@jonepstein1 This one too: https://t.co/XFVYLUscYn
@raphaels7 @KetoCarnivore Is that the case? We’ve known all along that susceptibility is the exception even with a working microbiota. https://t.co/kin4Gt3QVo
@zinocker Several mouse strains are protected from obesity in a WD/HFD feeding setting regardless of microbiota. I think we need to look at the strains and other conditions used. https://t.co/CI0fyU8f9t
@biomedi48988641 This is now classic Mouse strain-dependent variation in obesity and glucose homeostasis in response to high-fat feeding https://t.co/CI0fyUpQ11
Perhaps you would prefer it in wild type animals, then. Or any number of strains. You both are defending a false flag here. Save yourselves the embarrassment. https://t.co/lDHxoufAVy https://t.co/doTsTcFEML https://t.co/9sQ9noMZ0h
@gerdosi I found another HFD study this week that might fit with this one. (I’m a non-med person) Could these mice be reperesentative of the subset of people who appear to be losing weight easier with a higher fat diet like @siobhan_huggins ? https://t.co/
re: High Fat diet & weight loss. HFD Mouse study shows BALBc mice no TAG/DAG liver changes, no inc insulin/glu. Genetics? Weight unchanged, ⬆️AT, but what if Keto/Zcarb? Other mice ⬆️Weight + bad metab @siobhan_huggins @tednaiman @KetoCarnivore @Doctor
RT @daveyboyhod: @bruinjenny1 This is what I was looking for https://t.co/CyUxbThTvx
@bruinjenny1 This is what I was looking for https://t.co/CyUxbThTvx
RT @Loose_Lab_Rat: Mouse strain-dependent variation in obesity and glucose homeostasis in response to high-fat feeding. https://t.co/qI6uBs…
Mouse strain-dependent variation in obesity and glucose homeostasis in response to high-fat feeding. https://t.co/qI6uBsGS6a
@mike_lustgarten Mouse strain-dependent variation in ob and gluc homeostasis in response to high-fat feeding. https://t.co/tkDwEy4Q1S
@tehcaster I think it is quite strong in no. of mice. It was not conclusive - piece in the puzzle. & yes, mice differ http://t.co/6VKHX1SPE7