Yesterday I sent an article on ketoacidosis and high sugar detection. There is an opinion that the diabetic readings at times reflect berserk reading whereas the body senses no effect of that level and it is suspected that a normal sugar level, when read in meters, shoots so high. This may be an appearance. In other words, all diseases including the diabetic, do not show the reality; and the treatment delivered may really, keep high the sugar level, though virtually it is not so. In June 2022 Washindton university made a breakthrough. And in future , as a fever diabetic may also be cured. Possible.
*Researchers discover neurons that track and regulate blood sugar levels* by University of Washington School of Medicine <https://www.uwmedicine.org/> New research has discovered neurons within the brain that detect and respond to changes in the level of sugar within the bloodstream. Understanding how this blood sugar detection system works and how these neurocircuits operate would give researchers and doctors greater insights into how our brains regulate our blood sugar, and perhaps, how to target them therapeutically to treat metabolic diseases like diabetes <https://medicalxpress.com/tags/diabetes/> and obesity, according to the study authors. The study was published June 22 online in *Diabetes*. "We've known for a long time that many neurons can detect sugar locally within the brain," said Dr. Michael Schwartz, an endocrinologist with the University of Washington School of Medicine and co-director of the UW Medicine Diabetes Institute. "What is new, however, is the evidence that a subset of neurons located in the hypothalamus <https://medicalxpress.com/tags/hypothalamus/> can sense and respond to sugar in the bloodstream itself, analogous to the cells in the pancreas that secrete insulin." In this study, researchers were able to monitor both blood sugar levels and the activity of neurons within the hypothalamus of conscious mice in real time. They found that when blood sugar levels rise, the activity of this subset of neurons decreases rapidly. Researchers speculate that these neurons detect and respond to variation in blood sugar transmitted by sensory neurons <https://medicalxpress.com/tags/neurons/> that supply the vasculature (rather than sugar levels in the brain, which change much more slowly), Schwartz noted. This sensory information is then transmitted to one or more neurocircuits that control the blood sugar level in conjunction with the pancreas, which produces insulin <https://medicalxpress.com/tags/insulin/> for the body. Clinically, this is important because when treating patients with diabetes, clinicians often find that the patients' system is actively maintaining an elevated blood sugar level, presumably "because that's where the brain thinks the blood sugar level is supposed to be," Schwartz said. "For example, if a normal blood sugar is 100, a patient with diabetes may well have a blood sugar above 300," he said. "If it's been at that elevated level for days or weeks, and if you suddenly lower it back to 100, the brain will think that's too low, and will try to increase blood sugar level again." This evidence that diabetes is associated with an impaired ability of the brain to sense the blood sugar level suggests that in the future, reversing this type of sensing defect may allow the brain to control blood sugar <https://medicalxpress.com/tags/blood+sugar/> in a more appropriate way, Schwartz concluded. KR IRS 12 7 23 -- You received this message because you are subscribed to the Google Groups "Thatha_Patty" group. To unsubscribe from this group and stop receiving emails from it, send an email to thatha_patty+unsubscr...@googlegroups.com. To view this discussion on the web visit https://groups.google.com/d/msgid/thatha_patty/CAL5XZorMWV7x%2B7XuZ2nqkgWOu_y_La_993E4Q%3DWB%2Bkx4feMviA%40mail.gmail.com.