Geriatric Healthcare Specialist Tomball TX

In a study recently published in the Journal of Alzheimer’s Disease, researchers from Brown Medical School found that reduced glucose uptake and decreased metabolism in the hippocampus—the area of the brain associated with memory—cause neurodegeneration and cognitive impairment.
Balbir S Chahal, MD
281-357-0661
455 School St Ste 44
Tomball, TX
Stephanie Robin Bruce, MD
455 School Sreet
Tomball, TX
Balbir Singh Chahal
(281) 357-0661
455 School St
Tomball, TX
James Ergle Cook Jr, MD
281-897-8077
11830 Fm 1960 Rd W
Houston, TX
Duyen My Tran
(281) 893-8726
17115 Red Oak Dr
Houston, TX
William E Tompkins
(281) 516-0212
13414 Medical Complex Drive
Tomball, TX
Sandro Sinatora
(281) 516-0212
13414 Medical Complex Dr
Tomball, TX
Kathryn Buskirk, MD
281-583-7766
3934 Fm 1960 Rd W Ste 330
Houston, TX
Lillian Howard
(281) 890-6446
11700 Fm 1960 Rd W
Houston, TX
Peter Christopher Bigler
(281) 210-1200
6704 Sterling Ridge Dr
The Woodlands, TX
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Food for Thought

By Kris Kucera

Rarely does an extended family get a free pass from Alzheimer’s disease or diabetes mellitus. On the surface, these two afflictions appear totally unrelated —Alzheimer’s (AD), Mother Nature’s cruel version of identity theft; and diabetes, the glucose-metabolism disorder that affects both young and old alike. However, new research indicates that the two diseases behave in a similar manner.

In a study recently published in the Journal of Alzheimer’s Disease, researchers from Brown Medical School found that reduced glucose uptake and decreased metabolism in the hippocampus—the area of the brain associated with memory—cause neurodegeneration and cognitive impairment. This, they say, suggests that a form of diabetes, tentatively dubbed type 3, leads to AD.

Type 1 diabetes results from a severe or complete lack of insulin, a hormone made in the pancreas that controls blood sugar. Type 2, dubbed adult onset diabetes (although these days it occurs in teenagers and even younger kids), also stems from a dearth of insulin, or insulin resistance —the existing insulin molecules cannot deliver glucose through the cells’ membranes. Surprisingly, the researchers found a new form of insulin, produced in the brain, and they believe that, over time, decreasing levels of this “brain insulin” and other insulin-related proteins ultimately precipitate AD. While levels of brain insulin have no known affect on a body’s overall blood sugar, scientists have long recognized that diabetes patients are more likely to develop AD than those without the disease.

Skeptics of the Brown team’s findings argue that our brains produce so little insulin in the first place, reduced levels of the hormone can’t possibly play a significant role in AD. Regardless, the new data show that AD may be a neuroendocrine disorder, thus increasing the possibility for more effective treatments. And that gives hope to all of us who may one day be touched, directly or indirectly, by the merciless hand of AD.

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