Iron deficiency is a worldwide
problem and this protocol appears to be helpful in that large iron complexes
are absorbed as well as the more common single atom form. Hopefully this is all bioavailable but that
is not commented on here and I simply do not know enough about the pathways.
It also seems to infer that this
form is delivered through legumes which eliminate the problematic meat
solution.
The article seems to generally
infer that iron deficiency can be made up through dietary legumes, although it
is not spelled out that way unfortunately. So be careful and wait for more to
come here.
Could Provide Key to Treating Iron Deficiency Worldwide Novel Iron
Source: Newly Identified Iron Absorption Mechanism Suggests That Legumes
ScienceDaily (Jan. 20, 2012) —
A groundbreaking study conducted by Children's Hospital Oakland
Research Institute (CHORI) Senior Scientist Elizabeth Theil, PhD, is the first
to reveal the existence of at least two independent mechanisms for iron
absorption from non-meat sources-and a potential treatment for iron deficiency,
the most common nutrient deficiency worldwide. Dr. Theil's discovery of an
alternative mechanism for iron absorption from vegetables and legumes may
provide the key to helping solve iron deficiency by providing an alternative,
affordable, and readily available source of iron
In an upcoming publication in The Journal of Nutrition (published
online January 18, 2012), Dr. Theil and her international colleagues
demonstrate that there is an alternative mechanism for the absorption of
ferritin, a large, protein-coated iron mineral rich in legumes, in addition to
the more well-known mechanism for iron absorption of small iron complexes like
those found in iron supplements.
"Our study shows that this different mechanism of iron
absorption from plant ferritin is more efficient and gives the intestinal cells
more control. It can be a new way to help solve global iron deficiency,"
says Dr. Theil.
Iron deficiency is the most common nutrient deficiency in both
developing and non-developing nations. Traditional treatments include iron
supplements and increased meat consumption. Both of these approaches have proven
to have significant limitations, however.
Iron supplements frequently cause uncomfortable side effects, including
gas and bloating, which lead to inconsistent consumption. In some cultures
where iron deficiency is endemic, meat is scarce; frequently, the limited meat
available is reserved for men, even though growing children and women of
child-bearing age are the most susceptible to iron deficiency. The discovery of
an alternative and highly efficient mechanism for iron absorption from legumes,
however, could provide the key to helping solve worldwide iron deficiency by
providing a readily available and affordable source of iron.
The new study combines the results of two different experiments, one
conducted in humans and the other using rats to model humans. In the rat model,
portions of the rat intestines were bathed with solutions of traceable iron,
either as a typical type of iron supplement or as ferritin (protein-coated iron
mineral). Measurements showed that both the large ferritin and the smaller iron
complex were absorbed through the intestine.
In the human study, traceable iron in ferritin was consumed by
volunteers with a 9:1 ratio of unlabelled, non-meat iron dietary supplement, or
with hemoglobin, with the type of heme iron in meat, to see if the two types of
iron competed with ferritin iron for the same absorption mechanism. In each
case, the iron competitor had no effect on the iron absorption from ferritin.
"What these studies show together is that during digestion,
ferritin is not converted from its large, mineral complex, which contains a
thousand iron atoms, to individual iron atoms like those found in many iron
supplements," explains Dr. Theil. "Instead, ferritin iron is absorbed
in its protein-coated, iron mineral form by a different, independent mechanism;
iron absorbed as ferritin, leaves the intestine more slowly, but may, provide
greater safety to the intestines than iron supplements."
In addition to potentially being safer, causing less irritation to the
intestines, absorption of iron as ferritin is easier for the intestine. The
iron found in meat and non-meat iron supplements enters the intestine from food
one iron atom at a time. Each entry step requires the intestinal cells to use
up energy. When the intestine takes in a single molecule of ferritin,
however, it gets a thousand atoms inside that one ferritin molecule, making
iron absorption that much more efficient.
While further studies are needed to elucidate the exact mechanism of
ferritin absorption, in the mean time, the results demonstrate that
ferritin-rich foods such as legumes can provide a significant source of dietary
iron for those in the greatest need of increasing their iron consumption.
There are three ways to take minerals.
ReplyDeleteMineral Tablet
Liquid Mineral
Encapsulated Mineral Powders
Iron supplement