Physiological Imaging of the Brain with PET
- 1st Edition - October 13, 2000
- Latest edition
- Editors: Albert Gjedde, Soren B. Hansen, Gitte M. Knudsen, Olaf B. Paulson
- Language: English
Physiological Imaging of the Brain with PET provides the latest techniques and applications for PET as a tool to study the physiology of the brain, and is sponsored by the Intern… Read more
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Physiological Imaging of the Brain with PET provides the latest techniques and applications for PET as a tool to study the physiology of the brain, and is sponsored by the International Society of Cerebral Blood Flow and Metabolism. It covers all of the fundamental disciplines of PET in one volume. Written by international experts in brain imaging, it is a useful reference for the active brain PET scientist, and a valuable introduction to students, clinicians, and researchers who wish to take advantage of the capabilities of this technique to study the normal and diseased brain.
@introbul:Key Features
@bul:* Provides the latest techniques and applications of positron emission tomography (PET)
* Covers all fundamental disciplines of PET in one volume
* Serves as a comprehensive resource for students, clinicians and new researchers
@bul:* Provides the latest techniques and applications of positron emission tomography (PET)
* Covers all fundamental disciplines of PET in one volume
* Serves as a comprehensive resource for students, clinicians and new researchers
Professionals, academic clinicians in neurology, neuroscience, brain imaging, and radiologists.
Section I: Instrumentation and Image Analysis
Chapter 1 (788):Validation of a dynamic PET simulator in clinical brain studies:Y. Ma, O. Rousset, P. Neelin, A. Evans, V. Dhawan, D. Eidelberg
Chapter 2 (783):PET reconstruction with a Markov Random Field prior:P. A. Philipsen, L. K. Hansen
Chapter 3 (817):A new method for correcting head movement artifact in positron emission tomography:O. R. Mawlawi, E. F. Leonard, J. L. Humm, S. M. Larson
Chapter 4 (782):Automated image registration of PET brain scans using neural networks:O. L. Munk, S. B. Hansen
Chapter 5 (771):Statistical estimation of PET images in wavelet domain:F. E. Türkheimer, M. Brett, D. Visvikis, V. J. Cunningham
Chapter 6 (772):FIPS: A functional image processing system for PET dynamic studies:D. Feng, W. Cai, R. Fulton
Chapter 7 (778):Automated delineation of brain structures with snakes in PET:J. M. Mykkänen, J. Tohka, Ulla Ruotsalainen
Chapter 8 (790):Analysis of functional imaging data sets via functional segmentation:R. N. Gunn, J. Ashburner, J. Aston, V. J. Cunningham
Chapter 9 (832)
:Preliminary studies of computer aided ligand design for PET:A. J. Abrunhosa, F. Brady, S. Luthra, J. J de Lima, T. Jones
Section II: General Compartment Kinetics
Chapter 10 (773)
:Correction of partial volume effect on rate constant estimation in compartment model analysis of dynamic PET study:K. Uemura, H. Toyama, Y. Ikoma, K. Oda, M. Senda, A. Uchiyama
Chapter 11 (816):Partial volume effect correction: methodological considerations:M. Slifstein, O. R. Mawlawi, M. Laruelle
Chapter 12 (791):Venous sinuses vs. on-line arterial sampling as input functions in PET:M.-C. Asselin, V. J. Cunningham, N. Turjanski, L. M. Wahl, P. M. Bloomfield, R. N. Gunn, C. Nahmias
Chapter 13 (784)
:Identification of linear compartmental systems that can be analyzed by spectral analysis of the sum of all compartments:K. C. Schmidt
Chapter 14 (787):Evaluation of the reliability of parameter estimates in the compartment model analysis by using the fitting error:Y. Ikoma, H. Toyama, K. Uemura, Y. Kimura, M. Senda, A. Uchiyama
Chapter 15 (792):A linear solution for calculation of accurate K1 and k2 maps using the two-compartment CBF model:P.-J. Toussaint, E. Meyer
Section III: Specific Compartment Kinetics
Chapter 16 (835):Do in vitro enzyme kinetics predict in vivo radiotracer kinetics?:S. E. Snyder, T. Bryan, N. Gunupudi, E. R. Butch, M. R. Kilbourn
Chapter 17 (763)
:Accuracy of FDG images as a measure of cerebral glucose metabolic rate: Influence of rate constant heterogeneity:M. Senda, H. Toyama, Y. Ikoma, Y. Kimura, K. Uemura, K. Ishii
Chapter 18 (785):Regional FDG lumped constant in the normal human brain:M. M. Graham, M. Muzi, A. M. Spence, F. O'Sullivan, T. K. Lewellen, J. M. Link, K. A. Krohn
Chapter 19 (819):Validation of noninvasive quantification technique for neurologic FDG-PET studies:K. P. Wong, D. Feng, S. R. Meikle, M. J. Fulham
Chapter 20 (793):Effect of population k2 values in graphical estimation of DV ratios of reversible ligands:J. E. Holden, V. Sossi, G. Chan, D. J. Doudet, A. J. Stoessl, T. J. Ruth
Chapter 21 (765):Measuring the BP of four dopaminergic tracers utilizing a tissue input function:V. Sossi, J. E. Holden, G. Chan, M. Krzywinski, A. J. Stoessl, T. J. Ruth
Chapter 22 (786)
:Tracer conversion rate and accuracy of compartmental model parameter in irreversibly trapped radiotracer method:S. Nagatsuka, K. Fukushi, H. Namba, H. Shinotoh, N. Tanaka, S. Tanada, T. Irie
Section IV: Parametric Imaging
Chapter 23 (806):A reliable unbiased parametric imaging algorithm for noisy clinical brain PET data:D. Feng, W. Cai, R. Fulton
Chapter 24 (759):Smooth variance maps using parameter projections
:R. P. Maguire, K. L. Lenders, N. M. Spyrou
Chapter 25 (760):Model fitting with spatial constraint for parametric imaging in dynamic PET studies:Y. Zhou, S-C. Huang, M. Bergsneider
Chapter 26 (762):A less-sensitive to noise spectral analysis method:A. Bertoldo, C. Cobelli
Chapter 27 (761):Small animal PET enables parametric mapping of saturation kinetics at the 5-HT1A receptor:R. N. Gunn, S. P. Hume, E. Hirani, I. Khan, J. Opacka-Juffry
Chapter 28 (784)
:Identification of linear compartmental systems that can be analyzed by spectral analysis of the sum of all compartments:K. C. Schmidt
Section V: Dopamine Enzyme, Receptor, Transporter and Release Imaging
Chapter 29 (801):Determination of 6-[18F]fluoro-L-dopa metabolites: importance in interpretation of PET results:H. M. Ruottinen, J. R. Bergman, V. J. Oikonen, M. T. Haaparanta, O. H. Solin, J. O Rinne
Chapter 30 (803)
:Special characteristics of 6-fluorodopa can cause biased estimates of dopa decarboxylation and dopamine loss rates:V. J. Oikonen, H. M. Ruottinen, U. Ruotsalainen
Chapter 31 (766)
:6-[F-18]Fluoro-M-Tyrosine and [F-18]Fluoro-L-DOPA kinetic estimate correlations with plasma LNAA concentrations:D. B. Stout, S. C. Huang, R. E. Yee, M. Namavari, N. Satyamurthy, K. Shoghi-Jadid, J. R. Barrio
Chapter 32 (798)
:Evaluation of extrastriatal specific binding of [11C]dihydrotetrabenazine ([11C]DTBZ) using active (+) and inactive (-) enantiomers:R. A. Koeppe, M. R. Kilbourn, S. F. Taylor, J. M. Meador-Woodruff, K. A. Frey, D. E. Kuhl
Chapter 33 (826):Amphetamine-induced dopamine release: Duration of action assessed with [11C]raclopride in anesthetized monkeys:R. E. Carson, M. A. Channing, B-K. Vuong, H. Watabe, P. Herscovitch, W. Eckelman
Chapter 34 (800):Amphetamine-induced dopamine release greater in ventral than dorsal striatum:J. C. Price, W. C. Drevets, P. E. Kinahan, B. J. Lopresti, C. A. Mathis
Chapter 35 (805):Reproducibility of radioligand measurements of pharmacologically induced striatal dopamine release in humans:L. S. Kegeles, Y. Zea-Ponce, A. Abi-Dargham, R. L. Van Heertum, J. J. Mann, M. Laruelle
Section VI: Other Transmitter Enzyme, Receptor, and Transporter Imaging
Chapter 36 (775):[11C]-?-Methyl-L-tryptophan in anesthetized Rhesus monkeys: A tracer for serotonin synthesis or tryptophan uptake:S. E. Shoaf, R. E. Carson, D. Hommer, W. A. Williams, J. D. Higley, B. Schmall, P. Herscovitch, W. C. Eckelman
Chapter 37 (796):Serotonin release and reuptake studied by PET neuroimaging using fenfluramine, [15O] water, [15O] oxygen, [18F] FDG, [11C] NS2381 and its enantiomers in living porcine brain:D. F. Smith, A. Gee, S. B. Hansen, P. Moldt, E. Ø. Nielsen, J. Scheel-Krüger, K. Ishizu, M. Sakoh, L.Ø. Stergaard, P. H. Poulsen, D. Bender, A. Gjedde
Chapter 38 (797):Comparison of kinetic modeling methods for the in vivo quantification of 5-HT1A receptors using WAY 100635:R. V. Parsey, M. Slifstein, D.-R. Hwang, A. Abi-Dargham,N. Simpson, N. Guo, A. Shinn, O. Mawlawi, R. Van Heertum, J. J. Mann, M. Lauelle
Chapter 39 (828):Partition volume and regional binding potentials of serotonin receptor and transpoter ligands:D. F. Wong, G. Nestadt, P. Cumming, F. Yokoi, A. Gjedde
Chapter 40 (834):Serotonin transporter binding in vivo: Further examination of [11C]McN5652:B. J. Lopresti, C. A. Mathis, J. C. Price, V. L. Villemagne, C. C. Meltzer, D. P. Holt, G. S. Smith, R. Y. Moore
Chapter 41 (794):A tracer kinetic model for measurement of regional acetylcholinesterase activity in the brain using [11C]physostigmine and PET:G. Blomqvist, B. Tavitian, S. Pappata, C. Crouzel, A. Jobert, I. Doignon, L. Di Giamberadino
Section VII: Mapping Neuronal Activation
Chapter 42 (808)
:Noise characteristic of 3D PET scans from single subject activation studies: Effects of focal brain parthology:A. Thiel, K. Herholz, G. Pawlik, A. Schuster, U. Pietrzyk, K. Wienhard, W-D. Heiss
Chapter 43 (814)
:Reexamining the correlation between H215O delivery and signal size: Towards shorter more efficient PET sessions:J. J. Moreno-Cantú, J-S. Liow, M. Sajjad, D. A. Rottenberg, S. C. Strother
Chapter 44 (815):Precision of rCBF measurements with [O-15]water - whole body kinetics and linear vs. non-linear estimation
:R. P. Maguire, K. L. Leenders, N. M. Spyrou
Chapter 45 (810)
:Visualization of correlated hemodynamic and metabolic functions in cerebrovascular disease by a cluster analysis with PET study:H. Toyama, K. Takazawa, T. Nariai, K. Uemura, M. Senda
Chapter 46 (830):Establishing behavioral correlates of functional imaging signals:J. J. Sidtis, J. R. Anderson, S. C. Strother, D. A. Rottenberg
Chapter 47 (809):Functional neuroanatomy of writing revealed by 3D-PET
:N. Oku, K. Hashikawa, M. Matsumoto, H. Yamamoto, Y. Seike, M. Nukata, H. Nishimura, T. Teratani, M. Hori, T. Nishimura
Section VIII: Pathophysiology of Acquired Brain Disorders
Chapter 48 (812):Brain activation during somatosensory and auditory stimulation in acute vegetative state of anoxic origin:S. Laureys, M. E. Faymonville, G. Del Fiore, N. Janssens, C. Degueldre, J. Aerts, M. Lamy, A. Luxen, G. Moonen, P. Maquet
Chapter 49 (831):Impaired effective cortical connectivity in vegetative state:S. Laureys, M. E. Faymonville, S. Goldman, C. Degueldre, C. Phillips, B. Lambermont, J. Aerts, M. Lamy, A. Luxen, G. Frank, P. Maquet
Chapter 50 (839)
:Alterations of cerebral glucose metabolism and benzodiazepine receptor density in acute and persistent vegetative state:J. Rudolf, Me. Ghaemi, Mo. Ghaemi, J. Sobesky, W. F. Haupt, B. Szelies, M. Grond, W.-D. Heiss
Chapter 51 (822):The importance of left temporal areas for efficient recovery from post-stroke aphasia:W-D. Heiss, J. Kessler, A. Thiel, M. Ghaemi, H. Karbe
Chapter 52 (821):DP-B99: A novel membrane-targeted compound active against global and focal cerebral ischemia:M. Krakovsky, M. Polyak, I. Angel, A. Kozak
Chapter 53 (818)
:PET study in patients with neuropsychological impairments in the chronic state after traumatic diffuse brain injury:M. Mase, K. Yamada, T. Matsumoto, A. Iida, H. Kabasawa, T. Ogawa, J. Abe, Y. Nagano
Section IX: Pathophysiology of Idiopathic Brain Disorders
Chapter 54 (820):Imaging activated microglia in the aging human brain
:A. Cagnin, R. Myers, R. N. Gunn, F. E. Turkheimer, V. J. Cunningham, D. Brooks, T. Jones, R. B. Banati
Chapter 55 (777)
:The functional anatomy of the amnesic syndrome studied with resting 18FDG-PET and SPM: revealing dysfunctional networks in specific neuropsychological syndromes:A. M. Aupée, B. Desgranges, F. Eustache, C. Lalevée, V. de la Sayette, F. Viader, J. C. Baron
Chapter 56 (799)
:?-[11C]CFT binding in Parkinson's disease with and without dementia measured by positron emission tomography: statistical parametric mapping analysis:E. Yoshikawa, Y. Ouchi, T. Kanno, H. Okada, M. Futatsubashi, S. Nobezawa, T. Torizuka, M. Sakamoto
Chapter 57 (823)
:Assessment of the performance of FDG and FMZ PET imaging against the gold standard of invasive EEG monitoring for the detection of extratemporal lobe epileptic foci in children:O. Muzik, D. C. Chugani, C. Shen, C. Juhasz, H. M. von Stockhausen, H. T. Chugani
Chapter 58 (824):Benzodiazepine receptor binding in Japanese subtype of hereditary spastic paraplegia with a thin corpus callosum:M. Ueda, K. Iwabuchi, M. Mishina, T. Kamiya, H. Nagatomo, M. Senda, Y. Katayama
Chapter 1 (788):Validation of a dynamic PET simulator in clinical brain studies:Y. Ma, O. Rousset, P. Neelin, A. Evans, V. Dhawan, D. Eidelberg
Chapter 2 (783):PET reconstruction with a Markov Random Field prior:P. A. Philipsen, L. K. Hansen
Chapter 3 (817):A new method for correcting head movement artifact in positron emission tomography:O. R. Mawlawi, E. F. Leonard, J. L. Humm, S. M. Larson
Chapter 4 (782):Automated image registration of PET brain scans using neural networks:O. L. Munk, S. B. Hansen
Chapter 5 (771):Statistical estimation of PET images in wavelet domain:F. E. Türkheimer, M. Brett, D. Visvikis, V. J. Cunningham
Chapter 6 (772):FIPS: A functional image processing system for PET dynamic studies:D. Feng, W. Cai, R. Fulton
Chapter 7 (778):Automated delineation of brain structures with snakes in PET:J. M. Mykkänen, J. Tohka, Ulla Ruotsalainen
Chapter 8 (790):Analysis of functional imaging data sets via functional segmentation:R. N. Gunn, J. Ashburner, J. Aston, V. J. Cunningham
Chapter 9 (832)
:Preliminary studies of computer aided ligand design for PET:A. J. Abrunhosa, F. Brady, S. Luthra, J. J de Lima, T. Jones
Section II: General Compartment Kinetics
Chapter 10 (773)
:Correction of partial volume effect on rate constant estimation in compartment model analysis of dynamic PET study:K. Uemura, H. Toyama, Y. Ikoma, K. Oda, M. Senda, A. Uchiyama
Chapter 11 (816):Partial volume effect correction: methodological considerations:M. Slifstein, O. R. Mawlawi, M. Laruelle
Chapter 12 (791):Venous sinuses vs. on-line arterial sampling as input functions in PET:M.-C. Asselin, V. J. Cunningham, N. Turjanski, L. M. Wahl, P. M. Bloomfield, R. N. Gunn, C. Nahmias
Chapter 13 (784)
:Identification of linear compartmental systems that can be analyzed by spectral analysis of the sum of all compartments:K. C. Schmidt
Chapter 14 (787):Evaluation of the reliability of parameter estimates in the compartment model analysis by using the fitting error:Y. Ikoma, H. Toyama, K. Uemura, Y. Kimura, M. Senda, A. Uchiyama
Chapter 15 (792):A linear solution for calculation of accurate K1 and k2 maps using the two-compartment CBF model:P.-J. Toussaint, E. Meyer
Section III: Specific Compartment Kinetics
Chapter 16 (835):Do in vitro enzyme kinetics predict in vivo radiotracer kinetics?:S. E. Snyder, T. Bryan, N. Gunupudi, E. R. Butch, M. R. Kilbourn
Chapter 17 (763)
:Accuracy of FDG images as a measure of cerebral glucose metabolic rate: Influence of rate constant heterogeneity:M. Senda, H. Toyama, Y. Ikoma, Y. Kimura, K. Uemura, K. Ishii
Chapter 18 (785):Regional FDG lumped constant in the normal human brain:M. M. Graham, M. Muzi, A. M. Spence, F. O'Sullivan, T. K. Lewellen, J. M. Link, K. A. Krohn
Chapter 19 (819):Validation of noninvasive quantification technique for neurologic FDG-PET studies:K. P. Wong, D. Feng, S. R. Meikle, M. J. Fulham
Chapter 20 (793):Effect of population k2 values in graphical estimation of DV ratios of reversible ligands:J. E. Holden, V. Sossi, G. Chan, D. J. Doudet, A. J. Stoessl, T. J. Ruth
Chapter 21 (765):Measuring the BP of four dopaminergic tracers utilizing a tissue input function:V. Sossi, J. E. Holden, G. Chan, M. Krzywinski, A. J. Stoessl, T. J. Ruth
Chapter 22 (786)
:Tracer conversion rate and accuracy of compartmental model parameter in irreversibly trapped radiotracer method:S. Nagatsuka, K. Fukushi, H. Namba, H. Shinotoh, N. Tanaka, S. Tanada, T. Irie
Section IV: Parametric Imaging
Chapter 23 (806):A reliable unbiased parametric imaging algorithm for noisy clinical brain PET data:D. Feng, W. Cai, R. Fulton
Chapter 24 (759):Smooth variance maps using parameter projections
:R. P. Maguire, K. L. Lenders, N. M. Spyrou
Chapter 25 (760):Model fitting with spatial constraint for parametric imaging in dynamic PET studies:Y. Zhou, S-C. Huang, M. Bergsneider
Chapter 26 (762):A less-sensitive to noise spectral analysis method:A. Bertoldo, C. Cobelli
Chapter 27 (761):Small animal PET enables parametric mapping of saturation kinetics at the 5-HT1A receptor:R. N. Gunn, S. P. Hume, E. Hirani, I. Khan, J. Opacka-Juffry
Chapter 28 (784)
:Identification of linear compartmental systems that can be analyzed by spectral analysis of the sum of all compartments:K. C. Schmidt
Section V: Dopamine Enzyme, Receptor, Transporter and Release Imaging
Chapter 29 (801):Determination of 6-[18F]fluoro-L-dopa metabolites: importance in interpretation of PET results:H. M. Ruottinen, J. R. Bergman, V. J. Oikonen, M. T. Haaparanta, O. H. Solin, J. O Rinne
Chapter 30 (803)
:Special characteristics of 6-fluorodopa can cause biased estimates of dopa decarboxylation and dopamine loss rates:V. J. Oikonen, H. M. Ruottinen, U. Ruotsalainen
Chapter 31 (766)
:6-[F-18]Fluoro-M-Tyrosine and [F-18]Fluoro-L-DOPA kinetic estimate correlations with plasma LNAA concentrations:D. B. Stout, S. C. Huang, R. E. Yee, M. Namavari, N. Satyamurthy, K. Shoghi-Jadid, J. R. Barrio
Chapter 32 (798)
:Evaluation of extrastriatal specific binding of [11C]dihydrotetrabenazine ([11C]DTBZ) using active (+) and inactive (-) enantiomers:R. A. Koeppe, M. R. Kilbourn, S. F. Taylor, J. M. Meador-Woodruff, K. A. Frey, D. E. Kuhl
Chapter 33 (826):Amphetamine-induced dopamine release: Duration of action assessed with [11C]raclopride in anesthetized monkeys:R. E. Carson, M. A. Channing, B-K. Vuong, H. Watabe, P. Herscovitch, W. Eckelman
Chapter 34 (800):Amphetamine-induced dopamine release greater in ventral than dorsal striatum:J. C. Price, W. C. Drevets, P. E. Kinahan, B. J. Lopresti, C. A. Mathis
Chapter 35 (805):Reproducibility of radioligand measurements of pharmacologically induced striatal dopamine release in humans:L. S. Kegeles, Y. Zea-Ponce, A. Abi-Dargham, R. L. Van Heertum, J. J. Mann, M. Laruelle
Section VI: Other Transmitter Enzyme, Receptor, and Transporter Imaging
Chapter 36 (775):[11C]-?-Methyl-L-tryptophan in anesthetized Rhesus monkeys: A tracer for serotonin synthesis or tryptophan uptake:S. E. Shoaf, R. E. Carson, D. Hommer, W. A. Williams, J. D. Higley, B. Schmall, P. Herscovitch, W. C. Eckelman
Chapter 37 (796):Serotonin release and reuptake studied by PET neuroimaging using fenfluramine, [15O] water, [15O] oxygen, [18F] FDG, [11C] NS2381 and its enantiomers in living porcine brain:D. F. Smith, A. Gee, S. B. Hansen, P. Moldt, E. Ø. Nielsen, J. Scheel-Krüger, K. Ishizu, M. Sakoh, L.Ø. Stergaard, P. H. Poulsen, D. Bender, A. Gjedde
Chapter 38 (797):Comparison of kinetic modeling methods for the in vivo quantification of 5-HT1A receptors using WAY 100635:R. V. Parsey, M. Slifstein, D.-R. Hwang, A. Abi-Dargham,N. Simpson, N. Guo, A. Shinn, O. Mawlawi, R. Van Heertum, J. J. Mann, M. Lauelle
Chapter 39 (828):Partition volume and regional binding potentials of serotonin receptor and transpoter ligands:D. F. Wong, G. Nestadt, P. Cumming, F. Yokoi, A. Gjedde
Chapter 40 (834):Serotonin transporter binding in vivo: Further examination of [11C]McN5652:B. J. Lopresti, C. A. Mathis, J. C. Price, V. L. Villemagne, C. C. Meltzer, D. P. Holt, G. S. Smith, R. Y. Moore
Chapter 41 (794):A tracer kinetic model for measurement of regional acetylcholinesterase activity in the brain using [11C]physostigmine and PET:G. Blomqvist, B. Tavitian, S. Pappata, C. Crouzel, A. Jobert, I. Doignon, L. Di Giamberadino
Section VII: Mapping Neuronal Activation
Chapter 42 (808)
:Noise characteristic of 3D PET scans from single subject activation studies: Effects of focal brain parthology:A. Thiel, K. Herholz, G. Pawlik, A. Schuster, U. Pietrzyk, K. Wienhard, W-D. Heiss
Chapter 43 (814)
:Reexamining the correlation between H215O delivery and signal size: Towards shorter more efficient PET sessions:J. J. Moreno-Cantú, J-S. Liow, M. Sajjad, D. A. Rottenberg, S. C. Strother
Chapter 44 (815):Precision of rCBF measurements with [O-15]water - whole body kinetics and linear vs. non-linear estimation
:R. P. Maguire, K. L. Leenders, N. M. Spyrou
Chapter 45 (810)
:Visualization of correlated hemodynamic and metabolic functions in cerebrovascular disease by a cluster analysis with PET study:H. Toyama, K. Takazawa, T. Nariai, K. Uemura, M. Senda
Chapter 46 (830):Establishing behavioral correlates of functional imaging signals:J. J. Sidtis, J. R. Anderson, S. C. Strother, D. A. Rottenberg
Chapter 47 (809):Functional neuroanatomy of writing revealed by 3D-PET
:N. Oku, K. Hashikawa, M. Matsumoto, H. Yamamoto, Y. Seike, M. Nukata, H. Nishimura, T. Teratani, M. Hori, T. Nishimura
Section VIII: Pathophysiology of Acquired Brain Disorders
Chapter 48 (812):Brain activation during somatosensory and auditory stimulation in acute vegetative state of anoxic origin:S. Laureys, M. E. Faymonville, G. Del Fiore, N. Janssens, C. Degueldre, J. Aerts, M. Lamy, A. Luxen, G. Moonen, P. Maquet
Chapter 49 (831):Impaired effective cortical connectivity in vegetative state:S. Laureys, M. E. Faymonville, S. Goldman, C. Degueldre, C. Phillips, B. Lambermont, J. Aerts, M. Lamy, A. Luxen, G. Frank, P. Maquet
Chapter 50 (839)
:Alterations of cerebral glucose metabolism and benzodiazepine receptor density in acute and persistent vegetative state:J. Rudolf, Me. Ghaemi, Mo. Ghaemi, J. Sobesky, W. F. Haupt, B. Szelies, M. Grond, W.-D. Heiss
Chapter 51 (822):The importance of left temporal areas for efficient recovery from post-stroke aphasia:W-D. Heiss, J. Kessler, A. Thiel, M. Ghaemi, H. Karbe
Chapter 52 (821):DP-B99: A novel membrane-targeted compound active against global and focal cerebral ischemia:M. Krakovsky, M. Polyak, I. Angel, A. Kozak
Chapter 53 (818)
:PET study in patients with neuropsychological impairments in the chronic state after traumatic diffuse brain injury:M. Mase, K. Yamada, T. Matsumoto, A. Iida, H. Kabasawa, T. Ogawa, J. Abe, Y. Nagano
Section IX: Pathophysiology of Idiopathic Brain Disorders
Chapter 54 (820):Imaging activated microglia in the aging human brain
:A. Cagnin, R. Myers, R. N. Gunn, F. E. Turkheimer, V. J. Cunningham, D. Brooks, T. Jones, R. B. Banati
Chapter 55 (777)
:The functional anatomy of the amnesic syndrome studied with resting 18FDG-PET and SPM: revealing dysfunctional networks in specific neuropsychological syndromes:A. M. Aupée, B. Desgranges, F. Eustache, C. Lalevée, V. de la Sayette, F. Viader, J. C. Baron
Chapter 56 (799)
:?-[11C]CFT binding in Parkinson's disease with and without dementia measured by positron emission tomography: statistical parametric mapping analysis:E. Yoshikawa, Y. Ouchi, T. Kanno, H. Okada, M. Futatsubashi, S. Nobezawa, T. Torizuka, M. Sakamoto
Chapter 57 (823)
:Assessment of the performance of FDG and FMZ PET imaging against the gold standard of invasive EEG monitoring for the detection of extratemporal lobe epileptic foci in children:O. Muzik, D. C. Chugani, C. Shen, C. Juhasz, H. M. von Stockhausen, H. T. Chugani
Chapter 58 (824):Benzodiazepine receptor binding in Japanese subtype of hereditary spastic paraplegia with a thin corpus callosum:M. Ueda, K. Iwabuchi, M. Mishina, T. Kamiya, H. Nagatomo, M. Senda, Y. Katayama
- Edition: 1
- Latest edition
- Published: October 13, 2000
- Language: English
AG
Albert Gjedde
Affiliations and expertise
PET Center, Aarhus University Hospital, Aarhus, DenmarkSH
Soren B. Hansen
Affiliations and expertise
PET Center, Aarhus University Hospital, Aarhus, DenmarkGK
Gitte M. Knudsen
Affiliations and expertise
University Hospital Rigshospitalet, Neurobiology Research Unit, Copenhagen, DenmarkOP
Olaf B. Paulson
Affiliations and expertise
University Hospital Rigshospitalet, Neurobiology Research Unit, Copenhagen, Denmark