Throw away all foods containing titanium dioxide. The drug Nexium has this compound.
Possible link found between diabetes and common white pigment
In a pilot study by a team of researchers at The University of Texas at Austin, crystalline particles of titanium dioxide -- the most common white pigment in everyday products ranging from paint to candies -- were found in pancreas specimens with Type 2 diabetes, suggesting that exposure to the white pigment is associated with the disease.
Titanium dioxide (TiO2) is not a known constituent of any normal human tissue. Our body normally has plenty of salts and compounds of metallic elements such as sodium, potassium, calcium, iron and magnesium, as well as lesser amounts of other metallic elements like cobalt or molybdenum but not of titanium.
The team examined 11 pancreas specimens, eight of which were from donors who had Type 2 diabetes (T2D) and three from donors who did not. Whereas the three non-diabetic pancreatic tissue specimens contained no detectable TiO2 crystals, the crystals were detected in all of the eight T2D pancreatic tissue specimens. The UT Austin researchers found more than 200 million TiO2 crystallites per gram of TiO2 particles in the specimens from T2D donors but not in the three specimens from non-diabetic donors. They published their findings last month in the journal Chemical Research in Toxicology.
Possible link found between diabetes and common white pigment
In a pilot study by a team of researchers at The University of Texas at Austin, crystalline particles of titanium dioxide -- the most common white pigment in everyday products ranging from paint to candies -- were found in pancreas specimens with Type 2 diabetes, suggesting that exposure to the white pigment is associated with the disease.
Titanium dioxide (TiO2) is not a known constituent of any normal human tissue. Our body normally has plenty of salts and compounds of metallic elements such as sodium, potassium, calcium, iron and magnesium, as well as lesser amounts of other metallic elements like cobalt or molybdenum but not of titanium.
The team examined 11 pancreas specimens, eight of which were from donors who had Type 2 diabetes (T2D) and three from donors who did not. Whereas the three non-diabetic pancreatic tissue specimens contained no detectable TiO2 crystals, the crystals were detected in all of the eight T2D pancreatic tissue specimens. The UT Austin researchers found more than 200 million TiO2 crystallites per gram of TiO2 particles in the specimens from T2D donors but not in the three specimens from non-diabetic donors. They published their findings last month in the journal Chemical Research in Toxicology.
