketones are accurate and true, then it’s fantastic news for people who are looking to enhance their keto lifestyle and who have the money to spend. But two of our core values are trustworthiness and goodness, and it is important to us to test assumptions made by marketing claims and help make sure that people are getting what they are told they are getting when they spend money on a product.
While it usually takes 2-7 days for your body to enter into a state of ketosis on a ketogenic diet, there are a few things you can do to kickstart this process. It isn’t guaranteed but it will assist in the process, and may work in extreme cases. Intermittent fasting, exercise, proper sleep, a strict high-fat-low-carb diet, and supplementation can all help fastened the transition process. Whether you’ve fallen out of ketosis after a cheat weekend or maybe you’re somebody who have just started out on your keto journey – here is how to get into ketosis in 24 hours.
I wrote this post at about the same time Germany won the World Cup in Rio de Janeiro in 2014. There’s been a lot of moving and shaking in the world of exogenous ketones since then, not to mention soccer. Looking back on my post, I still consider it relevant in terms of what exogenous ketones possibly can (and cannot) do for performance. In this case, to see if exogenous ketone esters provide me a “boost” by allowing me to do the same amount of work while expending less energy (and work at a relatively lower VO2) compared to no supplementation.
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