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8 results on '"Weinberger, N"'

1. In vivo Hebbian and basal forebrain stimulation treatment in morphologically identified auditory cortical cells.

Author

Cruikshank SJ and Weinberger NM

Subjects
Acoustic Stimulation, Action Potentials physiology, Animals, Auditory Cortex cytology, Auditory Perception physiology, Basal Nucleus of Meynert cytology, Cell Size physiology, Cholinergic Fibers ultrastructure, Cortical Synchronization, Electric Stimulation methods, Electroencephalography, Habituation, Psychophysiologic physiology, Lysine analogs & derivatives, Lysine pharmacology, Male, Neural Pathways cytology, Neurons cytology, Rats, Rats, Sprague-Dawley, Synapses ultrastructure, Synaptic Transmission physiology, Arousal physiology, Auditory Cortex physiology, Basal Nucleus of Meynert physiology, Cholinergic Fibers physiology, Neural Pathways physiology, Neuronal Plasticity physiology, Neurons physiology, Synapses physiology
Abstract

The present study concerns the interactions of local pre/postsynaptic covariance and activity of the cortically-projecting cholinergic basal forebrain, in physiological plasticity of auditory cortex. Specifically, a tone that activated presynaptic inputs to a recorded auditory cortical neuron was repeatedly paired with a combination of two stimuli: (1) local juxtacellular current that excited the recorded cell and (2) basal forebrain stimulation which desynchronized the cortical EEG. In addition, the recorded neurons were filled with biocytin for morphological examination. The hypothesis tested was that the combined treatment would cause increased potentiation of responses to the paired tone, relative to similar conditioning treatments involving either postsynaptic excitation alone or basal forebrain stimulation alone. In contrast, there was no net increase in plasticity and indeed the combined treatment appears to have decreased plasticity below that previously found for either treatment alone. Several alternate interpretations of these results are discussed.

Published
2001
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2. Frequency-specific receptive field plasticity in the medial geniculate body induced by pavlovian fear conditioning is expressed in the anesthetized brain.

Author

Lennartz RC and Weinberger NM

Subjects
Amygdala physiology, Animals, Association Learning, Brain Mapping, Guinea Pigs, Male, Neurons physiology, Pitch Discrimination physiology, Arousal physiology, Auditory Pathways physiology, Conditioning, Classical physiology, Fear physiology, Geniculate Bodies physiology, Neuronal Plasticity physiology
Abstract

Fear conditioning modifies the processing of frequency information; receptive fields (RF) in the auditory cortex and the medial geniculate body (MGB) are altered to favor processing the frequency of the conditioned stimulus (CS) over the pretraining best frequency (BF) and other frequencies. This experiment was designed to determine whether brief conditioning in the waking state produces RF plasticity that is expressed under general anesthesia. Guinea pigs bearing electrodes in the MGB received 20 trials of tone-shock pairing in a single training session. RFs were determined with animals under ketamine anesthesia before conditioning and 1-3 hr and 24 hr after conditioning. Frequency-specific RF plasticity was evident for both postconditioning periods: The BF shifted toward or to the CS frequency, responses to the BF decreased, and responses to the CS increased. Broadly tuned cells developed greater RF plasticity than narrowly tuned neurons. The results demonstrate that the specific neuronal results of brief learning experiences can be expressed in the anesthetized brain.

Published
1992
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3. Stimulation at a site of auditory-somatosensory convergence in the medial geniculate nucleus is an effective unconditioned stimulus for fear conditioning.

Author

Cruikshank SJ, Edeline JM, and Weinberger NM

Subjects
Amygdala physiology, Animals, Association Learning physiology, Brain Mapping, Electric Stimulation, Guinea Pigs, Heart Rate physiology, Male, Neurons physiology, Arousal physiology, Auditory Pathways physiology, Conditioning, Classical physiology, Fear physiology, Geniculate Bodies physiology, Somatosensory Cortex physiology
Abstract

The medial division of the medial geniculate nucleus (MGm) and the posterior intralaminar nucleus (PIN) are necessary for fear conditioning to an auditory conditioned stimulus (CS), receive both auditory and somatosensory input, and project to the amygdala, which is involved in production of fear conditioned responses. If CS-unconditioned stimulus (US) convergence in the MGm-PIN is critical for fear conditioning, then microstimulation of this area should serve as an effective US during classical conditioning, in place of standard footshock. Guinea pigs underwent conditioning (40-60 trials) using a tone as the CS and medial geniculate complex microstimulation as the US. Conditioned bradycardia developed when the US electrodes were in the PIN. However, microstimulation was not an effective US for conditioning in other parts of the medial geniculate or for sensitization training in the PIN or elsewhere. Learning curves were similar to those found previously for footshock US. Thus, the PIN can be a locus of functional CS-US convergence for previously for footshock US. Thus, the PIN can be a locus of functional CS-US convergence for fear conditioning to acoustic stimuli.

Published
1992
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4. Subcortical adaptive filtering in the auditory system: associative receptive field plasticity in the dorsal medial geniculate body.

Author

Edeline JM and Weinberger NM

Subjects
Animals, Brain Mapping, Guinea Pigs, Loudness Perception physiology, Male, Neurons physiology, Arousal physiology, Attention physiology, Conditioning, Classical physiology, Geniculate Bodies physiology, Mental Recall physiology, Neuronal Plasticity physiology, Pitch Discrimination physiology
Abstract

Highly specific subcortical receptive field (RF) plasticity was found in the dorsal division of the guinea pig medial geniculate body during cardiac conditioning to a tonal frequency. There was increased response to the conditioned-stimulus (CS) frequency, and there were decreased responses to adjacent frequencies, especially at the pretraining best frequency (BF), which often resulted in a shift of tuning such that the CS became the new BF. Moreover, 1 hr later the effects were stronger, more sharply tuned, and centered on the CS frequency. A sensitization paradigm produced only broad, general increases of response across the RF. These findings reveal that the analysis of sensory RF dynamics is a valuable approach to understanding the neural mechanisms of information processing in learning and memory.

Published
1991
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6. Electrocortical recruiting responses during classical conditioning.

Author

Weinberger NM, Nakayama K, and Lindsley DB

Subjects
Animals, Cats, Conditioning, Classical, Electric Stimulation, Electroencephalography, Electrophysiology, Mesencephalon physiology, Muscles physiology, Reticular Formation physiology, Thalamus physiology, Arousal, Behavior, Animal, Cerebral Cortex physiology, Conditioning, Psychological
Published
1968
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7. BEHAVIORAL AND ELECTROENCEPHALOGRAPHIC AROUSAL TO CONTRASTING NOVEL STIMULATION.

Author

WEINBERGER NM and LINDSLEY DB

Subjects
Animals, Cats, Arousal, Behavior, Animal, Electroencephalography, Hearing, Research, Sleep, Sound
Abstract

Three-second interruptions of continuous auditory stimulation, as well as 3-second periods of stimulation from the same sound source, were effective in producing behavioral arousal and electrocortical desynchronization in sleeping cats. Thus, stimulus offset as well as onset may serve an arousal function. Some differences in behavioral response and electrocortical desynchronization latency were noted.

Published
1964
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