from KurzweilAI http://www.kurzweilai.net
from KurzweilAI http://www.kurzweilai.net
from KurzweilAI http://www.kurzweilai.net
from KurzweilAI http://www.kurzweilai.net
http://www.forbiddenmedicine.org/
http://thecholesterollie.com/aff/ about heart health, a book
Common medicinal herbs of the Ozarks: History, folklore and uses by Bob Liebert (1985)
http://chestofbooks.com/health/
http://thecholesterollie.com/aff/ about heart health, a book
http://publications.imva.info/index.php/e-books/magnesium-medicine-e-book.html free on line
http://publications.imva.info/index.php/e-books/sodium-bicarbonate-rich-man-s-poor-man-s-cancer-treatment-e-book.html free on line
Islamic medical manuscripts
http://www.nlm.nih.gov/hmd/arabic/E8.html
The Dehydrator Bible
Magnificent Mind at any age; natural ways to unleash your brain's maximum potential; by daniel amen
The Whole food guide to strong bones;a holistic approach by Annemarie Colbin
Dr. David Brownstein Iodine – Why You Need It" http://www.amazon.com/s/ref=nb_ss_b?url=search-alias%3Dstripbooks&field-keywords=Dr.+David+Brownstein++Iodine+%96+Why+You+Need+It
The packaging methods and sanitary standards used by food companies are being questioned as more information comes to light of ways that companies cut corners to keep costs low.
The discovery of mould in apple sauce packages that was then distributed to school children prompted a warning from the Food and Drug Administration earlier this month.
But the widespread nature of 'reconditioning', a process used by food companies to help salvage food that has gone bad, makes the investigation applicable to all food producers.
Their main conclusion is that North American and Western European cuisines tend towards recipes with ingredients that share flavours, while Southern European and East Asian recipes tend to avoid ingredients that share flavours.
In other words, the food pairing hypothesis holds in Western Europe and North America. But in Southern Europe and East Asia a converse principle of antipairing seems to be at work.
Researchers make magnetic nanoparticles that can latch on to harmful molecules and purge them from the blood.
Researchers in Zurich, Switzerland, are developing nanomagnets that could someday strip potentially harmful substances from the blood. The technology might be used to treat people suffering from drug intoxication, bloodstream infections, and certain cancers.
The project involves magnetized nanoparticles that are coated with carbon and studded with antibodies specific to the molecules the researchers want to purge from the blood: inflammatory proteins such as interleukins, or harmful metals like lead, for example. By adding the nanomagnets to blood, then running the blood through a dialysis machine or similar device, the researchers can filter out the unwanted compounds.
"The nanomagnets capture the target substances, and right before the nanoparticles would be recirculated, the magnetic separator accumulates the toxin-loaded nanomagnets in a reservoir and keeps them separated from the recirculating blood," explains Inge Herrmann, a chemical engineer at the University of Zurich who is leading the work.