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MSI - NERVOUS SYSTEM
... • Pathway for ascending and descending tracts • Pons – in front of cerebellum, between midbrain and medulla – contains center that controls respiration • Midbrain – vision and hearing • Medulla oblongata – bulb-shaped structure between pons and spinal cord, inside the cranium above foramen magnum. R ...
... • Pathway for ascending and descending tracts • Pons – in front of cerebellum, between midbrain and medulla – contains center that controls respiration • Midbrain – vision and hearing • Medulla oblongata – bulb-shaped structure between pons and spinal cord, inside the cranium above foramen magnum. R ...
The brain - WordPress.com
... DIVISIONS OF THE BRAIN Cerebrum Diencephalon Cerebellum Brain stem ...
... DIVISIONS OF THE BRAIN Cerebrum Diencephalon Cerebellum Brain stem ...
Cells of the Nervous System
... Some axons are wrapped burrito-style by fatty cells (glial cells) - increases speed at which neurons communicate) - white in color (white matter vs gray matter - is destroyed by multiple sclerosis ...
... Some axons are wrapped burrito-style by fatty cells (glial cells) - increases speed at which neurons communicate) - white in color (white matter vs gray matter - is destroyed by multiple sclerosis ...
Basic anatomy and function of the nervous system
... • Dendrites function as receptors in the nervous system. They receive a stimulus that begins a neural pathway ...
... • Dendrites function as receptors in the nervous system. They receive a stimulus that begins a neural pathway ...
Autonomic Nervous System
... brain pass to ganglia through cranial nerves – Preganglionic axons from sacral region pass through pelvic nerves to ganglia ...
... brain pass to ganglia through cranial nerves – Preganglionic axons from sacral region pass through pelvic nerves to ganglia ...
1 Chapter 12 Central Nervous System Spinal Cord
... • Dorsal horns – associated with afferent, sensory nerve impulses from receptors, C1-L5 neuron cell bodies bundled in dorsal root ganglion • Ventral horns – associated with efferent, motor nerve impulses to effectors, C1-L5 neuron cell bodies are in gray matter of ventral horn • Lateral horns – only ...
... • Dorsal horns – associated with afferent, sensory nerve impulses from receptors, C1-L5 neuron cell bodies bundled in dorsal root ganglion • Ventral horns – associated with efferent, motor nerve impulses to effectors, C1-L5 neuron cell bodies are in gray matter of ventral horn • Lateral horns – only ...
Introduction to Psychology
... Parasympathetic Nervous System division of the autonomic nervous system that CALMS the body, conserving its energy ...
... Parasympathetic Nervous System division of the autonomic nervous system that CALMS the body, conserving its energy ...
Photosynthesis
... Blood brain barrier isolates neural tissue from general circulation Incomplete barrier in areas ...
... Blood brain barrier isolates neural tissue from general circulation Incomplete barrier in areas ...
Chapter 6: Body and Behavior
... Nervous System’s Building Block • We know the entire body is composed of ______, each with a different purpose • Neurons: the basic cell that makes up the nervous system and that ________ and ______ messages within that system • ___________ of the body • Transmit information hundreds of times a minu ...
... Nervous System’s Building Block • We know the entire body is composed of ______, each with a different purpose • Neurons: the basic cell that makes up the nervous system and that ________ and ______ messages within that system • ___________ of the body • Transmit information hundreds of times a minu ...
Nervous System Review PPt
... – Distributed at the surface of the cerebrum & cerebellum, as well as in the depth of the cerebral, cerebellar, and spinal white matter – Function of gray matter is to route sensory or motor stimulus to interneurons of the CNS for creation of response to stimulus through chemical synapse ...
... – Distributed at the surface of the cerebrum & cerebellum, as well as in the depth of the cerebral, cerebellar, and spinal white matter – Function of gray matter is to route sensory or motor stimulus to interneurons of the CNS for creation of response to stimulus through chemical synapse ...
Chapter 2
... Diencephalon • Epithalamus - contains habenula (olfactory functions) and pineal gland • Thalamus - major relay station for sensory information • Hypothalamus - detects need states, controls the autonomic nervous system, and controls pituitary hormone production and release • Pituitary - regulates ot ...
... Diencephalon • Epithalamus - contains habenula (olfactory functions) and pineal gland • Thalamus - major relay station for sensory information • Hypothalamus - detects need states, controls the autonomic nervous system, and controls pituitary hormone production and release • Pituitary - regulates ot ...
The Central Nervous System
... The Pons - It is also involved controlling automatic body functions. The Cerebellum - This part deals primarily with controlling movement. It helps to control posture and balance as well as helping people to learn movement. ...
... The Pons - It is also involved controlling automatic body functions. The Cerebellum - This part deals primarily with controlling movement. It helps to control posture and balance as well as helping people to learn movement. ...
Physically-fit children are officially brainier than their punier peers
... Previous research has linked physical fitness in children to larger brain volumes of “grey matter” — the cell bodies of neurons. US lead researcher Dr Laura Chaddock-Heyman, from the University of Illinois, said: “This study extends our previous work and suggests that white-matter structure may be o ...
... Previous research has linked physical fitness in children to larger brain volumes of “grey matter” — the cell bodies of neurons. US lead researcher Dr Laura Chaddock-Heyman, from the University of Illinois, said: “This study extends our previous work and suggests that white-matter structure may be o ...
Electrical Communication (Nervous System) ppt
... ◦ Non-dominant- emotions, intuition, creativity ...
... ◦ Non-dominant- emotions, intuition, creativity ...
Document
... Motor –convey impulses from CNS to effector cells 6. Neurons are arranged in groups – i. Simple circuit – synapse between sensory and motor (reflex). – ii. Convergent – Info from several neurons come together at one ...
... Motor –convey impulses from CNS to effector cells 6. Neurons are arranged in groups – i. Simple circuit – synapse between sensory and motor (reflex). – ii. Convergent – Info from several neurons come together at one ...
Nervous System
... the central nervous system Motor (efferent) division Nerve fibers that carry impulses away from the central nervous system Interneurons (association neurons) Found in neural pathways in the central nervous system Connect sensory and motor neurons ...
... the central nervous system Motor (efferent) division Nerve fibers that carry impulses away from the central nervous system Interneurons (association neurons) Found in neural pathways in the central nervous system Connect sensory and motor neurons ...
Nervous Tissue
... • Highly resistant to passage of ions or small molecules • Do not exhibit transendothelial transport in small vesicles • Astrocytes may influence capillaries to express these unique properties ...
... • Highly resistant to passage of ions or small molecules • Do not exhibit transendothelial transport in small vesicles • Astrocytes may influence capillaries to express these unique properties ...
16. Anatomy of Brainstem
... thalamic nuclei that influence large areas of the cerebral cortex. – Midbrain portion of RAS most likely is its center ...
... thalamic nuclei that influence large areas of the cerebral cortex. – Midbrain portion of RAS most likely is its center ...
Slide ()
... The transverse section of the spinal cord shows three functional areas. The dorsal horn contains the sensory neurons of the spinal cord; the intermediate zone contains interneurons; and the motor nuclei zone contains the motor neurons that innervate the muscles. A. The corticospinal tract, also call ...
... The transverse section of the spinal cord shows three functional areas. The dorsal horn contains the sensory neurons of the spinal cord; the intermediate zone contains interneurons; and the motor nuclei zone contains the motor neurons that innervate the muscles. A. The corticospinal tract, also call ...
Sheep Brain Dissection
... • The occipital lobe receives and interprets visual sensory messages. • The temporal lobe is involved in hearing, smell, memory, and speech. You can find this by looking on the outside of one of the hemispheres. You will see a horizontal groove called the lateral fissure. The temporal lobe is the se ...
... • The occipital lobe receives and interprets visual sensory messages. • The temporal lobe is involved in hearing, smell, memory, and speech. You can find this by looking on the outside of one of the hemispheres. You will see a horizontal groove called the lateral fissure. The temporal lobe is the se ...
Central nervous system
![](https://commons.wikimedia.org/wiki/Special:FilePath/1201_Overview_of_Nervous_System.jpg?width=300)
The central nervous system (CNS) is the part of the nervous system consisting of the brain and spinal cord. The central nervous system is so named because it integrates information it receives from, and coordinates and influences the activity of, all parts of the bodies of bilaterally symmetric animals — that is, all multicellular animals except sponges and radially symmetric animals such as jellyfish — and it contains the majority of the nervous system. Arguably, many consider the retina and the optic nerve (2nd cranial nerve), as well as the olfactory nerves (1st) and olfactory epithelium as parts of the CNS, synapsing directly on brain tissue without intermediate ganglia. Following this classification the olfactory epithelium is the only central nervous tissue in direct contact with the environment, which opens up for therapeutic treatments. The CNS is contained within the dorsal body cavity, with the brain housed in the cranial cavity and the spinal cord in the spinal canal. In vertebrates, the brain is protected by the skull, while the spinal cord is protected by the vertebrae, both enclosed in the meninges.