MR-BSU
Mind Reading Brain Scanning Unit
Shamozzle.com International News report by Mervyn E.Skilton
The MR-BSU Mind Reading Scanning Unit is the latest product
innovation of the MR-BSU Technology Laboratory. The revolutionary electronic brain imaging & reading
invention is an unbelievable scientific breakthrough, it's a
modern day mind reading miracle, with 97.1% accuracy with reading
thoughts and memories. The MR-BSU was originally designed for
medical and psychological purposes rather than fun, as I had with it,
when I recently road tested the incredible equipment.
TEST YOUR BRAiN HERE
::BRAiN
SCANNiNG/NEUROiMAGiNGinfo::
::Brain Scanning also known as Neuroimaging is the technique used to image the brain::
::In 1918 the American neurosurgeon Walter Dandy introduced the technique of ventriculography. X-ray images of the ventricular system within the brain were obtained by injection of filtered air directly into one or both lateral ventricles of the brain. Dandy also developed a technique called pneumoencephalography::
::In 1927 Egas Moniz a professor of neurology in Lisbon introduced cerebral angiography, whereby both normal and abnormal blood vessels in and around the brain could be visualized with great accuracy::
::In the early 1970s Allan McLeod Cormack and Godfrey Newbold Hounsfield introduced Computerized Axial Tomography ::CAT or ::CT scanning, which gave more detailed anatomic images of the brain, which won them a Nobel Prize for Physiology/Medicine in 1979::
::In the early 2000's, the neuroimaging main application area became crude forms of Brain-Computer Interface::
::In 2003 Peter Mansfield and Paul Lauterbur were awarded the Nobel Prize for Physiology/Medicine for the development of Magnetic Resonance Imaging aka ::MRI or ::MR scanning::
::Neuroimaging is made of 2 categories:::: STRUCTURAL IMAGING is used to diagnose large scale intracranial disease.. such as tumours and other injuries::
:: FUNCTIONAL IMAGING is used to diagnose metabolic diseases and lesions on a finer scale.. such as Alzheimer's disease and also for neurological and cognitive science research and building brain-computer interfaces::
::There are 7 types of Brain Imaging::
::CT:: Computed Tomography also known as ::CAT:: Computed Axial Tomography.. a series of x-rays taken of the head from various directions::
::MRI:: Magnetic Resonance Imaging uses magnetic fields and radio waves to produce high quality 2 or 3 dimensional images of brain structures without use of ionizing radiation X-rays or radioactive tracers::
::fMRI:: Functional Magnetic Resonance Imaging relies on the paramagnetic properties of oxygenated and deoxygenated haemoglobin to see images of changing blood flow in the brain associated with neural activity::
::PET:: Positron Emission Tomography measures emissions from radioactively labelled metabolically active chemicals that have been injected into the bloodstream and uses the data to produce 2 or 3 dimensional images of the distribution of the chemicals throughout the brain::
::SPECT:: Single Photon Emission Computed Tomography is similar to PET and uses gamma ray emitting radioisotopes and a gamma camera to record data that a computer uses to construct 2 or 3 dimensional images of active brain regions::
::DOI:: Diffuse Optical Imaging also known as a ::DOT:: Diffuse
Optical Tomography.. is
medical imaging modality which uses near infrared light to generate images
of the body. The technique measures the
optical absorption of haemoglobin::
::BRAiN-COMPUTER iNTERFACEinfo::
::BCI::
Brain-Computer Interface.. also known as ::DNI::
Direct Neutral Interface.. or ::BMI:: Brain-Machine Interface accepts
commands directly from the human or animal brain without requiring physical
movement and can be used to
operate a computer or other technologies,
through many results
from experiments since the mid 1990's. Years of animal experimentation
have produced early working implants in humans designed to restore
damaged hearing, sight and movement::
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