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Organization of the Nervous System and the Neuron
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Organization of the Nervous System The Nervous System “maintains body homeostasis with electrical signals; provides for sensation, higher mental functioning, and emotional response; and activates muscles and glands.”
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3 Overlapping Functions of Nervous System SENSORY INPUT- INTEGRATION- MOTOR INPUT-
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Works with the Endocrine System to maintain homeostasis. 1.Nervous System- 2.Endocrine System-
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Organization of the nervous system can be based on: 1.Structural Classification- 2.Functional Classification-
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STRUCTURAL CLASSIFICATION
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FUNCTIONAL CLASSIFICATION
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Nervous Tissue Nervous tissue is made up of two types of cells- Supporting and Neurons Supporting cells of the CNS are called Neuroglia or “nerve glue”. Neuroglia includes many types of cells that generally support, insulate, and protect neurons.
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Types of Neuroglial cells- Astrocytes- Microglia- Ependymal cells- Oligodendrocytes-
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What about “gliomas”???
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Supporting Cells of the Peripheral Nervous System Satellite cells- Schwann cells-
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THE NEURON
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Nerve fibers may be microscopic up to a length of 3-4 feet Neurons never touch each other Axonal terminals release neurotransmitters into the synapse Most long nerve fibers are myelinated or covered with a white fatty sheath called myelin which protects and insulates fibers and increases transmission rate of nerve impulses
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Neurilemma is found covering the neurons of the Peripheral Nervous System and helps regenerate damaged nerve fibers Which brings us to bundles of nerve fibers- Tracts- Nerves- And gray matter vs. white matter-
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Neurons classified according to structure and function 1.Functional- Sensory or Afferent- Motor or Efferent- Associative or Interneurons- 2. Structural- based on # of processes extending from cell body
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Physiology of Neurons Neurons have two major functions 1.Irritability- 2. Conductivity-
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Irritabililty- the short version Resting or inactive neuron is polarized A stimulus excites the neuron to become active and generate an impulse The stimulus changes the permeability of the neuron’s membrane Sodium gates open and Na diffuses into the cell Neuron is now depolarized Depolarization activates the neuron to transmit an action potential or nerve impulse
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Depolarization is followed almost immediately by repolarization Until the neuron repolarizes it cannot conduct another impulse= absolute refractory period There also exists a relative refractory period when a stronger than usual stimulus is required
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Alcohol, sedatives, anesthetics- Cold and continuous pressure- Warm or remove pressure-
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YouTube - Neurotransmitter Synapse 3D AnimationYouTube - Neurotransmitter Synapse 3D Animation
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No contact between neurons except at electrical synapses (escape reflexes, retina, heart) Axonal terminals release neurotransmitters which cause depolarization of next neuron Neurotransmitter is removed from synapse by re- uptake at axonal terminal or enzymatic breakdown Conductivity
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Peripheral Nervous System Those nerves found outside the central nervous system Each nerve is made of bundles of neuron fibers Neuron fibers are surrounded by a delicate tissue sheath Groups of fibers are bound by coarser connective tissue wrapping to form bundles called fascicles
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CRANIAL NERVES SPINAL NERVES
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Spinal Nerves
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DISORDERS AFFECTING NEURONS POLIOMYELITIS
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MULTIPLE SCLEROSIS- BELL’S PALSY- SHINGLES-
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And then there’s… CARPAL TUNNEL SYNDROME-
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