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Published byCalvin Day Modified over 9 years ago
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Neurons in brain and spinal cord= Central Nervous System (CNS) Nerves that connect CNS to rest of body= Peripheral Nervous System (PNS)
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Types of Neuroglia Microglial cells- support and phagocytosis in CNS Figure 7.3
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Oligodendrocytes- form myelin sheaths in brain and spinal cord (CNS)
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Astrocytes- between neurons and blood vessels; support, nutrient regulation, form scar tissue (CNS)
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Ependymal cells- form epithelial-like membrane that covers parts of brain and forms inner lining that encloses spaces within brain and spinal cord (CNS)
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Schwann cells- myelinate PNS
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Satellite cells: surround cell bodies of PNS ganglia
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Neurons- transmit electrochemical “information” as nerve impulses along nerve fibers
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Nerve impulses are carried to Effectors (muscles and glands)
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Neuron Structure Cell body- main structure- include Nissl bodies (ER) and neurofibrils Dendrites- receive impulses, one or many Axon- sends impulses, branched, usually only one (arises from axon hillock)
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Large axons of peripheral neurons are enclosed in sheaths of neuroglia called Schwann cells –Myelin sheath- contains lipid- protein –Surrounded by membrane called Neurilemma
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Nodes of Ranvier- gaps between Schwann cells of myelin sheath
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Myelinated cell fibers appear white (white matter) Unmyelinated fibers and cell bodies appear gray (gray matter)
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Nuclei- clusters of cell bodies in CNS Ganglia- clusters of cell bodies in PNS Tracts- bundles of nerve fibers running through CNS Nerves- bundles of nerve fibers running through PNS
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Path of travel Sensory Neurons---Interneurons---Motor Neurons
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Sensation- conscious (perception) or subconscious awareness of changes in environment
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Process of sensation begins with receptor (selective)- stimulus produces potential at threshold CNS integrates impulse Three types of receptors: free nerve endings, encapsulated nerve endings, separate cells
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Can be grouped on location exteroceptors (external surface of body), interoceptors (internal environment), proprioceptors (muscles, tendons, joints)
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Can be grouped by stimulus mechanoreceptors (mechanical stimuli) thermoreceptors (heat) nociceptors (pain) photoreceptors (light) chemoreceptors (chemicals) osmoreceptors (osmotic pressure)
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Adaptation to maintained, constant stimulus (can be rapid or slow) A dog (red line) tracks a pheasant (yellow line). As the dog keeps leaving the odour to prevent receptor adaptation, it zigzags.
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Figure 7.8
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All resting neurons are polarized (different charge outside than inside), –determined by ions, channel pores in membrane K + crosses easily; Na + and Ca ++ with more difficulty Greater Na + concentration outside Greater K + concentration inside
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Due to diffusion- resting nerve cell always has a slight surplus of positive charge outside and slight surplus of negative charge inside –This is called resting potential
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A threshold potential must be reached to achieve an action potential –Na + permeability suddenly increases, resulting in an inward rush (action potential)
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Nerve impulse- when one action potential stimulates adjacent portions of nerve fiber to reach threshold potential and thus action potential –Results in a wave of action potentials moving down a nerve fiber
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The firing of a nerve is an “All or None” response (due to threshold potential)
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Certain local anesthetics decrease membrane permeability to sodium ions
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Synaptic transmission occurs between axon of one neuron (sending signal) and dendrite or cell body of another neuron (receiving signal)
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At this gap, Neurotransmitters are released from synaptic vesicles
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Certain neurotransmitters increase ion permeability (excitatory) Others decrease permeability (inhibitory)
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Small Molecule Neurotransmitter Substances Acetylcholine (ACh)Dopamine (DA)Norepinephrine (NE) Serotonin (5-HT)HistamineEpinephrine Amino Acids Gamma-aminobutyric acid (GABA)GlycineGlutamate Aspartate Neuroactive Peptides - partial list!! bradykininbeta-endorphinbombesincalcitonin cholecystokininenkephalindynorphininsulin gastrinsubstance Pneurotensinglucagon secretinsomatostatinmotilinvasopressin oxytocinprolactinthyrotropinangiotensin II sleep peptidesgalanin neuropeptid e Y thyrotropin- releasing hormone gonadotropnin- releasing hormone growth hormone- releasing hormone luteinizing hormone vasoactive intestinal peptide Soluble Gases Nitric Oxide (NO) Carbon Monoxide
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Reflexes: Somatic: stimulate skeletal muscle Autonomic: regulate smooth muscle, heart and glands Figure 7.11
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