Review of Thoracic and Abdominal Autonomics
... Sympathetics to the heart originate from the T1T4 (or sometimes T5) spinal levels, but not only from the T1-T4 chain ganglia—some pass through cervical ganglia on their way to the heart. It may seem odd that some of the pathways to the heart start in the thoracic spinal cord, run all the way up to ...
... Sympathetics to the heart originate from the T1T4 (or sometimes T5) spinal levels, but not only from the T1-T4 chain ganglia—some pass through cervical ganglia on their way to the heart. It may seem odd that some of the pathways to the heart start in the thoracic spinal cord, run all the way up to ...
Neurons
... The intensity of a stimulus is coded by the frequency of action potentials (continued) – Intensity is coded in two other ways: – First, the intensity can be signaled by the frequency of action potentials in a single neuron—the more intense the stimulus, the faster the neuron fires action potential ...
... The intensity of a stimulus is coded by the frequency of action potentials (continued) – Intensity is coded in two other ways: – First, the intensity can be signaled by the frequency of action potentials in a single neuron—the more intense the stimulus, the faster the neuron fires action potential ...
physiological plasticity in auditory cortex: rapid induction by learning
... acquisition of information about relationships between stimuli, it is still necessary to have a behavioral index of learning. A behavioral response that develops due to the association of two stimuli permits the inference that neural processes underlying learning have developed plasticity. Most cont ...
... acquisition of information about relationships between stimuli, it is still necessary to have a behavioral index of learning. A behavioral response that develops due to the association of two stimuli permits the inference that neural processes underlying learning have developed plasticity. Most cont ...
(See Page 85) The
... Regions of the cerebral cortex -below the parietal lobes and in front of the occipital lobes -- important for processing auditory information, for memory, and for object and face perception. (See page 98) ...
... Regions of the cerebral cortex -below the parietal lobes and in front of the occipital lobes -- important for processing auditory information, for memory, and for object and face perception. (See page 98) ...
Andrea Kádár
... A dense network of both AGRP- and α-MSH-IR axons was observed in the PVN surrounding the TRH neurons. The density of the α-MSH-containing axons was slightly higher in the most anterior part of PVN, while the network of the AGRP-IR axons seemed to be denser in the posterior level of the PVN. In the s ...
... A dense network of both AGRP- and α-MSH-IR axons was observed in the PVN surrounding the TRH neurons. The density of the α-MSH-containing axons was slightly higher in the most anterior part of PVN, while the network of the AGRP-IR axons seemed to be denser in the posterior level of the PVN. In the s ...
An implantable electrode design for both chronic in vivo
... activity remotely, e.g. in free flight of locusts (Kutsch et al., 1993). Since the myogramm electrodes are inserted into muscle tissue, however, long-term use of this type of electrodes, once implanted is difficult. On the one hand, the electrodes are bound to cause tissue damage after repeated musc ...
... activity remotely, e.g. in free flight of locusts (Kutsch et al., 1993). Since the myogramm electrodes are inserted into muscle tissue, however, long-term use of this type of electrodes, once implanted is difficult. On the one hand, the electrodes are bound to cause tissue damage after repeated musc ...
the inferior colliculus of the rat: quantitative
... the same (x, y) coordinates of its corresponding field. These coordinates allowed producing gray-coded maps like those shown in Figs. 9 and 10 using DeltaGraph. For each selected neuron, the mean cytoplasmic gray level (MN), the standard deviation (S.D.N), and the perimeter of the soma were measured ...
... the same (x, y) coordinates of its corresponding field. These coordinates allowed producing gray-coded maps like those shown in Figs. 9 and 10 using DeltaGraph. For each selected neuron, the mean cytoplasmic gray level (MN), the standard deviation (S.D.N), and the perimeter of the soma were measured ...
Long-range GABAergic neurons in the prefrontal cortex modulate
... mPFC fibers was detected at several downstream regions including NAcc and BLA. Using whole cell recordings in NAcc, the authors found that optogenetic activation of mPFC ChR2-containing terminals in NAcc elicited inhibitory postsynaptic currents (IPSCs) in NAcc neurons. Blocking GABAA, but not gluta ...
... mPFC fibers was detected at several downstream regions including NAcc and BLA. Using whole cell recordings in NAcc, the authors found that optogenetic activation of mPFC ChR2-containing terminals in NAcc elicited inhibitory postsynaptic currents (IPSCs) in NAcc neurons. Blocking GABAA, but not gluta ...
Physiology Lecture 6
... Channels for Na+, by contrast, are all gated and the gates are closed at the resting membrane potential. However, the gates of closed Na+ channels appear to flicker open (and quickly close) occasionally, allowing some Na+ to leak into the resting cell. The neuron at the resting membrane potential i ...
... Channels for Na+, by contrast, are all gated and the gates are closed at the resting membrane potential. However, the gates of closed Na+ channels appear to flicker open (and quickly close) occasionally, allowing some Na+ to leak into the resting cell. The neuron at the resting membrane potential i ...
Exam 5 Study Guide-sp2016
... Understand how the makeup of the spinal cord changes from the superior to inferior ends. Understand what makes white and gray matter. Identify the meninges within the spinal cord and identify the epidural space on a diagram or on a model. Identify rootlets and roots. Distinguish the function of ante ...
... Understand how the makeup of the spinal cord changes from the superior to inferior ends. Understand what makes white and gray matter. Identify the meninges within the spinal cord and identify the epidural space on a diagram or on a model. Identify rootlets and roots. Distinguish the function of ante ...
The Cochlear Nucleus - Neurobiology of Hearing
... The Cochlear Nucleus The cochlear nucleus (CN) contains the circuits through which information about sound is coupled to the brain. In the CN, fibers of the auditory nerve contact neurons that form multiple, parallel representations of the acoustic environment. These circuits vary from simple synaps ...
... The Cochlear Nucleus The cochlear nucleus (CN) contains the circuits through which information about sound is coupled to the brain. In the CN, fibers of the auditory nerve contact neurons that form multiple, parallel representations of the acoustic environment. These circuits vary from simple synaps ...
Bad Fish - Groch Biology
... paralysis after eating the pufferfish meal? A. TXX causes motor neurons to fire continuously, overloading the brain with signals, resulting in paralysis. B. TXX causes motor neurons to stop firing, preventing communication with the muscles, resulting in paralysis. C. TXX causes sensory neurons to st ...
... paralysis after eating the pufferfish meal? A. TXX causes motor neurons to fire continuously, overloading the brain with signals, resulting in paralysis. B. TXX causes motor neurons to stop firing, preventing communication with the muscles, resulting in paralysis. C. TXX causes sensory neurons to st ...
Spikes, Local Field Potentials, and How to Model Both
... past spiking history Ht and a function of the external covariates (stimuli) x(t) Our goal in statistical modeling is to get (t). Once we know that, we know “everything” (probability of any spike sequence for example) ...
... past spiking history Ht and a function of the external covariates (stimuli) x(t) Our goal in statistical modeling is to get (t). Once we know that, we know “everything” (probability of any spike sequence for example) ...
Heart-brain communication Veen, Frederik Martin van der
... subcortical structures. These structures can be subdivided in areas which have direct specific influences and are related to specific behavior, and areas that have a more general effect and are not related to specific behavior. This distinction is also made in the description of the emotional motor ...
... subcortical structures. These structures can be subdivided in areas which have direct specific influences and are related to specific behavior, and areas that have a more general effect and are not related to specific behavior. This distinction is also made in the description of the emotional motor ...
Biological clock
... • In addition to the axonal output pathways, SCN neurons may rhythmically secrete the peptide neuromodulator: vasopressin (AVP) • How do neurons of the SCN keep time? no complete answer at the molecular level, but it’s clear that each SCN cell is a minuscule(极小的 ) clock. ...
... • In addition to the axonal output pathways, SCN neurons may rhythmically secrete the peptide neuromodulator: vasopressin (AVP) • How do neurons of the SCN keep time? no complete answer at the molecular level, but it’s clear that each SCN cell is a minuscule(极小的 ) clock. ...
HH--Bell`s palsy - 2
... The vestibular afferent ganglion cells are located in Scarpa’s ganglion, which is inside the portion of the vestibular nerve inside the internal auditory canal. The cochlear nerve is composed of approx. 30,000 afferent bipolar ganglion cells. The efferent cochlear axons (olivocochlear bundle - appro ...
... The vestibular afferent ganglion cells are located in Scarpa’s ganglion, which is inside the portion of the vestibular nerve inside the internal auditory canal. The cochlear nerve is composed of approx. 30,000 afferent bipolar ganglion cells. The efferent cochlear axons (olivocochlear bundle - appro ...
Serotonin Depletion In Vivo Inhibits the
... Olfactory lobe glomeruli are sites of synaptic contact between the sensory neurons, olfactory projection neurons, and several classes of local interneurons. The latter two classes of neuron also innervate two adjacent neuropil regions, the accessory lobe and the olfactory-globular tract neuropil (OG ...
... Olfactory lobe glomeruli are sites of synaptic contact between the sensory neurons, olfactory projection neurons, and several classes of local interneurons. The latter two classes of neuron also innervate two adjacent neuropil regions, the accessory lobe and the olfactory-globular tract neuropil (OG ...
Biological clock - Science Mission
... • In addition to the axonal output pathways, SCN neurons may rhythmically secrete the peptide neuromodulator: vasopressin (AVP) • How do neurons of the SCN keep time? no complete answer at the molecular level, but it’s clear that each SCN cell is a minuscule(极小的 ) clock. ...
... • In addition to the axonal output pathways, SCN neurons may rhythmically secrete the peptide neuromodulator: vasopressin (AVP) • How do neurons of the SCN keep time? no complete answer at the molecular level, but it’s clear that each SCN cell is a minuscule(极小的 ) clock. ...
full text pdf
... nerve fibres were very abundant in the SO ganglionated plexus. Some of them expressed simultaneously immunoreactivity for SP, and many SP-positive only nerve terminals were also found within the ganglia and in nerve bundles closely associated with the SO muscle. These CGRP and/or SP-positive fibres ...
... nerve fibres were very abundant in the SO ganglionated plexus. Some of them expressed simultaneously immunoreactivity for SP, and many SP-positive only nerve terminals were also found within the ganglia and in nerve bundles closely associated with the SO muscle. These CGRP and/or SP-positive fibres ...
in cellular neuroscience
... GFAP). Clearly, the functions that mammalian astrocytes perform in controlling blood flow and in contributing to the blood-brain-barrier will not be possible for worm glia. Indeed, these functions are not required in the worms due to the small body size and characteristics of the environment in whic ...
... GFAP). Clearly, the functions that mammalian astrocytes perform in controlling blood flow and in contributing to the blood-brain-barrier will not be possible for worm glia. Indeed, these functions are not required in the worms due to the small body size and characteristics of the environment in whic ...
artificial intelligence meets natural consciousness: is it possible to
... The new project Aim of the research is to test with an AI tool the interconnections among brain areas in presence of sensory and emotional stimuli, and show how similar stimuli give rise to chaotic attractors identified with identical or similar codes. We can process both individual signals and ...
... The new project Aim of the research is to test with an AI tool the interconnections among brain areas in presence of sensory and emotional stimuli, and show how similar stimuli give rise to chaotic attractors identified with identical or similar codes. We can process both individual signals and ...
Neuroanatomical characteristics of deep and superficial needling
... believed to exert its effects through sensory afferent stimulation. Although we are unable to assess, based on the present results, whether acupuncture works via stimulation of motor nerves, as the study was neuroanatomical rather than neurofunctional in nature, it is clear that tracer can be transp ...
... believed to exert its effects through sensory afferent stimulation. Although we are unable to assess, based on the present results, whether acupuncture works via stimulation of motor nerves, as the study was neuroanatomical rather than neurofunctional in nature, it is clear that tracer can be transp ...
Susceptibility to a neurotropic virus and its changing distribution in
... cerebral cortex but with increasing age these connections are progressively reduced through axonal loss, so that in the adult they are largely limited to the visual or sensorimotor cortex, respectively. In several of the sections examined this network demonstrated spread of virus along subcortical n ...
... cerebral cortex but with increasing age these connections are progressively reduced through axonal loss, so that in the adult they are largely limited to the visual or sensorimotor cortex, respectively. In several of the sections examined this network demonstrated spread of virus along subcortical n ...
189084_189084 - espace@Curtin
... The three main dopamine cell groups of the brain are located in the substantia nigra (A9), ventral tegmental area (A10), and retrorubral field (A8). Several subdivisions of these cell groups have been identified in rats and humans but have not been well described in mice, despite the increasing use ...
... The three main dopamine cell groups of the brain are located in the substantia nigra (A9), ventral tegmental area (A10), and retrorubral field (A8). Several subdivisions of these cell groups have been identified in rats and humans but have not been well described in mice, despite the increasing use ...