The theory is our bodies were designed, and still optimized, to eat what our Paleolithic ancestors ate. Like your hunger-gatherer forefathers, on Paleo you get all the meat from wild animals and unlimited fruits and vegetables you can eat. But no starchy vegetables (like potatoes), no legumes (like lentils or beans), no wheat, and no grains (like quinoa or corn) because those plants were invented by human beings during the agricultural revolution after our Paleolithic ancestors left the planet. You get one cheat day where you can eat whatever you want (“Occasional cheating and digressions may be just what you need to help you stick to the diet.”) No oil because it puts omega 6 and omega 3 ratios out of whack which should never exceed 2:1, except olive oil if you must. Dairy is also prohibited. And meat must come from animals that weren’t fed grains (like corn) because grains lead to inflammation and increased fat.
I started Whole 30 a little over a week ago, and I have used a lot of your recipes, and I love them! I just wanted to let you know that I made the sweet potato soufflés last night (which were wonderful), however, I woke up this morning wondering if they were truly compliant due to the baking aspect. Off researching I go, and I found out that baking powder is not a compliant Whole 30 ingredient (unless homemade with one part baking soda, two parts cream of tartar). I looked up the ingredients to the baking powder I used, and sure enough, it contained cornstarch. I can’t tell you how bummed and disappointed I feel this morning to have to start over. I just wanted to let you know in case that particular ingredient could cause anyone else any trouble. Thank you for this meal plan, and the wonderful recipes in it!
Transformed cells adapt metabolism to support tumor initiation and progression. Specific metabolic activities can participate directly in the process of transformation or support the biological processes that enable tumor growth. Exploiting cancer metabolism for clinical benefit requires defining the pathways that are limiting for cancer progression and understanding the context specificity of metabolic preferences and liabilities in malignant cells. Progress toward answering these questions is providing new insight into cancer biology and can guide the more effective targeting of metabolism to help patients.