A&P Nervous System
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A&P Nervous System - Details
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| 🇬🇧 | 🇬🇧 |
| Function of the nervous system | Organized to detect changes in internal and external environment, eveulaate the info and imitate an appropriate response |
| Central nervous system | Consist of the brain and the spinal cord, integrates sensory info, evaluates it, and inters an outgoing response |
| Cperipheral nervous system | Nerves that lie in the outer regions of the nervous system |
| Cranial nerves | Originate from the brain |
| Spinal nerves | Originate from the spinal cord |
| Fafferent divison | Consist of all incoming sensory pathways |
| Efferent divison | Econsist of all outgoing motor pathways |
| Somatic nervous system | Carries info to the somatic effectors (skeletal muscles), and carries feedback info to the somatic integration centres in the CNS |
| Autonomic nervous system | Efferent division carries info to the autonomic or visceral effectors (cardiac muscles, smooth muscles, glands & adipose tissues) |
| Glia cells | Support the neurons |
| Astrocytes | In the CNS, star shaped, largest and most numerous type of glia, connect to both neurons and capillaries, transfer nutrient from the blood to the neurons |
| Microglia | In CNS small usually stationary cells found in inflamed brain tissue, they enlarge and move about. they cary on phagocytes |
| Ependymal | In CNS, resemble epithelial cells and form thin sheets that line fluid filled cavities in the CNS, some produce fluid and other aid in circulation of fluid |
| Oligodendrocytes | In CNS, smaller than astrocytes with fewer processes, hold nerve fibres together and produce the myelin sheath |
| Schawn cells | In PNS, found only in peripheral neurons, support nerve fibres and form myelin sheaths |
| Myelin sheath | These gaps are often called nodes of ranvier |
| Neurilemma | Ormed by the cytoplasm of the Schwann cells, wrapped around the myelin sheath, essential fro nerve regrowth |
| Satellite cells | They are Schwann cells that cover and support cell bodies in the PNS |
| Neurons | Excitable cells that imitate and conduct impulses that make possible all nervous system functions |
| Components of neurons | Cell body, ribosomes, rough endoplasmic reticulum, Golgi apparatus |
| Ribosomes, rough ER and golgi | Provide protein molecules needed for transmission of nerve signals from one neurone to another, neurotransmitters are packaged into vesicles, provide proteins for maintaining and regenerating nerve fibres |
| Mitochondria | Provide energy (ATP) for neurone, and some are transported to end of an axon |
| Dendrites | Conduct nerve signals to the cell body of the neuron |
| Axon | A single process extending form the axon hillock, sometimes covered by a fatty layer called a myelin sheath, conducts nerve impulses away from the cell body of the neuron, distal tips of axons are telodendria |
| Input zone | Dendrites and cell body |
| Summation zone | Axon hillock |
| Conduction zone | Axon |
| Output zone | Telodendria and synaptic knobs of axon |
| Multipolar | One axon and several dendrites |
| Bipolar | Only on axon and one dendrite, least numerous kind of neuron |
| Unipolar (pseudo unipolar) | One process come off neuron cell body, but divides almost immediately into two fibres central fibre and peripheral fiber |
| Afferent neurons | Conduct impulses to spinal cord or brain |
| Efferent neurons | Conduct impulses away from spinal cord or brain toward muscles or glandular tissue |
| Reflex arc | A signal conduction route to and from the CNS with the electrical signal beginning in receptors and ending in effectors |
| Three neuron arc | Most common, consists of afferent neurons, interneurons and efferent neurons |
| Synapse | When nerve signals are transmitted from one neuron to another |
| Chemical synapse | Located at the junction of the synaptic knob of one neuron and the dendrites or cell body of another neuron |
| Nerves | Bundles of peripheral nerve fibres held together by several layers of connective tissues |
| Endonurium | Delicate layer of fibrous connective tissue surrounding each nerve fibre |
| Perineurium | Connective tissue holding together fascicles (bundles of fibers) |
| Epineurium | Fibrous coat surrounding numerous fascicles and blood vessels to form a complete nerve |
| E tracts | Bundles of nerve fibres within the CNS, unlike nerves, tracts do not have connective tissue coverings |
| White mater- PNS | Myelinated nerves |
| White mater- CNS | Myelinated tracts |
| Egrey matter | Made up of cells bodies and unmyleinated fibres |
| Grey mater- CNS | Referred to as nuclei |
| Grey matter-PNS | Referred to as ganglia |
| Mixed nerves | Contain sensory and motor neurons |
| Sensory nerves | Nerves with predominantly sensory neurons |
| Motor nerves | Nerves with predominantly motor neurons |
| Membrane potentials | Slight excess of positively charged ions on the outside of the membrane and slight deficiency of positively charged ions on the inside of the membrane |
| Nerve impulse- potential | Difference in electrical charge |
| Polarized membrane | A membrane that exhibits a membrane potential |
| Resting membrane potential | The membrane’s selective permeability characteristics help maintain a slight excess of positive ions on the outer surface of the membrane |
| Sodium potassium pump | Active transport mechanism in plasma membrane that transports Na+ and K+ in opposite directions and at different rates |
| Local potentials | Slight shift away from the resting membrane in a specific region of the plans membrane |
| Excitation | When a stimulus triggers the opening of additional Na+ channels, allowing the membrane potential to move toward 0 (depolarization) |
| Inhibition | When a stimulus triggers the opening of additional K+ channels, increasing the membrane potential (hyperpolarization) |
| Graded potentials | The magnitude of deviation form the resting membrane potential is proportional to the magnitude of the stimulus |
| Action potential | The membrane potential of a neuron the tis conducting an impulse, also known as nerve impulse |
| Absolute refractor period | Brief period during which a local area of a neurons membrane resists re stimulation and will not respond to a stimulus, no matter how strong |
| Relative refractory period | Time during which the membrane is depolarized and restoring the resting membrane potential, the few milliseconds after the absolute refractor person, will respond to ONLY a very strong stimulus |
| Electric synapses | The cells join dby gap junctions allow an action potential to simply contrite along postsynaptic membrane |
| Chemical synapses | Presynaptic cells release chemical transmitters across a tiny gap to the postsynpatical cell possibly inducing an action potential there |
| Synaptic knob | Tiny bulge at the end of a terminal branch of a presynaptic neurons axon that contains vesicles housing neurotransmitters |
| Synaptic cleft | Space between a synaptic knob and the plasma membrane of a postsynaptic neuron |
| Axodendrite | Axon signals postsynaptic dendrite, they are common |
| Axiomatic | Axon signals postsynaptic soma, they are common |
| Axoaxonic | Axon signals postsynaptic axon, may regulate action potentials of postsynaptic axon |
| Plasma | Membrane of a postsynaptic neuron, has protein molecules that serve s receptors for the neurotransmitters |
| Acetylcholine | Small molecule neurotransmitter, present at various locations, sometimes in an excitatory role; other times, inhibitory |
| Amines | Synthesized from amino acid molecules, found in various regions of the brain, affecting learning, emotions, motor control |
| Amino acids | The most common neurotransmitters of the CNS, in the PNS amino aids are stored in synaptic vesicles and used in neurotransmitters |
| Neuropeptides | Short strands of amino acids called polypeptides, they have regulatory effects in the digestive tract and act as neurotransmitters in the brain |
| Sensory neurons | Act as receptors to detect changes in the internal and external environment; relay information to integrator mechanisms in the CNS, |