Lori L. Arnold scite author profile

The prevailing hierarchical model of cortical sensory processing holds that early processing is specific to individual modalities and that combination of information from different modalities is deferred until higher-order stages of processing. In this paper, we present physiological evidence of multisensory convergence at an early stage of cortical auditory processing. We used multi-neuron cluster recordings, along with a limited sample of single-unit recordings, to determine whether neurons in the macaque auditory cortex respond to cutaneous stimulation. We found coextensive cutaneous and auditory responses in caudomedial auditory cortex, an area lying adjacent to A1, and at the second stage of the auditory cortical hierarchy. Somatosensory-auditory convergence in auditory cortex may underlie effects observed in human studies. Convergence of inputs from different sensory modalities at very early stages of cortical sensory processing has important implications for both our developing understanding of multisensory processing and established views of unisensory processing.

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Adenomyosis: prospective comparison of MR imaging and transvaginal sonography.

Ascher¹,

Arnold²,

Patt³

et al. 1994

Radiology

251

128

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Receptor autoradiographic correlates of deafferentation‐induced reorganization in adult primate somatosensory cortex

Garraghty

Arnold

Wellman

et al. 2006

J of Comparative Neurology

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The primate somatosensory system provides an excellent model system with which to investigate adult neural plasticity. We have previously shown that transection of the median and ulnar nerves is followed by an expansion in the representation of radial nerve skin, and that this plasticity proceeds in stages. Immediately following nerve injury, new receptive fields are "unmasked" in a fraction of the affected cortex. The remaining deprived cortex regains responsiveness to tactile stimulation over the following days to weeks. Given these progressive changes, it has been suggested that different mechanisms might account for the earlier and later phases of reorganization. In the present experiments, we have quantified receptor autoradiographic binding data for GABA A and GABA B , AMPA, and NMDA receptors in the primary somatosensory cortices of adult squirrel monkeys at four post-nerve injury survival durations: immediately (1-3 hr), 3-days, 1-month, and 2-months. We find dramatic reductions in GABA A binding in layer IV within hours following nerve injury, and this reduction is maintained across all survival durations. This finding is consistent with the idea that the earliest reorganizational changes are due to a relaxation in tonic inhibitory mechanisms permitting the expression of formerly subthreshold receptive fields. GABA B receptor binding is decreased in layer IV by 1 month after nerve injury, while binding for AMPA receptors is increased in layer IV by this time. These findings are consistent with our previous suggestion that the second stage of reorganization proceeds via mechanisms comparable to those revealed to account for NMDA-dependent long-term potentiation in the hippocampus.

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The nonsurgical diagnosis of adenomyosis

Arnold¹,

Ascher²,

Schruefer³

et al. 1995

Obstetrics & Gynecology

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Reduced binding of [3H]ketanserin to cortical 5-HT2 receptors in senile dementia of the Alzheimer type

Reynolds¹,

Arnold²,

Rossor³

et al. 1984

Neuroscience Letters

133

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Lori L. Arnold

Auditory Cortical Neurons Respond to Somatosensory Stimulation

Adenomyosis: prospective comparison of MR imaging and transvaginal sonography.

Receptor autoradiographic correlates of deafferentation‐induced reorganization in adult primate somatosensory cortex

The nonsurgical diagnosis of adenomyosis

Reduced binding of [3H]ketanserin to cortical 5-HT2 receptors in senile dementia of the Alzheimer type

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