pharm chapter 8 [3-16

... o While info flows into one layer and out a different layer through long tract connections, links between layers process signals and interpret inputs o Local synaptic connections both excitatory and inhibitory, ensuring only certain patterns of inputs passed along  Info originating in lateral genic ...

FIGURE LEGENDS FIGURE 25.1 Drawing of the auditory periphery

... Circuit of the medial superior olive (MSO), which is sensitive to interaural time differences (ITD). Input to the cochlear nucleus (CN) from the auditory nerve terminates at the large endbulbs of Held that synapse onto spherical bushy cells (see Fig. 25.18A). Bushy cells project bilaterally such tha ...

Visual Coding and the Retinal Receptors

... in space from which light strikes it. • For other visual cells, receptive fields are derived from the visual field of cells that either excite or inhibit. – Example: ganglion cells converge to form the receptive field of the next level of cells. ...

BGandcerebellum - UCSD Cognitive Science

...  Neurons tonically active, organized somatotopically, change activity in relation to eye or limb movement  Majority of mvmt. related neurons in STN have signals related to movement direction ________________________________________________________________________ GPi/SNpr  Two principal output st ...

The Nervous System

... Function – Provides an area for the transfer of signals between neurons, usually between axon and dendrite ...

Sens1-General

... Vestibulocochlear nerve graded potentials action potentials ...

Corticothalamic feedback and sensory processing

... Less is known about the suppressive surrounds of somatosensory neurons in the VB. Although neurons in area 3b of primate somatosensory cortex are known to have both excitatory and inhibitory regions within their receptive fields [36,37], identifying suppressive regions of VB receptive fields has bee ...

Divisions of the Nervous System

... • Convey incoming messages toward cell body as graded potentials (short distance signals) ...

answers - UCSD Cognitive Science

... Extending from the soma are the dendrites, which receive input from surrounding neurons. The axon is the long structure that transmits information along the cell in the form of an electrical signal known as the action potential. Surrounding the axon is myelin, which is provided by the Schwann (for t ...

Chapter 2 Powerpoint - Destiny High School

... • ACETYLCHOLINE: INVOLVED IN AROUSAL, ATTENTION, MEMORY, MOTIVATION, AND MOVEMENT. • CAN LEAD TO ALZHEIMER’S DISEASE • DOPAMINE: VARIETY OF BEHAVIORS AND EMOTIONS, INCLUDING PRESSURE. • IMPLICATED IN SCHIZOPHRENIA AND PARKINSON’S DISEASE • SEROTONIN: REGULATES SLEEP, DREAMING, MOOD, EATING, PAIN, AN ...

Chapter 12

... • 1.6 kg in males/1.45 kg in females (size is not representative of intelligence, only overall average body size) • Complexity dictates processing power ...

PSY105 Neural Networks 2/5

... • A Hebb Rule for weight change between two neurons is: – Δ weight = activity 1 x activity 2 x learning rate constant ...

Chapter 2: Biopsychology Study Guide

... A. controls what has been called the "Fight or Flight" phenomenon because of its control over the necessary bodily changes needed when we are faced with a situation where we may need to defend ourselves or escape. Imagine walking down a dark street at night by yourself B. regulates primarily involun ...

A natural example of different circuit architectures for analogous

... membrane and synaptic parameters might produce relatively similar network outputs. However, there is still a general assumption that similar behaviors in related animal species originate from a common neural architecture. In this study, we show that two species produce similar behaviors using hom ...

BrainMechanismsofUnconsciousInference2011

... – We will adopt the grandmother neuron hypothesis today, for simplicity, and proceed as though single neurons stand for hypotheses at all levels of generality. – Next time we will think in terms of the pattern-based approach. ...

Chapter 5: The First Two Years

... • During the first months and years, major spurts of growth and refinement in axons, dendrites, and synapses occur (connections are being made) • Transient Exuberance is the great increase in the number of dendrites that occurs in an infant’s brain over 1st 2 years of life • Enables neurons to becom ...

Neuroscience 5a – Touch and Proprioception

... are a mixture of both. The decrease in receptor sensitivity that occurs in the presence of a maintained stimulus, getting rid of the noise. Receptive Field – Is the number of receptors innervated by one sensory nerve. The larger the receptive field size, i.e. more receptors on each nerve, the lower ...

Four Ways Analytics Think Like You

... Neurons in the brain that store knowledge in their connections to other neurons and the strength of those synapses. ...

Diapositive 1

... - Axons of ganglion cells form the optic nerve. - Each retina contains about 100 million rods and 3 million cones; yet the number of ganglion cells is only about 1.6 million. - Thus, an average of 60 rods and 2 cones converge on each ganglion cell and the optic nerve fibre. There are three distinct ...

Neuroanatomy- anatomy of nerve cell (neuron)

... Reticular Formation – responsible for body arousal (Mnemonic: tic toc an alarm clock wakes you up) ...

Slide 1

... http://www.zoologie.uni-bonn.de/Neurophysiologie/home/Schmitz/IndexD.htm ...

Drug and Alcohol Abuse

... • (1) You will become familiar with the major parts of the brain and be able to describe their function. • (2) You will be able to explain how brain cells send and receive information. ...

Document

... Sensory Cortex – receives information from our senses ...

Neurophysiology-Organization of central nervous system

... -neurons resemble the hand: the palm is the soma, the fingers are the dendrites & the forearm is the axon. #4 parts of the neuron: 1=the cell body(the soma):it contains organelles except to the centrosomes (bcoz it doesn't divide)& it contains nissel granules . *NOTE: nissel granules in soma like ER ...

neuron synapse The junction between the axon tip of a sending

... Large band of neural fibers connecting the two hemispheres of the brain and carrying messages between them. Plasticity ...

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Feature detection (nervous system)

Feature detection is a process by which the nervous system sorts or filters complex natural stimuli in order to extract behaviorally relevant cues that have a high probability of being associated with important objects or organisms in their environment, as opposed to irrelevant background or noise. Feature detectors are individual neurons – or groups of neurons – in the brain which code for perceptually significant stimuli. Early in the sensory pathway feature detectors tend to have simple properties; later they become more and more complex as the features to which they respond become more and more specific. For example, simple cells in the visual cortex of the domestic cat (Felis catus), respond to edges – a feature which is more likely to occur in objects and organisms in the environment. By contrast, the background of a natural visual environment tends to be noisy – emphasizing high spatial frequencies but lacking in extended edges. Responding selectively to an extended edge – either a bright line on a dark background, or the reverse – highlights objects that are near or very large. Edge detectors are useful to a cat, because edges do not occur often in the background “noise” of the visual environment, which is of little consequence to the animal.

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Feature detection (nervous system)