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Psychologist Doctor Collection Icons Set Vector Illustrations
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Psychologist Doctor Collection Icons Set Vector Illustrations
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Psychologist Doctor Collection Icons Set Vector Illustrations
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Psychologist Doctor Collection Icons Set Vector Illustrations
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Cognitive training for the elderly Senior woman solving crossword puzzles Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman doing crocheting
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Crochet Senior woman doing crocheting at home Cognitive rehabilitation therapy Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman knitting
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Senior woman knitting This activity is known to support the preservation of cognitive abilities Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman knitting This activity is known to support the preservation of cognitive abilities Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman playing chess
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Senior woman playing chess
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Senior woman playing chess Cognitive rehabilitation therapy Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman playing chess Cognitive rehabilitation therapy Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Neuropsychological test for cognition
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Neuropsychological test for cognition
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Neuropsychological test for cognitive function
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Cognitive ability test
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Neuropsychological test for cognitive function
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Senior woman doing cognitive function test
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Senior woman doing cognitive function test
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Senior woman solving sudoku puzzle
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Cognitive training Senior woman solving sudoku puzzles Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman solving sudoku puzzle
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Senior woman solving sudoku puzzle game Cognitive enhancement therapy for seniors Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Crosswords Cognitive rehabilitation therapy for senior women Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman solving crossword puzzle
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Cognitive training for the elderly Senior woman solving crossword puzzles Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Senior woman solving crossword puzzle
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Cognitive training for the elderly Senior woman solving crossword puzzles Photo by MICROGEN IMAGESSCIENCE PHOTO LIBRARY
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Dopamine crystals polarised light micrograph
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Dopamine crystals polarised light micrograph
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Dopamine crystals polarised light micrograph
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Dopamine crystals polarised light micrograph
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Dopamine crystals polarised light micrograph
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Glutamic acid neurotransmitter crystals light micrograph
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Glutamic acid neurotransmitter crystals light micrograph
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Glutamic acid neurotransmitter crystals light micrograph
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Glutamic acid neurotransmitter crystals light micrograph
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Glutamic acid neurotransmitter crystals light micrograph
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Fluoxetine drug light micrograph
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Fluoxetine drug light micrograph
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Fluoxetine drug light micrograph
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Fluoxetine drug light micrograph
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Fluoxetine drug light micrograph
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Fluoxetine drug light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Dopamine drug crystals light micrograph
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Human brain computer artwork
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Patient in a magnetoencephalograph (MEG) scanner A researcher directing a patient to perform various tasks as a MEG scanner maps brain activity MEG
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CAREN Virtual Reality therapy
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MEG scan head sensors A man fitted with sensors prior to being scanned by a magnetoencephalograph (MEG) scanner MEG is a functional neuroimaging tec
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Magnetoencephalography (MEG) brain scan results A researcher pointing out areas of magnetic activity in a MEG brain scan MEG is a functional neuroim
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) on glial cells (flat underneath) showing an extensive network of i
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Brain cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) on glial cells (flat dark grey) showing interconnecting dendrites
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Brain cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) on glial cells (flat dark grey) showing interconnecting dendrites
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Brain cells Scanning electron micrograph (SEM) of a cortical neuron (nerve cell centre) on glial cells (flat dark grey) showing interconnecting de
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Brain cells Scanning electron micrograph (SEM) of a cortical neuron (nerve cell centre) and a glial cell (flat top) from the brain showing interco
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Brain cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) on glial cells (flat dark grey) showing interconnecting dendrites
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Brain nerve cells Scanning electron micrograph (SEM) of cortical neurons (nerve cells) from the brain showing an extensive network of interconnectin
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Out-of-body virtual reality research Electroencephalogram showing the brain activity of a subject during an out-of body virtual reality experience T
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Out-of-body virtual reality research Electroencephalogram showing the brain activity of a subject during an out-of body virtual reality experience T
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Out-of-body virtual reality research Electroencephalogram showing the brain activity of a subject during an out-of body virtual reality experience T
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Out-of-body virtual reality research Electroencephalogram showing the brain activity of a subject during an out-of body virtual reality experience T
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Gambling addiction research
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Gambling addiction research
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Gambling addiction research
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Magnetoencephalography (MEG) scan of an axial slice of a human brain showing network activity in the resting or default-mode state This network is
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Magnetoencephalography (MEG) scans (top row) of slices of a human brain and comparison scans using Functional Magnetic Resonance Imaging (fMRI) Both
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Magnetoencephalography (MEG) scans of a human brain showing network activity in the resting or default-mode state This network is only found at re
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Magnetoencephalography (MEG) scans Scans of the magnetic fields produced by the networks of electrical currents in the neurones of the brain The top
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A woman fitted with detectors to monitor muscle activity around the eyes prior to being scanned by a magnetoencephalograph scanner (MEG) The electrod
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Woman in a magnetoencephalograph scanner The magnetoencephalograph (MEG) scanner uses 306 highly sensitive SQUIDs (Superconducting Quantum Interferen
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A woman in a magnetoencephalograph scanner (MEG) with detectors to monitor muscle activity around the eyes prior to being scanning The electrodes are
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Magnetoencephalograph scanning
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The brain of a research subject is stimulated by visual images whilst superconducting sensors (SQUIDs) in a magnetoencephalograph (MEG) detect the ver
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Magnetoencephalograph scanning
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The brain of a research subject is stimulated by visual images whilst superconducting sensors in a magnetoencephalograph (MEG) to detect the very weak
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The brain of a research subject is stimulated by visual images whilst superconducting sensors in a magnetoencephalograph (MEG) records the neural acti
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Man being scanned by a magnetoencephalograph (MEG) scanner whilst responding with a fibre-optic button box under his hand to cues from visual stimulat
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Woman wearing a cap fitted with a network of electrodes for use in electroencephalography (EEG) studies to measure electric current flows within the n
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