The Link Between Dementia and Iron

Alzheimer's-Disease

Measuring iron in the brain is the best known way to confirm dementia without performing an autopsy after death. The brain naturally creates tiny bits of iron referred to as “magnetite”. As a human being ages, more and more iron accumulates within the brain. Too much iron however, is a hallmark of dementia. It is theorized that this overproduction of iron is actually due to external factors like pollution rather than naturally occurring phenomena. Dr. Barbara Marr, a world renowned expert and authority in respect to the measurement of metal in incredibly small particles, took thin tissue sections of affected brains obtained during autopsy and observed them under a highly resolved transmission electronmicroscope to review the particles within the neurons of the brain and found 2 different shapes of particle. The magnetite particles are beautifully crystalline, regular and geometric, whilst the opposing particles were rounded in shape, referred to as “spherls” or “nanospheres”, rounded in shape because they were originally molten droplets. For every 1 biologically manufactured magnetite, 100 artificially implanted foreign particles of iron are found within the brains of those affected by this condition as confirmed by a study which took place in Mexico City, Mexico. Although not definitely proven, the shape of these secondary particles is remarkably similar to that of airborne pollution, which suggests to scientists that there is a discernible correlation between the 2 types

The Evolution of Primitive and Sophisticated Neural Networks

neural-network

The human brain has 100,000,000,000,000 (100 trillion) connections and 86,000,000,000 (86 billion) neurons, which is more connections and neurons than there are stars in the Milky Way Galaxy. Ironically, the majority of the most successful creatures on Earth do not have a brain; organisms like plants, coral, and jellyfish. The sea squirt is a primary example as it has just 200 neurons, allowing it only to perceive and display simple interaction with the environment by sensing light and moving its flagellum. The sea squirt moves around until it finds a rock, then it dumps its tail and uses those once dedicated neurons for different applications, staying anchored to this spot for the rest of its life. Neurons were originally designed to allow for simple motion and movement, but as evolution progressed steadily, neural networks began to build and design intelligent life which is capable of consciousness and a sense of self but also more abstract concepts like art, mathematics, and science