Chapter 7 and 8 Word Scramble
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Question | Answer |
Which are the components of the Nervous System? | brain, spinal cord, cranial nerve branches, spinal nerve branches, ganglia, enteric plexuses, and sensory receptors |
What is the Central Nervous System? | Brain and Spinal Cord |
What is the Peripheral Nervous System? | Cranial Nerves, Spinal Nerves, Sensory & Afferent neurons which transmit nerve impulses from sensory receptors to the CNS, and Motor & Efferent neurons which transmit nerve impulses from the CNS to muscle and glands |
Nerve | a bundle of axons (plus associated connective tissue and blood vessels) located outside the brain and spinal cord. |
Ganglia | Small masses of nervous tissue, consisting primarily of neuron cell bodies that are located outside the brain and spinal cord |
Enteric Plexuses | Networks of neurons located in the walls of GI tract organs; help regulate digestive system activities |
Sensory Receptors | structures that monitor changes in the internal and external environment |
Sensory Afferent Neurons | Transmit sensory information |
Interneurons | receive and analyze data to provide perception, storing some of it and making decisions regarding appropriate behaviors |
Motor Efferent Neurons | respond to integration decisions by initiating actions in efferents including muscle fibers and glandular cells |
What type of neuron is most abundant? | Interneurons |
Afferent impulses travel from ______ to _____? | Receptors to CNS |
Efferent impulses travel from ______ to ______? | CNS to effectors |
What are the 2 divisions of the efferent portion of the autonomic nervous system? | Sympathetic and Parasympathetic Division |
Sympathetic Division | Fight or flight |
Parasympathetic Division | Rest and Digest |
Neurons | Bigger but fewer highly specialized cells, lost the ability to undergo mitotic division connect all region of the body to the nervous system |
Neuroglia | Smaller but more numerous support, nourish, protect neurons, continue to divide throughout an individuals lifetime |
Dendrites | short, tapering, unmyelinated, and highly branched processes that emerge from the cell body receiving or input portion of a neuron |
Soma (cell body) | contains the nucleus surrounded by cytoplasm that includes typical organelles |
Nissl bodies | rough er, high levels of protein synthesis |
Axon Hillock | beginning of the the axon |
Axon | long, thin cylindrical process that may be myelinated and transmits nerve impulses away from cell body |
Axon Terminal | nonmyelinated, fine line |
Synaptic end bulbs | tip of some axon terminals are bulbous |
Most axons are what? | Myelinated; surrounded by myelin sheath |
Synapse | Site of communication |
Presynaptic Neuron | Transmits nerve impulses toward the synapse |
Postsynaptic cell | is as postsynaptic neuron or a muscle cell or a gland cell that receives the signal |
Multipolar Neuron | Several dendrites and one axon, most neurons in the brain and spinal cord are of this type |
Bipolar Neurons | Have one main dendrite and one axon, these are located in the retina, inner ear, and olfactory are of the brain "special senses" |
Unipolar Neurons | Sensory neurons have just one process extending from he cell body; process is essentially an axon with dendrites at its peripheral end, 'most sensory' |
What cells produce myelin sheath around several adjacent axons of CNS neurons? | Oligodendrocytes |
Oligodendrocytes | have few processes and produce a myelin sheath, each Oligodendrocyte can myelinate parts of several axons |
What cells myelin sheath in the PNS | Schwann Cells |
What are star- shaped, and one of their functions is providing nutrients to neurons? | Astrocytes |
What cells protect CNS from disease by engulfing invading microbes? | Microglia cells |
What cells line ventricles of the brain and central canal of the spinal cord? | Ependymal cells |
Which type of axon is more numerous? | Unmyelinated |
What are the functions of myelin sheath? | Protect axon, electrically insulate fibers from one another, increase the speed of nerve impulse transmission |
What is Neurolemma? | Outer, nucleated cytoplasmic layer of Schwann Cell |
Where is neurolemma located? | PNS ONLY |
What structures are included in gray matter? | neuronal cell bodies, dendrites, unmyelinated axons, axon terminals, and neuroglia (all unmyelinated= gray color) |
What structures are included in white matter? | unmyelinated axons and myelinated axons (all myelinated= white color) |
Skeletal Muscle Tissue | Mutlinuclei, moves bones, striated, voluntary |
Cardiac Muscle Tissue | One nucleus, one muscle fiber, forms most of the wall of the heart, striated, some cells have autorhythmicity, involuntary |
Smooth Muscle Tissue | One nucleus, located in walls of hollow internal structures (arrector pili muscle) non striated, involuntary, some cells have autorhythmicity |
What type of muscle shows the striation and autorhythmicity? | Cardiac Muscle |
Functions of muscular tissue | producing body movement, stabilizing body position, storing and moving substances within body, producing heat |
Endomysium | Surrounds individual muscle fibers |
Perimysium | Surrounds fascicles (bundles of muscle fibers) |
Epimysium | outer, encircles the entire muscle belly (around each muscle) |
Tendon | bone to bone |
Sarcolemma | Plasma Membrane of muscle fiber |
T tubules | conduct signals, continuous with the sarcolemma, impulses signal for the release of Ca2+ from adjacent terminal cisternae |
Sarcoplasmic Reticulum | SR is an elaborate, smooth endoplasmic reticulum that surrounds each myofibril |
Terminal Cisterns | Form perpendicular cross channels, stores Ca2+ in a relaxed muscle fiber, release Ca2+ triggers muscle contraction |
Triad | T Tubule and the 2 terminal cisterns of the SR on either side of it form a triad |
Myofibrils | Are NOT fascicles, contractile elements, make up most of the muscle volume |
What proteins make up thick filaments? | Myosin |
What proteins make up thin filaments? | Actin, Troponin, Tropomyosin |
A Band | dark band, entire length of thick filaments, part of thin filament |
I Band | Light band, contains THIN filaments ONLY |
H Zone | In the center of each A Band, contains thick but NOT thin filaments |
M Line | Center of h zone |
Z- Disc | Coin- shaped sheet proteins (connections) that anchors the thin filaments and connects myofibrils to one another |
Which segment contains thick filaments only? | H Zone |
Which segment contains thin filaments only? | I Bnad |
What is the contractile unit of muscle? | Sarcomere |
During contraction, which segments are unchanged in length? | isometric contraction |
During contraction, which segments are shortened? | concentric isotonic contraction |
Isotonic Contraction | Tension remains almost constant while the muscle changes in length |
Concentric Isotonic Contraction | Tension overcomes the resistance and the muscle shortens |
Eccentric Isotonic Contraction | Tension slows the lengthening of the muscle so that the muscle lengthens as it contracts |
Isometric Contraction | Muscle develops tension but does not shorten b/c the tension is not great enough to exceed the resistance |
Muscle organization | Filaments, myofibrils, muscle fibers, fascicles, muscle |
Motor unit | Motor neuron & all the muscle fibers it supplies |
Neurotransmitter receptors are found where on the sarcolemma? | Motor end part of a muscle |
Step 1 of Muscle Excitation | Action potential (nerve impulse) reaches the synaptic end bulbs of a motor neuron |
Step 2 of Muscle Excitation | Triggers exocytosis of the synaptic vesicles |
Step 3 of Muscle Excitation | Released ACh diffuses across the synaptic cleft |
Step 4 of Muscle Excitation | ACh binds to ACH receptors, allow inflow of Na+, initiating a muscle action potential |
Step 5 of Muscle Excitation | Muscle action potential propagates along the sarcolemma through the T Tubule system to the SR |
Step 6 of Muscle Excitation | Triggers Ca2+ release from terminal cisternae |
Step 7 of Muscle Contraction | Ca2+ binds to troponin & causes: blocking action of tropomyosin to cease actin active binding sites to be exposed |
Step 8 of Muscle Contraction | Myosin heads attach to thin filaments at both ends of a sarcomere, and pulling thin filaments toward the M Line |
Step 9 of Muscle Contraction | As thin filaments slide inward & meet at the center of a sarcomere, the Z discs come close together, sarcomere closes |
Step 10 of Muscle Contraction | Hydrolysis of ATP powers this cycling process |
Step 11 of Muscle Contraction | Ca2+ is removed into the SR, tropomyosin blockage is restored and the muscle fiber relaxes |
Origin | Attachment of a muscle tendon to the stationary bone (not movable) |
Insertion | Attachment of a muscles tendon to the movable bone and skin |
Lever | Rigid bar that moves on a fulcrum or fixed point |
Effort | Force applied to a lever |
Load | Resistance moved by the effort |
Third class | (FEL) Effort applied between fulcrum and the load Most common levers in the body |
Prime Movers (Agonists) | Provide the major force for producing a specific movement |
Antagonists | Oppose or reverse a particular movement (one contracts and one releases) |
Synergists | work together, add force to a movement, reduce undesirable or unnecessary movement |
Bicep brachia and triceps brachia are what? | antagonist |
Sensation | conscious or subconscious of changes in the external or internal conditions of the body |
Somatic Senses | touch, pressure, vibration, warm, cold, pain, and proprioceptive sensations |
Special Senses | smell, taste, vision, hearing, equilibrium |
Exteroceptors | located at or near body surface, provide information about external environment, convey visual, smell, taste, touch, pressure, vibration, thermal, and pain sensations |
Interoceptors | in blood vessels, visceral organs, & nervous system, provide information about internal environment, impulses produced usually are not consciously perceived but occasionally may be felt as pain or pressure |
proprioceptors | located in muscles, tendons, joints, and inner ear. provide information about body position, muscle length and tension, position and motion of joints and equilibrium |
first-order neuron | carry signals from somatic receptors into the brain stem or spinal cord via cranial nerves or spinal nerves |
second-order neuron | carry signals from the spinal cord and brain stem to the thalamus, axons of second-order neurons decussate to the opposite side BEFORE ascending to the thalamus |
Third-order neuron | project from the thalamus to the primary somatosensory areas where conscious perception of sensations results |
Where do decussation of sensory pathways occur? | second-order neuron |
Does the decussation occur before or after the pathways reaches the thalamus? | before |
Upper motor neurons | axons descend into the medulla where most of the axons decussate and terminate in nuclei of cranial nerves or in the anterior gray horns of the spinal cord |
Lower motor neurons | axons innervate skeletal muscles, since each LMN receives and integrates excitatory and inhibitory inut from many presynaptic neurons |
tract | bundle of axons in white matter cns |
nuclei | clusters of neuronal cell bodies in white matter |
what 3 tracts belong to the director motor pathways? | lateral corticospinal tracts anterior corticospinal tracts corticobulbar tracts |
Corticobulbar tracts | some axons of UMNs extend to the midbrain where they form the corticobulbar tracts in right & left cerebral peduncles |
Function of corticobulbar tracts | control precise, voluntary movement of eyes, tongue, neck, chewing, facial expression, and speech |
Lateral corticospinal tracts | most axons of the UMNs decussate in the medulla in the right and left lateral white columns of the spinal cord |
Function of lateral corticospinal tracts | limbs, hand, and feet |
Anterior corticospinal tracts | the axons in the UMNs that didn't cross over in the medulla but descend on the same side in the right and left anterior white columns |
Indirect motor pathways | Involved in the coordination of movement Help control gross movements of proximal limbs and trunk |
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