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Sugar Free Gum
- Thread starter Linzie1303
- Start date
J
jenscats5
Guest
cher36 said:Better to chew gum, than ummm.....tootsie rolls, or bit o honey, or nestle treasures, Lindt truffles, etc.... Oh the list goes on and on.
You HAD to mention Lindt Truffles............. Oh my!! :sigh:
PaganPunkstress
New member
Im a major gum chewer!
thanks
thanks
macrophage69alpha
New member
the metabolic impacts of sugar alcohols are a relative unknown. Though one would venture to guess that they have negative impact on insulin sensitivity.
Linzie1303
New member
EXTRA sugar free gum...
Cinnamon and winterfresh..hands down the best thing out there!!
I like trident as well...At least I know that 4 out 5 dentists recommend it huh??
LOL
any other craving detours you take?
Cinnamon and winterfresh..hands down the best thing out there!!
I like trident as well...At least I know that 4 out 5 dentists recommend it huh??
LOL
any other craving detours you take?
T
The Shadow
Guest
eat more fat
macrophage69alpha
New member
contrary to studies funded by the sweetner industry polyols may increase plasma insulin
Biochim Biophys Acta. 2003 Oct 13;1623(2-3):82-7. Related Articles, Links
1,5-Anhydroglucitol stimulates insulin release in insulinoma cell lines.
Yamanouchi T, Inoue T, Ichiyanagi K, Sakai T, Ogata N.
Department of Internal Medicine, University of Teikyo, Kaga, Tokyo 173-0003, Itabashi, Japan. [email protected]
Concentrations of 1,5-anhydroglucitol (1,5-AG), which is a major circulating polyol, decrease in patients with diabetes mellitus. In both insulinoma-derived RINr and MIN6 cells, 1,5-AG stimulated insulin release within the range of 0.03-0.61 mM in a dose-dependent manner. Insulin release was maximally stimulated by 1,5-AG to levels that reached 25% and 100% greater than that of control (1,5-AG-free group) in RINr and MIN6 cells, respectively. A physiological concentration of 1,5-AG stimulated insulin release after a 5-min incubation and this action was maintained for 60 min. In addition, at approximately 1/200 the concentration of glucose, 1,5-AG had additive action with 20 mM glucose. The action of 1,5-AG on insulin secretion with other types of saccharides and polyol was similarly additive. Mannnoheptulose and diazoxide suppressed the stimulative action of 1,5-AG on insulin release. The secretagogue action of 1,5-AG seemed to be independent on an increase in the intracellular content of cAMP and ATP. These results suggest that 1,5-AG can stimulate insulin secretion through a mechanism that completely differs from that of glucose
Biochim Biophys Acta. 2003 Oct 13;1623(2-3):82-7. Related Articles, Links
1,5-Anhydroglucitol stimulates insulin release in insulinoma cell lines.
Yamanouchi T, Inoue T, Ichiyanagi K, Sakai T, Ogata N.
Department of Internal Medicine, University of Teikyo, Kaga, Tokyo 173-0003, Itabashi, Japan. [email protected]
Concentrations of 1,5-anhydroglucitol (1,5-AG), which is a major circulating polyol, decrease in patients with diabetes mellitus. In both insulinoma-derived RINr and MIN6 cells, 1,5-AG stimulated insulin release within the range of 0.03-0.61 mM in a dose-dependent manner. Insulin release was maximally stimulated by 1,5-AG to levels that reached 25% and 100% greater than that of control (1,5-AG-free group) in RINr and MIN6 cells, respectively. A physiological concentration of 1,5-AG stimulated insulin release after a 5-min incubation and this action was maintained for 60 min. In addition, at approximately 1/200 the concentration of glucose, 1,5-AG had additive action with 20 mM glucose. The action of 1,5-AG on insulin secretion with other types of saccharides and polyol was similarly additive. Mannnoheptulose and diazoxide suppressed the stimulative action of 1,5-AG on insulin release. The secretagogue action of 1,5-AG seemed to be independent on an increase in the intracellular content of cAMP and ATP. These results suggest that 1,5-AG can stimulate insulin secretion through a mechanism that completely differs from that of glucose
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