Cerebral auditory areas were delineated in the awake, passively listening, rhesus monkey by compa... more Cerebral auditory areas were delineated in the awake, passively listening, rhesus monkey by comparing the rates of glucose utilization in an intact hemisphere and in an acoustically isolated contralateral hemisphere of the same animal. The auditory system defined in this way occupied large portions of cerebral tissue, an extent probably second only to that of the visual system. Cortically, the activated areas included the entire superior temporal gyrus and large portions of the parietal, prefrontal, and limbic lobes. Several auditory areas overlapped with previously identified visual areas, suggesting that the auditory system, like the visual system, contains separate pathways for processing stimulus quality, location, and motion.
Proceedings of The National Academy of Sciences - PNAS, 2005
Monkeys trained preoperatively on a task designed to assess auditory recognition memory were impa... more Monkeys trained preoperatively on a task designed to assess auditory recognition memory were impaired after removal of either the rostral superior temporal gyrus or the medial temporal lobe but were unaffected by lesions of the rhinal cortex. Behavioral analysis indicated that this result occurred because the monkeys did not or could not use long-term auditory recognition, and so depended instead on short-term working memory, which is unaffected by rhinal lesions. The findings suggest that monkeys may be unable to place representations of auditory stimuli into a long-term store and thus question whether the monkey's cerebral memory mechanisms in audition are intrinsically different from those in other sensory modalities. Furthermore, it raises the possibility that language is unique to humans not only because it depends on speech but also because it requires long-term auditory memory. Author contributions: J.F., M.M., and R.C.S. designed research; J.F. and R.C.S. performed rese...
Proceedings of the National Academy of Sciences of the United States of America, Jan 26, 2015
In vivo tractography based on diffusion magnetic resonance imaging (dMRI) has opened new doors to... more In vivo tractography based on diffusion magnetic resonance imaging (dMRI) has opened new doors to study structure-function relationships in the human brain. Initially developed to map the trajectory of major white matter tracts, dMRI is used increasingly to infer long-range anatomical connections of the cortex. Because axonal projections originate and terminate in the gray matter but travel mainly through the deep white matter, the success of tractography hinges on the capacity to follow fibers across this transition. Here we demonstrate that the complex arrangement of white matter fibers residing just under the cortical sheet poses severe challenges for long-range tractography over roughly half of the brain. We investigate this issue by comparing dMRI from very-high-resolution ex vivo macaque brain specimens with histological analysis of the same tissue. Using probabilistic tracking from pure gray and white matter seeds, we found that ∼50% of the cortical surface was effectively in...
The effects of early brain damage are often, but not always, milder than the effects of comparabl... more The effects of early brain damage are often, but not always, milder than the effects of comparable damage in adults, depending on the age at which injury occurred, the region of the brain damaged, and the brain functions involved. Studies of the impact of early brain damage have generally focused on functions primarily associated with the neural structures injured, even though the development and function of distant but interconnected neural systems might also show effects. Here we examine the regulation of striatal dopamine by the dorsolateral prefrontal cortex, in adult monkeys that had had either neonatal or adult lesions of the medial-temporal lobe and in normal animals. We use microdialysis to measure the dopamine response in the caudate nucleus after the infusion of amphetamine into the dorsolateral prefrontal cortex. Normal animals and those with adult lesions showed a reduction in dopamine overflow; in contrast, monkeys with neonatal lesions showed increased dopamine release...
The projections from the perirhinal cortex, entorhinal cortex, parasubiculum, and presubiculum to... more The projections from the perirhinal cortex, entorhinal cortex, parasubiculum, and presubiculum to the thalamus were examined using both anterograde and retrograde tracers. Attention focused on the routes taken by these projections, which were delineated by combining surgical tract section with the placement of a tracer. Projections to the anterior thalamic nuclei almost exclusively used the fornix. These relatively light projections, which arose from all areas of the entorhinal cortex, from the presubiculum, parasubiculum, and area 35 of the perirhinal cortex, terminated mainly in the anterior ventral nucleus. In contrast, the projections to the lateral dorsal nucleus from the entorhinal cortex, presubiculum and parasubiculum were denser than those to the anterior thalamic nuclei. The projections to the lateral dorsal nucleus used two routes. While nearly all of the projections from the subicular complex used the fornix, many of the entorhinal cortex projections passed caudally in t...
Developmental cortical damage has been implicated in the basic neurobiology of schizophrenia. Adu... more Developmental cortical damage has been implicated in the basic neurobiology of schizophrenia. Adult rhesus monkeys with neonatal temporal limbic damage show a stimulus-dependent disinhibition of subcortical dopamine (DA) release. We measured dopamine D2 receptors and transporters in vivo in rhesus monkeys with neonatal and adult mesial temporal limbic lesions and control monkeys to explore further the effects of this developmental lesion on striatal DA function. All monkeys were studied with [I-123]IBZM SPECT to assess the availability of striatal dopamine D2 receptors and with [I-123]beta-CIT SPECT to measure the availability of dopamine transporters in the striatum. IBZM binding was significantly reduced in monkeys with neonatal limbic lesions. No group difference in beta-CIT binding was found. The reduction in IBZM binding was significantly correlated with subcortical dopamine release after monoaminergic prefrontal stimulation as determined with in vivo microdialysis. Our findings imply specific interactions between age at lesion and the availability of DA transporter and receptors in non-human primates, and suggest that stimulus-dependent DA activity affects the expression of DA receptors.
A combination of anterograde and retrograde tracing techniques was used to study the projections ... more A combination of anterograde and retrograde tracing techniques was used to study the projections to the nucleus accumbens from the amygdala, the hippocampal formation (including the entorhinal cortex), and the perirhinal cortex in two species of macaque monkey. To help identify possible subregions within the nucleus accumbens, the distribution of calbindin was examined in two additional monkeys. Although this revealed evidence of "core"- and "shell"-like regions within the accumbens, these different regions could not consistently be related to cytoarchitectonic features. The rostral amygdala sent nearly equivalent projections to both the medial and the lateral portions of nucleus accumbens, whereas projections arising from the middle and caudal amygdala terminated preferentially in the medial division of nucleus accumbens. The basal nucleus was the major source of these amygdala efferents, and there was a crude topography as parts of the basal and accessory basal nuclei terminated in different parts of nucleus accumbens. The subiculum was the major source of hippocampal projections to the nucleus accumbens, but some hippocampal efferents also originated in the parasubiculum, the prosubiculum, the adjacent portion of CA1, and the uncal portion of CA3. These hippocampal projections, which coursed through the fornix, showed a rostrocaudal gradient as more arose in the rostral hippocampus. Hippocampal efferents terminated most densely in the medial and ventral portions of nucleus accumbens, along with light label in the adjacent olfactory tubercle. The entorhinal projections were more evenly distributed between the medial nucleus accumbens and the olfactory tubercle, whereas the perirhinal projections were primarily to the olfactory tubercle. These cortical inputs were less reliant on the fornix. Amygdala and subicular (hippocampal) projections overlapped most completely in the medial division of nucleus accumbens.
Exp Brain Res (1994) 98:44-52 Springer-Verlag 1994 Richard C. Saunders 9 Bhaskar S. Kolachana Dan... more Exp Brain Res (1994) 98:44-52 Springer-Verlag 1994 Richard C. Saunders 9 Bhaskar S. Kolachana Daniel R. Weinberger ... When success was achieved, it most often occurred on the first or second attempt. The present results and those of previous ef-forts (Moghaddam et al. ...
Cerebral auditory areas were delineated in the awake, passively listening, rhesus monkey by compa... more Cerebral auditory areas were delineated in the awake, passively listening, rhesus monkey by comparing the rates of glucose utilization in an intact hemisphere and in an acoustically isolated contralateral hemisphere of the same animal. The auditory system defined in this way occupied large portions of cerebral tissue, an extent probably second only to that of the visual system. Cortically, the activated areas included the entire superior temporal gyrus and large portions of the parietal, prefrontal, and limbic lobes. Several auditory areas overlapped with previously identified visual areas, suggesting that the auditory system, like the visual system, contains separate pathways for processing stimulus quality, location, and motion.
Proceedings of The National Academy of Sciences - PNAS, 2005
Monkeys trained preoperatively on a task designed to assess auditory recognition memory were impa... more Monkeys trained preoperatively on a task designed to assess auditory recognition memory were impaired after removal of either the rostral superior temporal gyrus or the medial temporal lobe but were unaffected by lesions of the rhinal cortex. Behavioral analysis indicated that this result occurred because the monkeys did not or could not use long-term auditory recognition, and so depended instead on short-term working memory, which is unaffected by rhinal lesions. The findings suggest that monkeys may be unable to place representations of auditory stimuli into a long-term store and thus question whether the monkey's cerebral memory mechanisms in audition are intrinsically different from those in other sensory modalities. Furthermore, it raises the possibility that language is unique to humans not only because it depends on speech but also because it requires long-term auditory memory. Author contributions: J.F., M.M., and R.C.S. designed research; J.F. and R.C.S. performed rese...
Proceedings of the National Academy of Sciences of the United States of America, Jan 26, 2015
In vivo tractography based on diffusion magnetic resonance imaging (dMRI) has opened new doors to... more In vivo tractography based on diffusion magnetic resonance imaging (dMRI) has opened new doors to study structure-function relationships in the human brain. Initially developed to map the trajectory of major white matter tracts, dMRI is used increasingly to infer long-range anatomical connections of the cortex. Because axonal projections originate and terminate in the gray matter but travel mainly through the deep white matter, the success of tractography hinges on the capacity to follow fibers across this transition. Here we demonstrate that the complex arrangement of white matter fibers residing just under the cortical sheet poses severe challenges for long-range tractography over roughly half of the brain. We investigate this issue by comparing dMRI from very-high-resolution ex vivo macaque brain specimens with histological analysis of the same tissue. Using probabilistic tracking from pure gray and white matter seeds, we found that ∼50% of the cortical surface was effectively in...
The effects of early brain damage are often, but not always, milder than the effects of comparabl... more The effects of early brain damage are often, but not always, milder than the effects of comparable damage in adults, depending on the age at which injury occurred, the region of the brain damaged, and the brain functions involved. Studies of the impact of early brain damage have generally focused on functions primarily associated with the neural structures injured, even though the development and function of distant but interconnected neural systems might also show effects. Here we examine the regulation of striatal dopamine by the dorsolateral prefrontal cortex, in adult monkeys that had had either neonatal or adult lesions of the medial-temporal lobe and in normal animals. We use microdialysis to measure the dopamine response in the caudate nucleus after the infusion of amphetamine into the dorsolateral prefrontal cortex. Normal animals and those with adult lesions showed a reduction in dopamine overflow; in contrast, monkeys with neonatal lesions showed increased dopamine release...
The projections from the perirhinal cortex, entorhinal cortex, parasubiculum, and presubiculum to... more The projections from the perirhinal cortex, entorhinal cortex, parasubiculum, and presubiculum to the thalamus were examined using both anterograde and retrograde tracers. Attention focused on the routes taken by these projections, which were delineated by combining surgical tract section with the placement of a tracer. Projections to the anterior thalamic nuclei almost exclusively used the fornix. These relatively light projections, which arose from all areas of the entorhinal cortex, from the presubiculum, parasubiculum, and area 35 of the perirhinal cortex, terminated mainly in the anterior ventral nucleus. In contrast, the projections to the lateral dorsal nucleus from the entorhinal cortex, presubiculum and parasubiculum were denser than those to the anterior thalamic nuclei. The projections to the lateral dorsal nucleus used two routes. While nearly all of the projections from the subicular complex used the fornix, many of the entorhinal cortex projections passed caudally in t...
Developmental cortical damage has been implicated in the basic neurobiology of schizophrenia. Adu... more Developmental cortical damage has been implicated in the basic neurobiology of schizophrenia. Adult rhesus monkeys with neonatal temporal limbic damage show a stimulus-dependent disinhibition of subcortical dopamine (DA) release. We measured dopamine D2 receptors and transporters in vivo in rhesus monkeys with neonatal and adult mesial temporal limbic lesions and control monkeys to explore further the effects of this developmental lesion on striatal DA function. All monkeys were studied with [I-123]IBZM SPECT to assess the availability of striatal dopamine D2 receptors and with [I-123]beta-CIT SPECT to measure the availability of dopamine transporters in the striatum. IBZM binding was significantly reduced in monkeys with neonatal limbic lesions. No group difference in beta-CIT binding was found. The reduction in IBZM binding was significantly correlated with subcortical dopamine release after monoaminergic prefrontal stimulation as determined with in vivo microdialysis. Our findings imply specific interactions between age at lesion and the availability of DA transporter and receptors in non-human primates, and suggest that stimulus-dependent DA activity affects the expression of DA receptors.
A combination of anterograde and retrograde tracing techniques was used to study the projections ... more A combination of anterograde and retrograde tracing techniques was used to study the projections to the nucleus accumbens from the amygdala, the hippocampal formation (including the entorhinal cortex), and the perirhinal cortex in two species of macaque monkey. To help identify possible subregions within the nucleus accumbens, the distribution of calbindin was examined in two additional monkeys. Although this revealed evidence of "core"- and "shell"-like regions within the accumbens, these different regions could not consistently be related to cytoarchitectonic features. The rostral amygdala sent nearly equivalent projections to both the medial and the lateral portions of nucleus accumbens, whereas projections arising from the middle and caudal amygdala terminated preferentially in the medial division of nucleus accumbens. The basal nucleus was the major source of these amygdala efferents, and there was a crude topography as parts of the basal and accessory basal nuclei terminated in different parts of nucleus accumbens. The subiculum was the major source of hippocampal projections to the nucleus accumbens, but some hippocampal efferents also originated in the parasubiculum, the prosubiculum, the adjacent portion of CA1, and the uncal portion of CA3. These hippocampal projections, which coursed through the fornix, showed a rostrocaudal gradient as more arose in the rostral hippocampus. Hippocampal efferents terminated most densely in the medial and ventral portions of nucleus accumbens, along with light label in the adjacent olfactory tubercle. The entorhinal projections were more evenly distributed between the medial nucleus accumbens and the olfactory tubercle, whereas the perirhinal projections were primarily to the olfactory tubercle. These cortical inputs were less reliant on the fornix. Amygdala and subicular (hippocampal) projections overlapped most completely in the medial division of nucleus accumbens.
Exp Brain Res (1994) 98:44-52 Springer-Verlag 1994 Richard C. Saunders 9 Bhaskar S. Kolachana Dan... more Exp Brain Res (1994) 98:44-52 Springer-Verlag 1994 Richard C. Saunders 9 Bhaskar S. Kolachana Daniel R. Weinberger ... When success was achieved, it most often occurred on the first or second attempt. The present results and those of previous ef-forts (Moghaddam et al. ...
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