METABOLIC-REDOX ADAPTATIONS OF NEURONS AND

... Email of the presenting author: [email protected] Energy and redox conservation in the brain requires metabolic cooperation between distinct cell types. We have identified mechanisms and factors that maintain cell specific programs to allow this metabolic-redox collaboration. Neurons show a high depe ...

Chapter 4

...  Brain Lateralization ...

The Nervous System

... across a synapse, and then travel along a second axon to it’s final destination. ...

L8_Nerve_tissue_and_organs

... network between the sensory and motor neurons Morphological classification is based on the number of processes: • Multipolar neurons have one axon and two or more dendrites • Bipolar neurons have one axon and one dendrite • Unipolar (pseudounipolar) neurons have one process, that divides close to th ...

Organization of the Nervous System and the Neuron

... from synapse by reuptake at axonal terminal or enzymatic breakdown ...

Guided Notes for the Nervous System-

... 19. Structural classification is based on the number of processes extending from the cell. If there are several, the neuron is multipolar. This is the most common type because all motor and association neurons are multipolar. ...

SELECT THE ONE BEST ANSWER OR COEPLETION 1. Primary

... 38. Eye movement retained following lesions of the MLF (intranuclear opthalmoplegia) include: (1) lateral gaze (2) horizontal gaze (3) nystagmus (4) convergence 39. A bilateral lesion in the inferotemporal area (Brodmann's areas 20 and 21) would (1) produce pathological nystagmus (2) involve portion ...

NEUROSCIENCE FACTS

... cortex, where the action of GABA also can be related directly to physiological processes. In the visual cortex, approximately one in five neurons and one in six synaptic boutons synthesize GABA. Stereological estimates show that an average cortical neuron receives approximately 5800synaptic inputs i ...

Sistemas sensoriales - U

... networks. The proposal is that this 'binding problem' could be solved by exploiting the temporal aspects of neuronal activity16, 17, 18, 40, 41, 42, 43. The model predicts that neurons that respond to the same sensory object might fire in temporal synchrony with a precision in the millisecond range ...

Nervous System

... Dementia - damaged brain cells caused by injury or disease (Alzheimer’s); memory loss and personality change. Drugs and the Nervous System ...

Fate specification and patterning

... Cortical size control: brain evolution and disease state Evolu:on"of"the"brain" ...

seminario - Instituto Cajal

... orthodromic responses in characterized dRPO and vRPO neurons. Accordingly, anatomical studies showed retrogradely-labeled neurons from both tegmental areas within the PeF, some of which contained Hcrt, and positive Hcrt synapses on dRPO and vRPO neurons. Hcrt-1 application in dRPO provoked an increa ...

34-Sensory-Mechanism

... The effect of light on retinal ...

Chapter 7: The Nervous System

... Astrocytes – connect blood vessels to neuron ...

In cognitive neuroscience, the prefrontal cortex represents a kind of

... response properties of neurons in sensory areas is not adequate for investigation in PFC. Indeed, if one is to examine PFC for evidence of information integration, ...

2 Guided Notes for PPT 7, Hearing and Sight

... Rod and cone cells are the light absorbing cells. Rod cells: used for night vision or monochromatic vision Cone cells: used to capture color and are photopic..day vision Bipolar cells _________________________________________________ ...

How fast is the speed of thought?

... more sophisticated the information analysis will be. However, even with a reaction time of 400-500 ms for the recognition and discrimination of visual stimuli, there will still be only about 20-30 ms processing time per synapse. How fast can you see? Another way of looking at processing times is to ...

neuron

... • extracellular material is extremely reduced replaced by glial branched process • neuropil – high amount of synapses, dendrite´s arborisation, non-myelinated axons • extensive vasculature with variable amount of connective tissue both in CNS and PNS • blood-brain barrier in CNS ...

What is real? How do you define real?

... Figure 1.5: A) Recordings from a neuron in the primary visual cortex of a monkey. A bar of light was moved across the receptive field of the cell at different angles. The diagrams to the left of each trace show the receptive field as a dashed square and the light source as a black bar. The bidirecti ...

Neurological Basis of Classical Conditioning

... In order to test the viability of the neurological model presented above, Weinberger and colleagues began by establishing the tonotopic frequency of a set of neurons within the auditory system, in particular the auditory cortex. Many cells in the auditory system are "tuned" to a given frequency, tha ...

General histology of nervous system

... • interconnections (at least 1000 each) ...

Topographic Mapping with fMRI

... Fourier analysis for Retinotopy (how to in Matlab): 1) Zero center the time series (if not already) series=series-mean(series) 2) Apply Fast Fourier Transform (FFT). Produces array of complex numbers giving the amplitude and phase of each frequency component. ...

Types of neurons

...  Information collectors  Receive inputs from neighboring neurons  Inputs may number in thousands  If enough inputs the cell’s AXON may generate an output ...

Document

... • Transduction: Transformation of one form of energy into another – especially the transformation of stimulus information into nerve impulses • Receptors: Specialized neurons that are activated by stimulation and transduce (convert) it into a nerve ...

PPt #2 Human Body Nervous system

... • 4. I can identify and explain different areas of the brain and their functions. • 5. I can explain how the nervous system passes information between the external environment and the many parts of the body. ...

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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)