Websites information about Schizophrenia

No laboratory test has been found to be diagnostic of this disorder. However, individuals with Schizophrenia often have a number of (non-diagnostic) neurological abnormalities. They have enlargement of the lateral ventricles, decreased brain tissue, decreased volume of the temporal lobe and thalamus, a large cavum septum pellucidi, and hypofrontality (decreased blood flow and metabolic functioning of the frontal lobes). They also have a number of cognitive deficits on psychological testing (e.g., poor attention, poor memory, difficulty in changing response set, impairment in sensory gating, abnormal smooth pursuit and saccadic eye movements, slowed reaction time, alterations in brain laterality, and abnormalities in evoked potential electrocephalograms).

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If you have seen a picture of the brain before, it probably looked like this one, which illustrates the outer surface of the upper brain. This outer surface contains numerous folds that increase the surface area and allow more cerebral cortex to be packed into the skull, giving us more "brain power."

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temporal lobe

The Brain
The upper brain, or cerebrum, is divided into left and right halves, called cerebral hemispheres. These are connected by a bundle of nerve fibers called the corpus callosum. Each cerebral hemisphere contains four lobes: frontal, parietal, occipital, and temporal. Each lobe contains many different areas that control a variety of functions.

The brainstem and spinal cord
The lower part of the brain contains the brainstem, which controls sleep-wake cycles, breathing, and heartbeat. The upper part of the brainstem contains the thalamus and hypothalamus. The lower part of the brainstem is continued as the spinal cord, which carries messages between the brain and the rest of the body.

Nerve cells of the brain
Nerve cells, or neurons, are the building blocks of the brain. They work like computer chips, analyzing and processing information and then sending signals through the nerve fibers. The nerve fibers act like telephone wires, connecting different areas of the brain, spinal cord, muscles, and glands.

Nerve cells are so small that a microscope is needed to see them. There are approximately 100 billion nerve cells in the brain. During a seizure, each cell may fire as many as 500 times a second, much faster than the normal rate of about 80 times a second in the brain and spinal cord. Each call is bombarded by hundreds of impulses every second. One of the wonders of the human brain is how the billions of individual computers (neurons) in the brain function in a coordinated fashion to control our movements and breathing, and most importantly, to allow us to think and feel.

Neurotransmitters
Neurotransmitters are the chemical messengers of the brain. These substances are released at the end of the cell and cross the synapse, a tiny space between the walls of one cell's axon and the dendrite of the next nerve cell, to bind to receptors located on that dendrite.

There are many kinds of neurotransmitters, but each individual nerve cell produces only one major type. Some of the neurotransmitters are carried a long distance within the nervous system. Others, however, have local effects; that is, they are produced by and released onto cells that are close to each other.

Neurotransmitters are important in diseases of the nervous system. In Parkinson's disease, for example, cells that manufacture dopamine, an important neurotransmitter that regulates movement, are lost. Loss of nerve cells may contribute to the development of epilepsy in some cases. For example, prolonged lack of oxygen may cause a selective loss of cells in the hippocampus, which may lead to epilepsy.

Some of the major neurotransmitters in the brain shut off or decrease brain electrical activity. They cause nerve cells to stop firing. These neurotransmitters are called "inhibitory" because they inhibit the activity of the cells. A neurotransmitter called GABA is the best-known example of this type.

Other neurotransmitters stimulate or increase brain electrical activity. That is, they cause nerve cells to fire. These are described as "excitatory." Glutamate is an example of this type.

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