During the 1920s and 1930s, when the only anticonvulsant drugs were the sedative bromides (discovered 1857) and phenobarbital (1912), the ketogenic diet was widely used and studied. This changed in 1938 when H. Houston Merritt, Jr. and Tracy Putnam discovered phenytoin (Dilantin), and the focus of research shifted to discovering new drugs. With the introduction of sodium valproate in the 1970s, drugs were available to neurologists that were effective across a broad range of epileptic syndromes and seizure types. The use of the ketogenic diet, by this time restricted to difficult cases such as Lennox–Gastaut syndrome, declined further.
Control Your Environments. Another simple strategy to help cut calories is to control your environment -- everything from stocking your kitchen with lots of healthy options to choosing the right restaurants. That means avoiding the temptation by staying away from all-you-can-eat restaurants. And when it comes to parties, "eat a healthy snack before so you won't be starving, and be selective when you fill your plate at the buffet," suggests Ward. Before going back for more food, wait at least 15 minutes and have a big glass of water.
Reynolds, AN. "Comment on 'An Online Intervention Comparing a Very Low-Carbohydrate Ketogenic Diet and Lifestyle Recommendations Versus a Plate Method Diet in Overweight Individuals with Type 2 Diabetes: A Randomized Controlled Trial." Journal of Medical Internet Research. 2018; 20(5):e180, May 2018. Available at: http://www.jmir.org/2018/5/e180/ Accessed May 4, 2018.
Your recipes sound wonderful. I have tried a few. I am a senior living alone and adjusting them can be a challenge. Let’s face it eating the same thing several days in a row can make even a good thing boring. Another thing you and most others posting recipes forget is some of us have very little to spend on food so reading your recipes is many times the only dream of good food.
The basal metabolic rate per gram of body weight is seven times greater in mice than in humans. Organisms with large mass-specific metabolic rates typically show relatively large deviations from "normal" values because of a weak capacity to maintain homeostasis. Mice, which have a higher mass-specific metabolic rate, have a weak capacity to maintain cellular homeostasis; humans have a lower mass-specific metabolic rate, and a strong capacity to maintain cellular homeostasis. Mice are not small people, and "everyone else did it" is not a sound experimental design rationale.