Default Theme

Imaging the Brain with Optical Methods [electronic resource] / edited by Anna W. Roe.

Call Number	612.8
Title	Imaging the Brain with Optical Methods edited by Anna W. Roe.
Physical Description	online resource.
Contents	Casting Light on Neural Function: A Subjective History -- Fluorescent Sensors of Membrane Potential that Are Genetically Encoded -- The Influence of Astrocyte Activation on Hemodynamic Signals for Functional Brain Imaging -- Somatosensory: Imaging Tactile Perception -- How Images of Objects Are Represented in Macaque Inferotemporal Cortex -- Optical Imaging of Short–Term Working Memory in Prefrontal Cortex of the Macaque Monkey -- Intraoperative Optical Imaging of Human Cortex -- Using Optical Imaging to Investigate Functional Cortical Activity in Human Infants -- In Vivo Dynamics of the Visual Cortex Measured with Voltage Sensitive Dyes -- Fast Optical Neurophysiology -- Two-Photon Laser Scanning Microscopy as a Tool to Study Cortical Vasodynamics Under Normal and Ischemic Conditions.
Summary	The technology of detecting and interpreting patterns of reflected light has reached a remarkable degree of maturity that now permits high spatial and temporal resolution visualization at both the systems and cellular levels. There now exist several optical imaging methodologies, based on either hemodynamic changes in nervous tissue or neurally-induced light scattering changes, that can be used to measure ongoing activity in the brain. Imaging the Brain with Optical Methods presents the history of optical imaging and its use in the study of brain function, and the rapidly developing optical technologies and their applications that have recently developed. These include intrinsic signal optical imaging, near-infrared optical imaging, fast optical imaging based on scattered light, optical imaging with voltage sensitive dyes, and 2 photon imaging of hemodynamic signals. In total, this volume captures a profile of the current state of optical imaging methodologies and their contribution towards understanding the spatial and temporal organization of cerebral cortical function. Imaging the Brain with Optical Methods will be highly valuable for researchers and clinicians interested in brain imaging methods and brain function, including advanced undergraduates, and doctoral students, neuroscientists, physicists, psychologists, bioengineers, neurologists, psychiatrists, and neurosurgeons. About the author: Dr. Anna W. Roe is a professor of psychology and radiology at Vanderbilt University. She has developed optical methods for studying brain function and specializes in how our brain builds real vs. illusory percepts of the world.
Added Author	Roe, Anna W. editor. SpringerLink (Online service)
Subject	MEDICINE. NEUROSCIENCES. NEUROLOGY. NANOTECHNOLOGY. Biomedicine. Neurosciences. Nanotechnology. Neurology.
Multimedia	http://dx.doi.org/10.1007/978-1-4419-0452-2

Libraries with this item

950	Biomedical and Life Sciences (Springer-11642)

Total Ratings: 0

Copies
MARC Record
Reviews
Details


No records found to display.

03913nam a22004815i 4500

001

vtls001568349

003

VRT

005

20170831182900.0

007

cr nn 008mamaa

008

170831s2010 xxu| s |||| 0|eng d

020

$a 9781441904522 $9 978-1-4419-0452-2

024

$a 10.1007/978-1-4419-0452-2 $2 doi

035

$a (DE-He213)978-1-4419-0452-2

039

$a 201708311829 $b santha $y 201708311321 $z vjs2012

050

$a RC321-580

072

$a PSAN $2 bicssc

072

$a MED057000 $2 bisacsh

082

$a 612.8 $2 23

245

$a Imaging the Brain with Optical Methods $h [electronic resource] / $c edited by Anna W. Roe.

264

$a New York, NY : $b Springer New York, $c 2010.

300

$b online resource.

336

$a text $b txt $2 rdacontent

337

$a computer $b c $2 rdamedia

338

$a online resource $b cr $2 rdacarrier

347

$a text file $b PDF $2 rda

505

$a Casting Light on Neural Function: A Subjective History -- Fluorescent Sensors of Membrane Potential that Are Genetically Encoded -- The Influence of Astrocyte Activation on Hemodynamic Signals for Functional Brain Imaging -- Somatosensory: Imaging Tactile Perception -- How Images of Objects Are Represented in Macaque Inferotemporal Cortex -- Optical Imaging of Short–Term Working Memory in Prefrontal Cortex of the Macaque Monkey -- Intraoperative Optical Imaging of Human Cortex -- Using Optical Imaging to Investigate Functional Cortical Activity in Human Infants -- In Vivo Dynamics of the Visual Cortex Measured with Voltage Sensitive Dyes -- Fast Optical Neurophysiology -- Two-Photon Laser Scanning Microscopy as a Tool to Study Cortical Vasodynamics Under Normal and Ischemic Conditions.

520

$a The technology of detecting and interpreting patterns of reflected light has reached a remarkable degree of maturity that now permits high spatial and temporal resolution visualization at both the systems and cellular levels. There now exist several optical imaging methodologies, based on either hemodynamic changes in nervous tissue or neurally-induced light scattering changes, that can be used to measure ongoing activity in the brain. Imaging the Brain with Optical Methods presents the history of optical imaging and its use in the study of brain function, and the rapidly developing optical technologies and their applications that have recently developed. These include intrinsic signal optical imaging, near-infrared optical imaging, fast optical imaging based on scattered light, optical imaging with voltage sensitive dyes, and 2 photon imaging of hemodynamic signals. In total, this volume captures a profile of the current state of optical imaging methodologies and their contribution towards understanding the spatial and temporal organization of cerebral cortical function. Imaging the Brain with Optical Methods will be highly valuable for researchers and clinicians interested in brain imaging methods and brain function, including advanced undergraduates, and doctoral students, neuroscientists, physicists, psychologists, bioengineers, neurologists, psychiatrists, and neurosurgeons. About the author: Dr. Anna W. Roe is a professor of psychology and radiology at Vanderbilt University. She has developed optical methods for studying brain function and specializes in how our brain builds real vs. illusory percepts of the world.

650

$a MEDICINE.

650

$a NEUROSCIENCES.

650

$a NEUROLOGY.

650

$a NANOTECHNOLOGY.

650

$a Biomedicine.

650

$a Neurosciences.

650

$a Nanotechnology.

650

$a Neurology.

700

$a Roe, Anna W. $e editor.

710

$a SpringerLink (Online service)

773

$t Springer eBooks

776

$i Printed edition: $z 9781441904515

856

$u http://dx.doi.org/10.1007/978-1-4419-0452-2

912

$a ZDB-2-SBL

950

$a Biomedical and Life Sciences (Springer-11642)

999

$a VIRTUA

No Reviews to Display

Summary	The technology of detecting and interpreting patterns of reflected light has reached a remarkable degree of maturity that now permits high spatial and temporal resolution visualization at both the systems and cellular levels. There now exist several optical imaging methodologies, based on either hemodynamic changes in nervous tissue or neurally-induced light scattering changes, that can be used to measure ongoing activity in the brain. Imaging the Brain with Optical Methods presents the history of optical imaging and its use in the study of brain function, and the rapidly developing optical technologies and their applications that have recently developed. These include intrinsic signal optical imaging, near-infrared optical imaging, fast optical imaging based on scattered light, optical imaging with voltage sensitive dyes, and 2 photon imaging of hemodynamic signals. In total, this volume captures a profile of the current state of optical imaging methodologies and their contribution towards understanding the spatial and temporal organization of cerebral cortical function. Imaging the Brain with Optical Methods will be highly valuable for researchers and clinicians interested in brain imaging methods and brain function, including advanced undergraduates, and doctoral students, neuroscientists, physicists, psychologists, bioengineers, neurologists, psychiatrists, and neurosurgeons. About the author: Dr. Anna W. Roe is a professor of psychology and radiology at Vanderbilt University. She has developed optical methods for studying brain function and specializes in how our brain builds real vs. illusory percepts of the world.
Contents	Casting Light on Neural Function: A Subjective History -- Fluorescent Sensors of Membrane Potential that Are Genetically Encoded -- The Influence of Astrocyte Activation on Hemodynamic Signals for Functional Brain Imaging -- Somatosensory: Imaging Tactile Perception -- How Images of Objects Are Represented in Macaque Inferotemporal Cortex -- Optical Imaging of Short–Term Working Memory in Prefrontal Cortex of the Macaque Monkey -- Intraoperative Optical Imaging of Human Cortex -- Using Optical Imaging to Investigate Functional Cortical Activity in Human Infants -- In Vivo Dynamics of the Visual Cortex Measured with Voltage Sensitive Dyes -- Fast Optical Neurophysiology -- Two-Photon Laser Scanning Microscopy as a Tool to Study Cortical Vasodynamics Under Normal and Ischemic Conditions.
Subject	MEDICINE. NEUROSCIENCES. NEUROLOGY. NANOTECHNOLOGY. Biomedicine. Neurosciences. Nanotechnology. Neurology.
Multimedia	http://dx.doi.org/10.1007/978-1-4419-0452-2