Lecture notes for Chapter 13

... above schema separate from Special sensory and Visceral sensory) Receives inputs from Exteroceptors, proprioceptors, and interoceptors Input relayed toward head, but processed along way ...

Ch 4 Power Point

... The Retina and the Brain: Visual Information Processing • Optic Chiasm: the point where the axons cross to different hemispheres • Light  rods and cones  neural signals  bipolar cells  ganglion cells  optic nerve  optic chiasm  opposite half brain • Main pathway: lateral geniculate nucleus ( ...

Document

... • Increases ability of cochlea to receive some sound frequencies • Outer hair cells contract reducing basilar membranes freedom to vibrate – fewer signals from that area allows brain to distinguish between more and less active areas of cochlea ...

Chapter 16 - McGraw Hill Higher Education

... • Increases ability of cochlea to receive some sound frequencies • Outer hair cells contract reducing basilar membranes freedom to vibrate – fewer signals from that area allows brain to distinguish between more and less active areas of cochlea ...

a)write short notes about the anatomy of optic nerve

... Origin of the Optic Nerve ...

Dear Notetaker:

... a. “Retinotopic organization” means that parts of the visual world that are spatially adjacent to each other are processed by neurons that are spatial adjacent b. However, in this pathway, two adjacent neurons in the ventral pathway might be processing parts of the visual world that are very far awa ...

Ch10 Reading Guide

... H. Small space between a neuron and the cell(s) with which it communicates is called a ________________________________________________________________________ I. Neurotransmitters are ____________________________________________________ J. The central nervous system contains _______________________ ...

Hypothalamic arcuate nucleus: neurons in the meeting

... and autonomic regulatory mechanisms of the central nervous system. More than 50 years ago. the parvicellular neurosecretion. as a concept has been introduced on the basis of studies by what the secretory activity of arcute neurons into the pituitary portal vessels had been clearly demonstrated. The ...

Biology 2401 Anatomy and Physiology I notes

... *Explain how a drug that blocks Ca++ channels could be a depressant and how a drug that makes membranes more permeable to Ca++ could be a stimulant. *What is the value of having two different neurotransmitter receptors at a synapse? * How can a neurotransmitter be excitatory in one place and inhibit ...

nips2.frame - /marty/papers/drotdil

... pattern rotation and dilation, but only for particular pattern translations (MT neurons will of course respond to a part of a large rotation or dilation that locally approximates the unit’s translational directional tuning). MT neurons in the present model do not develop this selectivity even when t ...

ben_slides1

... Changes in firing of PNs due to concentration are different for each odorant (in locust, at least...) ...

Drugs Change the way Neurons communicate

... Drugs change the way neurons communicate • Drugs of abuse interfere with and disrupt the process of neurotransmission • When neurons do not communicate normally, the brain does not function normally either ...

Neuronal cell types

... difference may occur because projection neurons of the neocortex, in contrast to those of the cerebellum or retina, often send axon collaterals that terminate within the cortex. This means that they have a local ...

Supplementary Figure Legends - Word file

... b. Pure tone frequency response from a non-pitch neuron. c. Harmonic complex tone stimuli used in generating responses shown in d) and e). The fundamental frequency component (f0) is only present in the top stimulus and is placed at the neuron’s CF. The bottom five stimuli lack the f0 component and ...

Studying the Living Human Brain

... important role in controlling arousal. • Damage to this causes a disorder called narcolepsy in which a person falls asleep suddenly during the daytime and cannot resist the sleep. ...

Tracing Brain Pathways: Mapping the Neurons

... PRV is injected into the peripheral muscles of the rodent eye and passed back neuron by neuron, an effective trans-neuronal tracing technique. The highly selective PRV is taken up by neurons responsible for the function and activity of the eyes, specifically omnipause neurons (OPNs) and excitatory b ...

intracellular recordings

... connections and receptive field properties were indistinguishable from typical perigeniculate neurons. Such displaced cells must be very few in number. Among more than 400 penetrated dLGN neurons only one was found. None was encountered in specific search experiments although 40 perigeniculate cells ...

Document

... Endoplasmic reticulum Vacuoles Lysosomes Pinocytic vesicles ...

NS Review

... 16. Which part of the autonomic n.s. is known as the “fight or flight” system? 17. What is the functional unit of the nervous system? 18. Which nerve cell process carries impulses toward the nerve cell body? 19. What are non-excitable cells that help & support neurons? (AKA: nerve glue) 20. What are ...

Exam - McLoon Lab

... D. The wide peripheral visual field helps you to notice a moving object. 23. In the retina, light passes through the layer of ganglion cells and the layer of interneurons before reaching the photoreceptor cells. True or false? ...

Slide 1

... stored as patterns of neural activity in the cerebellum and are developed in much the same way as factual memories. ...

Practice Exam 3 ANSWERS

... a. is propagated by the opening of voltage-gated sodium channels b. occurs whenever a pre-synaptic nerve fires a charge to a post synaptic nerve c. is carried out only whenever half of the neural threshold is reached d. moves bidirectionally away from the cell body 4. Saltatory conduction is made po ...

How is the Nervous System Organized? Class Objectives:

... Understand the function and purpose of the nervous system Identify and define the structures of the neuron Identify and discuss the role of neurotransmitters on behavior ...

Methylene blue supravital staining: an evaluation of its applicability

... skulls are subsequently removed and the tissues are exposed to the air. Since MB is soluble in water and alcohols, the production of microtome sections was not possible until ammonium heptamolybdate was found to be the appropriate dye-precipitating reagent, i.e. fixative (Bethe, 1895). This technica ...

Sensory Receptors

... Dark Light Membrane potential (mV) ...

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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)