Anatomical identification of primary auditory cortex in the developing

... rather immature state (1). Nevertheless, gerbil’s brain anatomy descriptions or atlases are not easy to find in the literature, neither adult nor young, and therefore developing auditory cortex in vivo is hard to be located with precision. One approach has been developed by Kotak et al (2), using fr ...

How the brain uses time to represent and process visual information

... trains depends on the timing of the individual spikes, and not just on the overall firing rates. To determine whether individual spike times carry information, we use a family of metrics denoted by D spike [q]. The distance D spike [q] between two spike trains is defined as the minimum total ‘cost’ ...

Lab 9

... Cerebral White Matter • Types include: – Commissures – connect corresponding gray areas of the two hemispheres – Association fibers – connect different parts of the same hemisphere – Projection fibers – enter the hemispheres from lower brain or cord centers ...

The Inferior Parietal Lobule Is the Target of Output from the Superior

... Little is known about the subcortical inputs to different subregions of IPL. Thalamic inputs to LIP, area 7a, and area 7b are known to be distinct (Asanuma et al., 1985; Schmahmann and Pandya, 1990; Hardy and Lynch, 1992). Such segregation of the thalamic projections suggests that the subdivisions o ...

Acoustic-Motor Reflexes - Neurobiology of Hearing

... and psychiatric disturbances: Parkinson’s disease, reflex epilepsy due to surprise, hyperekplexia, ...

The elephant brain in numbers

... 2008)—just like the higher EQ of capuchin monkeys compared to great apes is at odds with the greater behavioral flexibility and cognitive abilities of the latter (Deaner et al., 2007). ...

(from quizzes) Bergen 14 Which of the following is true regarding a

... containment in the same way that Korean adults do. b. After learning to talk about time using vertical spatial terms, English speakers confirm the temporal order of months faster following spatial reasoning about vertical objects than horizontal objects. c. Tzeltal speakers rely primary on an absolu ...

Glutamate-like immunoreactivity in axon terminals from the olfactory

... the piriform cortex is reduced following olfactory bulbectomy or transection of the lateral olfactory tract (Bradford and Richards, 1976). The present study was undertaken because to date there is no morphological information available regarding the neurotransmitter associated with this efferent pat ...

03/05 PPT

... • Different cells respond to the same guidance cues in different ways • Chemical cues exist at many points along the axon guidance pathway e.g the optic tectum and optic tract ...

PDF file

... of visual stimuli? This issue is important since the later layers of network, with their larger receptive fields, need to detect features that are more complex than oriented edges, such as edge groupings (T, X, Y, cross, etc), patterns, object parts, human faces, etc. A classical study by Blakemore ...

Neurons and the BOLD response

... why fMRI is said to be an indirect measure of neuronal activity. ...

Nervous System I

... overshoot of depolarization, making the membrane more negative than -70mV. • Refractory Period: During the next few seconds, there is a refractory period and during this time no action potential can take place Nervous System ...

wisconsin interagency karst feature reporting form 2000-1

... (e.g., datums = NAD91, NAD27; spheroids = WGS84, GRS80) ...

C. elegans Neurology Supplement - Bio-Rad

... While our understanding of how the human body functions has grown significantly in the past century, much remains to be learned. One of the major gaps in our knowledge lies in our lack of understanding of how the human brain functions. The brain is the most complex organ in the human body and arguab ...

Flip Folder 3 KEY - Madison County Schools

... receptor phosphorylates (turns on) G-protein. 3) G-protein break inactive PIP2 to active IP3 (which is now second messenger). 4) IP3 travels to smooth endoplasmic (sarcoplasmic since it’s in a muscle cell) reticulum and binds to ligand-gated (IP3 is the ligand) Ca2++ channel. Calcium (another second ...

Lecture 37 Notes - MIT OpenCourseWare

... two types of homotypic cortex, and paralimbic and limbic areas? Answer by describing major functional characteristics. Also, describe the nature of transcortical connections connected to these areas. 9) What are the “association layers” of the neocortex? What is implied by the presence of the growth ...

Brain lateralisation: a question of spatial frequency?

... When a neuron is activated, current flows from the cell body to the axon terminal To be registered by electrodes on the scalp many neurons would need to fire at the same time, which is unlikely given that action potentials lasts around 1msec No dipole created ...

CH 14 brain cranial nerves A and P 2017

... the general senses somatosensory, somesthetic, somatic senses - distributed over the entire body - use simple sensory receptors - touch, pressure, movement, heat, cold, and pain - from the head mostly via the trigeminal nerve - rest of body use sensory tracts of the spinal cord - both paths decuss ...

Head direction cells

... hippocampus on the dorsocaudal brain surface. Ranck reported his discovery in a brief abstract in 1984. A postdoctoral fellow working in his laboratory, Jeffrey S. Taube, made these cells the subject of his research, and summarized his findings in a pair of papers in the Journal of Neuroscience in 1 ...

A Hierarchical Artificial Retina Architecture - USC

... using an electrical current. This experiment proved that the nerves behind the retina are still functioning well in many cases although the retina has itself degenerated. Both of the previously mentioned experiments could stimulate the brain to restore a sense of vision. However, they differed in th ...

Bio 211 Lecture 18

... • absolute - time when threshold stimulus does not start another action potential (Na+ channels inactivated) • relative – time when stronger threshold stimulus can start another action potential (Na+ channels restored, K+ channels begin ...

3 Anatomy of the Nervous System

... The vertebrate nervous system is composed of two divisions: the central nervous system and the peripheral nervous system (see Figure 3.1). Roughly speaking, the central nervous system (CNS) is the division of the nervous system that is located within the skull and spine; the peripheral nervous syste ...

unit1sup - University of Kentucky

...  Closure – perceived continuity, a tendency to close strong perceptual forms, response to missing evidence.  Click on time waveform plots to listen. In the first case a low level tone is playing and then stops, but the gap is covered by a white noise mask. Most will hear the tone playing through t ...

Chapter 29 - krigolson teaching

... feedback to the brain from the peripheral proprioceptors in the eye muscles that could inform the brain that the eye is moving. This is unlikely because both the receptive field shifts and the perceptual compression begin even before the eye moves, and the cortical representation of eye position lag ...

Cerebellum

... Cerebellum Lec 12 ...

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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)