Not exact matches
According
to Livestrong, your body —
more specifically the
cells inside it — require
glucose, a key component in carbohydrates,
to function.
Similar
to turmeric, cinnamon improves insulin sensitivity and allows
glucose to be transported from the blood and into the
cells much
more efficiently.
In order
to generate enough energy, the bone
cells in our mice therefore take up much
more glucose than normal.»
One of the
cell lines was vulnerable
to being cut off from
glucose alone, but the others needed
more interference.
Witness Avandia, a popular drug available since 1999 that lowers blood
glucose by making
cells more receptive
to insulin — but that also, according
to a report published in the New England Journal of Medicine in May, increases the risk of heart attack.
«Our stem
cell - based studies indicate that low - calorie sweeteners promote additional fat accumulation within
cells compared with
cells not exposed
to these substances, in a dose - dependent fashion — meaning that as the dose of sucralose is increased
more cells showed increased fat droplet accumulation,» said Sabyasachi Sen, M.D., Associate Professor of Medicine at George Washington University in Washington, D.C. «This most likely occurs by increasing
glucose entry into
cells through increased activity of genes called
glucose transporters.»
Because older red blood
cells have had
more time
to pick up sugar in the blood, they can potentially skew the A1C test result, which averages
glucose across red blood
cells of all ages in the bloodstream.
To develop a
more accurate method, Higgins and colleagues designed a mathematical model of
glucose chemistry and red blood
cell turnover and combined it with large data sets of patient
glucose measurements.
Studies in rodents and in human fetal beta
cells have showed that the responses of very young beta
cells to increases in blood
glucose are blunted when compared
to their
more - mature counterparts.
That keeps blood
glucose levels high, forcing the pancreas
to make even
more insulin in a desperate attempt
to jam the stuff through
cell membranes.
When
cells are insulin - resistant,
more insulin is required
to control blood
glucose.
Medicines used
to treat diabetes fall into four groups: those that stimulate the pancreas
to put out
more insulin; those that lower insulin resistance in
cells; those that help the body use insulin; and those that slow down or block the breakdown of starches, which in turn keeps blood -
glucose levels lower.
In adults,
more cannabinoids will force one group of
cells to more intensive work, but at the same time it will weaken the efficiency of the other, and in consequence blood
glucose level will not change or may even increase significantly.»
The researchers found that the Type I diabetic mice that received the modified insulin and blood
cell system were able
to significantly reduce blood
glucose levels for
more than two days.
Low WWOX levels will allow
more glucose to be used for these cancer
cell «building blocks».»
GLUT1 appears here because these
cells have been taken over by the virus, which increases demand for
more glucose to continue its infectious path.
Cancer
cells tend
to use
glucose to make
more cell «building blocks» than energy, and this is thought
to help them
to divide and grow.
If Lsd1 is inhibited in mice, the animals»
cells take up
more glucose, their capacities
to convert
glucose into energy increases, and they use less fatty acid, for example.
People develop type 2 diabetes over time as their bodies become
more and
more resistant
to the hormone insulin, which is necessary
to process the
glucose in blood that provides energy for
cells, explains Dr. Patti, who is also an Assistant Professor at Harvard Medical School.
The
more nutrients we intake, the
more β -
cells we need in order
to cope with the increasing
glucose concentrations produced from these nutrients.
Cancer
cells compensate for this, at least in part, by up - regulating
glucose receptors (GLUT1)
to import
more glucose into the cytoplasm.
By 72 hours, the
cells with depleted
glucose levels began
to make thicker
cell walls, possibly
to protect themselves until they could find
more favorable environmental conditions.
When developing heart
cells are exposed
to high levels of
glucose, the researchers found, the
cells generate
more building blocks of DNA than usual, which leads the
cells to continue reproducing rather than mature.
In contrast, when they caused the fat
cells to make
more p75NTR,
glucose absorption was reduced.
A transcriptome research of its organs revealed its gene signature is highly evolved and adapted for extreme longevity (slow metabolism, improved insulin gene signaling and
glucose homeostasis, thus reduced blood
glucose, improved cancer genes, improved endothelial function by eNOS (endothelial Nitric Oxide Synthase) meaning improved vascular coronary blood flow, improved microvasculature arterial and heart endothelium function) but
more importantly,
to answer your question, some whales display low blood
glucose hypoglycemia, this affects the quantity and period of proteins / DNA /
cell exposure
to glucose glycation, glycosylation and glycoxydation reactions.
But cardiomyocytes that had been mixed with high levels of
glucose matured late or failed
to mature altogether, and instead generated
more immature
cells.
The
glucose, like all of the nutrients, soon gets absorbed into the bloodstream creating a peak in what we call «blood sugar levels», which results with the releasing of
more insulin from the pancreas in order
to push
glucose to the
cells, basically «commanding» the
cells to open up and absorb it, where it gets used as an energy source.
The job of testosterone is
to promote protein synthesis and support production of new red blood
cells, which increase the body's ability
to utilize oxygen
more effectively, which then leads
to more efficient usage of
glucose.
As a result, your pancreas starts pumping out
more insulin, which is responsible for the transport of
glucose to the
cells, where it is either stored as fat, or burned as a fuel.
The muscle
cells build up a resistance
to insulin, so the body produces
more and
more in an attempt
to maintain the transport of
glucose to the
cells for energy.
tells your body
to store excess
glucose as fat
cells and
to make
more.
Skipping your breakfast will also re-sensitize your
cells to glucose and make them utilize
more optimally.
«Exercise makes every
cell more sensitive
to insulin, so
glucose enters your cells more easily,» says Christine Armarego, exercise physiologist from Sydney's Glucos
glucose enters your
cells more easily,» says Christine Armarego, exercise physiologist from Sydney's
GlucoseGlucose Club.
The problem with that: Exercise enhances insulin sensitivity and prompts your muscle
cells to pull
more glucose from your bloodstream.
Regular exercise targets both brains as once, as it can help improve your digestion and bowel movements, sleep, mood, blood flow, and blood sugar regulation — making
cells more sensitive
to take in
glucose for energy.
«We believe that low - calorie sweeteners promote additional fat formation by allowing
more glucose to enter the
cells, and promotes inflammation, which may be
more detrimental in obese individuals,» explains the study's author.
This high level of
glucose in the bloodstream causes the pancreas
to make
more insulin with hopes
to get the
cells to respond.
The body then releases even
more insulin, trying desperately
to get the
cells to uptake the toxic
glucose.
The key and lock still do not fit very well, but because there are many
more keys, the
cell is able
to get enough
glucose.
The
more Insulin - resistant, meaning the
more Insulin you need
to make that receptor site happy
to pull that
Glucose in, typically the less active you are, the
more fat
cells you have so, the
more your body will store that and not burn it.
But making the body run on ketones means that it will become
more sensitive
to any
glucose you take in from carbs — you won't need as much insulin
to deliver it
to your
cells, and that provides a big relief
to your pancreas.
When people talk about being
more Insulin sensitive, that means you need less Insulin
to fit into the receptor site
to pull that
Glucose into the
cell to utilize it for fuel or store as fat — one of the two, right?
Glucose increases the turnover of dead skin
cells and insulin stimulates your sebaceous glands
to produce
more sebum (oil).
And when these
cells are exposed
to both
glucose and fructose, they secrete
more insulin than they do when exposed
to glucose alone.
More: Using creatine and glycerol to increase hydration helps endurance athletes in the heat 07.03.2012 Creatine and beta - alanine combined improve endurance capacity 15.02.12 Muscle cells absorb more glucose with creatine 16.12.
More: Using creatine and glycerol
to increase hydration helps endurance athletes in the heat 07.03.2012 Creatine and beta - alanine combined improve endurance capacity 15.02.12 Muscle
cells absorb
more glucose with creatine 16.12.
more glucose with creatine 16.12.2008
As a result, the increased acetate stimulated the beta
cells of the pancreas
to secrete
more insulin in response
to glucose.
Exercise helps reduce Insulin Resistance, because it makes muscle
cells have
more mitochondria, so the
cells have the capacity
to accept
more sugar /
glucose.
Excess
glucose is stored in the liver; when needed
to sustain blood sugar between meals, the liver releases sugar and the pancreas responds with
more insulin
to help it enter
cells.
It does this by helping
glucose enter
cells without forcing the pancreas
to pump out
more insulin.
Green tea contains insulin booster The most important bioactive substance in green tea, EGCG or epigallocatechine gallate, induces muscles
cells to absorb
more glucose.