Motor Control, 2010 Word Scramble
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Question | Answer |
Human motor control | Study of how the body moves or is stabilized in space; movement and posture; basis for nearly all of our interactions with the environment and everything that we do |
Golgi, Camillo | Discovered neuron (accidentally); said all neurons are interconnected (wrong) |
Cajal, Santiago y | Neuron Doctrine; identified neurons as separate identities |
Neuron Doctrine | Cajal; identifies neurons as the most functional and structural units of the nervous system |
Broca, Paul | Broca's area (speech); expressive aphasia |
Expressive aphasia | Lack of ability to express yourself through speech |
Wernicke, Karl | Wernicke's area; receptive aphasia |
Receptive aphasia | Inability to understand spoken words |
Fritsch, Gustav and Hitzig, Edward | "Motor centers"; contralateral control (left side controls right, etc.); electrically stimulated dogs' brains |
Brodmann, Korbinian | Cytoarchitechtonics; 53 different functional areas of cerebral cortex based on nerve structure |
Sherrington, Sir Charles | Father of modern motor control; spinal cord is the "final common pathway"; coined "synapse" and "proprioception" |
Simple reaction time test | "RT test"; reaction time, from fastest to slowest: kinesthetic, auditory, visual |
Kinematic data | Received using motion analysis system; position, velocity, acceleration |
Infrared corneal reflection (I-RCR) | Eye movements |
Electromyography (EMG) | Balance and posture; measures electric activity of a contracting muscle |
Physiological techniques (goal) | Determine the relationship between a particular structure or area of the brain and its role in the control of movement |
How to record brain activity (humans) | fMRI, EEG |
How to record brain activity (animals) | Intra-Cortical Microstimulation (ICMS) |
Functional Magnetic Resonance Imaging | fMRI; localizes neural activity by examining regional cerebral blood flow |
Electroencephalography | EEG; measure electrical activity of brain on scalp; many trials have to be taken and averaged |
Intra-Cortical Microstimulation (ICMS) | Gain access to brain area of interest, insert electrode into brain to record electrical activity from neurons while animal performs task; used as a guide in brain surgery |
2 approaches to determine the relation of a brain area to a control of movement | Record brain correlates of movement; stimulate/interfere with brain functions (observe deficits) |
How to interfere with brain function (humans) | Transcranial magnetic stimulation: over part of brain (messes with brain), looks at temporal and spatial resolution; lesion studies (isolate groups) |
How to interfere with brain function (animals) | Temporary or permanent lesions |
Disadvantages of lesion studies | Lesion extent (hard to find exact same); rest of brain adapts (works around handicap) |
2 systems necessary for movement | Muscular and nervous |
Muscular system | Creates movement via contraction/relaxation of muscle fibers; "motors" |
Nervous system | Dictates muscle activity; "controllers"; CNS and PNS; all neurons and glia that are (CNS) or are not (PNS) entirely contained within the brain and/or spinal cord |
Organization of the nervous system | Hierarchical: cord is "simple" compared to brain |
Alphamotors | 31; neurons; only way to get a muscle to contract |
Nucleus | Genetic center of the cell |
Dendrites | Receive information from other neurons |
Cell body | "Soma"; sums information from dendrites/other terminals |
Axon | Transmits information from the cell body |
Presynaptic Terminal | Attaches to other neurons to relay information |
Neurons (classification) | Sensory, interneurons, motor |
Sensory neurons | Deliver info to CNS from endings on the surface of the body and within muscles and tendons; give info about the body relative to environment; afferent |
Afferent | Carrying information TO the CNS; sensory information |
Interneurons | Bulk of CNS; perform processing functions (memory, planning, etc.); connect multiple neurons with (multiple) other neurons |
(Alpha) Motor neurons | Neurons connected to muscle cells which cause muscle contractions; necessary to perform any voluntary movement; efferent |
Efferent | Carrying info AWAY FROM the CNS |
Glial cells | 6; "glue"; insulate, support, and nourish neighboring neurons; outnumber neurons 10:1 |
Key glial cells | Oligodendrocytes, Schwann cells |
Myelin | Fatty substance wrapped around neuron (insulates); covers the axons of neurons; speed up transmission of neural impulses |
Action potentials (AP) | Electrical signals carried by neurons and muscle fibers; created by shift in membrane ions (K+, Na+) and is therefore measured as a change in voltage |
4 steps of neuromuscular communication | Resting membrane potential, depolarization, repolarization/hyperpolarization, restoration of RMP |
Resting membrane potential | Ion concentrations are stable, with the net charge ~ -70mV |
Depolarization | Ions (Na+) move inside the cell, making the voltage more positive. When the net charge reaches threshold (~ -55mV), an AP is imminent |
Threshold (AP) | ~ -55mV |
"All or none" (AP) | Need threshold: more (same reaction as threshold) or less (nothing will happen) |
Repolarization/hyperpolarization | Ions shift back towards resting potential (-70mV) via K+ channels, but overcompensate by spamming cell membrane (greater than -70mV) |
Restoration of RMP | Membrane slowly return to baseline level of -70mV |
"Action potentials are propagated down the axon." | The part of the axon behind part A is preparing to do what A just finished |
Principle of Dynamic Polarization | Cajal; one-way flow of AP |
Cell-to-cell communication occurs via... | Synapses |
Cell-to-cell communication | AP depolarizes the axon terminal, opening voltage-gated Ca2+ channels for Ca2+ to enter the cell, triggering exocytosis of synaptic vesicle contents. The neurotransmitter diffuses across the synaptic cleft to bind with receptors on the postsynaptic cell. |
Acetylcholine (ACh) | Is released to bind to receptor on muscle membrane; results in electrical stimulation of muscle (makes it contract) |
Neuromuscular junction problems | Botulism (prevent ACh exocytosis); curare (blocks ACh receptors); black widow spider venom (inhibits vesicle recycling) |
3 different sensory receptors for each of the sense have 3 things in common: | Respond to a physical stimulus, convert stimulus to APs, give information to CNS |
Sensation v. Perception | Sometimes a delay between sense and knowledge of it (we don't live life in "real time") |
Light enters eye... | And is focused by lens onto retina. |
Fovea | Detail and color at back of eye |
Electrical signals from photoreceptors | Are transmitted to brain to allow for perception |
How the lens focuses light rays on the retina | Refracts them |
If an object moves closer to the eye, lens must | Change shape to keep focus |
Accommodation | Changing lens shape |
Flatten lens | Relax ciliary muscles; far objects |
Rounded lens | Contract ciliary muscles; near objects |
Hyperopia | Farsightedness; eyeball is too short, focal point behind retina; fixed by convex lenses (refracts light inward before entering eye) |
Myopia | Nearsightedness; eyeball is too long, focal point in front of retina; fixed by concave lenses (refracts light outward before entering eye) |
Photoreceptors | Light travels through retinal cells, reflects off back layer of eyeball, then stimulates photoreceptors; converts light energy to electrical signals at the retina; rearmost layer cells at retina |
Photoreceptors (2 types) | Rods, cones |
Rod | Mostly in peripheral retina; function well in low light; monochromatic; simpler |
Cone | Most abundant at fovea; color vision; color pair; doesn't work well at night |
Optic nerve | Second cranial nerve; ganglion cells |
Optic disk | Optic nerve and blood supply to eye go through; no photoreceptors (creates blind spot) |
Optic chiasm | Where ganglion cells from the nasal hemiretinas cross |
Ganglion cells from the temporal hemiretinas stay or move? | Stay on the same side |
Lateral geniculate body | Nerve takes info to thalamus (occipital lobe: primary visual cortex (V1)) |
Focal distance | Distance between lens and retina |
V1 projects to 2 streams | Ventral and dorsal |
Ventral stream | Temporal lobe; "what" |
Dorsal stream | Parietal love; "where" |
Grandmother neurons | Face recognition neurons |
Visual neglect | Stroke affecting right parietal cortex (dorsal stream); lose concept of "left" |
Prosopagnosia | Stroke affecting ventral stream; difficulty recognizing faces |
Muscles moving eyes | 6 extraocular muscles (3 pairs) |
Agonist | Produces movement |
Antagonist | Resists movement |
Superior rectus/inferior rectus | Located above/below eye; elevates/depresses (looks above or below eye-level) |
Lateral rectus/medial rectus | Located on either side of eye; abduction/adduction (turns eye away from/to midline) |
Superior oblique/inferior oblique | Located above/below eye; starts at same place as rectus, but passes through a pulley; intorsion/extorsion (rotates eye); synergists (help the other muscles) |
3 cranial nerves controlling extraocular muscles | Oculomotor, trochlear, abducens |
Oculomotor nerve | Superior rectus; medial rectus, inferior rectus, inferior oblique |
Trochlear nerve | Superior oblique (pulley supporting superior oblique is called "trochlea") |
Abducens | Lateral rectus (lateral rectus abducts) |
Diplopia | Double vision |
Eye movements | Saccades, smooth pursuit, vergence, vestibuloocular reflex, optokinetic nystagmus |
Saccades | Very fast; quickly bring new areas of interest onto fovea; REM sleep; do NOT need to see to produce |
Smooth pursuit | Track moving objects; maintain image on fovea; image NECESSARY to produce; match velocity of object to velocity of eye |
Vergence | Eliminates retinal disparity |
Optokinetic nystagmus | Shakes eye; nystagmus: driver's ed (alcohol) |
Superior colliculus | Eye movements are controlled in the brain stem; affected by several cortical and subcortical sites |
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