Sensory Physiology

... carries impulses from skin, skeletal muscles and joints Visceral afferent fibers – carries impulses from organs within ventral body cavities Special sense afferent fibers – eyes, ears, taste, smell ...

Neuronal Development

... • Synapse forms ...

Motor Cortex

...  Preferred direction  but active at 45 from preferred  How is direction determined?  Populations of M1 neurons  Net activity of neurons with different preferred directions  vectors ~ ...

middle ear

... nerve axons to produce action potentials at the same frequency. Place theory - each area along the basilar membrane is tuned to a specific frequency of sound wave. ...

Vision

... Create Color? • Color does not exist in the world, only in the mind---WHOA! – color is a sensation created when light waves are transduced (I have no idea if this is the correct past tense of transduction) and then processed in our visual cortex ...

ANSWERS TO CHAPTER 8

... skeletal muscle; Autonomic nervous system: involuntary, innervates smooth muscle, cardiac muscle, and glands. 3. Multipolar neurons: several dendrites and one axon, includes motor neurons; bipolar neurons: one dendrite and one axon, found in the eye and nose; unipolar neurons: a single process that ...

bio 342 human physiology

... Smooth muscle Cardiac muscle Glands ...

Major Brain Structures and Functions

... • The brain is not neatly organized into structures that correspond to specific behaviors • Most behavior involves neural activity in many brain parts • Here we are generalizing! The brain is not as simple as we will make it sound! ...

Brain Notes - Cloudfront.net

... receptors Natural opiates produced in the brain which function as the body’s own natural painkillers and Elevate mood. Endorphins respond to morphine Enkephalins= opiate like neural regulators relieve pain & stress similar to endorphins ...

Nervous Regulation

... • These molecules bind with receptors in membrane of muscle cells causing them to ...

1 Central Nervous System: Brain one of largest organs in body (~3

... may be a reminder that ancient ancestors had gills (primitive reflex) useful to many amphibians because it stops water getting into their lungs ...

The Nervous System

... PNS  Connects CNS to all of your organ systems  Uses sensory neurons to detect stimuli  Uses motor neurons to carry signals from CNS to other parts of the body ...

Biology and Behaviour 40s

... • Method: Using modern technology, researchers reconstructed the injury to Gage’s skull and compared those to historical accounts of his behaviour before and after the injury. • Conclusions: The reconstructed injury based on the skull of Gage indicated damage to the pre-frontal lobe of the brain whi ...

X Period- Review for Brain test

... Upper brain- controls all human functions, example—thinking, personality ...

Dear Notetaker:

... o In the retina and LGN there are neurons that are classified as M-like, P-like, or K-like with different anatomical features and functions o In V1 the info from P, K, and M cells is recombined, it does not stay segregated o The recombined info is sent to extra striate areas for even more processing ...

Nervous System

... Uses hormones that travel through the bloodstream. Takes longer to get there but lasts a long time ...

Current Opinion in Neurobiology - Sensory systems

... causation, where the question is about which stimuli elicit a given response. This question is identical to the first of Nico Tinbergen’s four questions [2], which he devised for his field of neuroethology, but it applies equally well to sensory physiology. (His other three questions, also about mec ...

nervous system physiology 1

... Cells of the nervous tissue: Cellular diversity of the brain Nerve cells: neurons and neuroglial cells. • ~1011 neurons in the human brain • and 10 x more neuroglia Neurons have special shapes, physiological properties, and connections (~1000 synapses/each neuron & other connecting mechanisms !) • ...

Origin of Long- Term Memory - Neuromarketing Business Association

... It’s important to remember, that LTP is not a mechanism, but a outcome of the increased activity in two neurons, that result of a increase of APMA receptors, strengthen the synaptic connection, which allows the low frequent action potential a greater depolarization potential - This is the foundation ...

CNS lecture

... … filters out 99% of sensory input as unimportant o RAS: arousal system o Complex polysynaptic path in brainstem and thalamus RF o Receives messages from neurons on spine and other parts and communicates with cerebral cortex with complex circuits o Ultimately responsible for consciousness o Extent o ...

7. The Nervous System Identify the major structures and areas of the

... • 3 types: blue, green, red • Allows mediation of colour • High resolution but insensitive to light • Loss of cone function leads to macular degeneration • Fovea centralis contains only cones and provides the sharpest vision • 6 million cones • Protein called photopsins Light à ele ...

Chapter 11: Fundamentals of the Nervous System and Nervous Tissue

... 1. Some neurotransmitters have both excitatory and inhibitory effects 2. Determined by the receptor type of the postsynaptic neuron 3. Example: acetylcholine a. Excitatory at neuromuscular junctions with skeletal muscle ...

Summary of: Stevens, Alison P. "Learning Rewires the Brain

... magnetic resonance imaging, or fMRI. The fMRI device uses a strong magnet to detect changes in blood flow. Scientists can use the fMRI reveal where the blood is flowing in the brain at the highest rate, seeing the boost of blood flow in cells highlights which cells in particular are working the hard ...

Organization of the Nervous system. Physiology of neurons and glial

... • Cerebral blood supply by two pairs of arteries: - the right and left internal carotid arteries  anterior 2/3 of the corresponding cerebral hemispheres, - the right and left vertebral arteries, which join to form the basilar artery  brain stem and posterior portion of the hemispheres • Internal c ...

Chapter 16 Sense Organs

... Vision and Light • Vision (sight) is perception of light emitted or reflected from objects in the environment • Visible light is electromagnetic radiation with wavelengths from 400 to 750 nm • Light must cause a photochemical reaction in order to produce a nerve signal our brain can notice – radiati ...

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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)