Term
The subdivisions of the PNS are the 1. 2. 3. |
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Definition
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Term
| The 2 divisions of the autonomic nervous system are the _______ division and the _______ division |
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Definition
- Sympathetic
- Parasympathetic
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Term
True or False At a chemical synapse between 2 neurons, the neuron receiving the signal is called the presynaptic neuron, and the neuron sending the signal is called the postsynaptic neuron |
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Definition
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Term
Neurons in the PNS are always capable of repair while those in the CNS are not True or False. |
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Definition
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Term
Sensory (afferent) neurons carry sensory information from where to where? |
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Definition
From: Cranial & Spinal nerves To: Brain & Spinal Cord (CNS) or From: Lower level in the CNS To: Higher level in the CNS |
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Term
| Motor (efferent) neurons carry information from where to where? |
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Definition
From: Brain To: Spinal Cord or From: Out of the CNS To: Cranial & Spinal Nerves |
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Term
| Nervous tissue consists of what 2 types of cells? |
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Definition
- Neurons (Nerve Cells)
- Neuroglia (Glial Cells)
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Term
| Slow and fast axonal transort are systems for conveying materials to and from the ____ ______ & axon ________ |
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Definition
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Term
| What are the basic functions of glial cells? |
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Definition
- Support
- Nurture
- Protect
NEURONS & MAINTAIN THE INTERSTITIAL FLUID |
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Term
What are the 4 types of glial cells in the CNS? |
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Definition
- Astrocytes
- Oligodendrocytes
- Microglia
- Ependymal
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Term
| What are the 2 types of glial cells in the PNS? |
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Definition
- Schwann cells
- Satellite cells
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Term
| What are the 2 types of glial cells that produce myelin sheaths? |
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Definition
- oligodendrocytes in the CNS
- schwann cells in the PNS
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Term
| Neurons communicate with one another using two potentials, what are they? |
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Definition
- Graded Potentials
- Action Potentials
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Term
| A typical value for the resting membrane potential is ______ mV |
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Definition
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Term
During the 1st part of the refractory period, another impulse cannot be generated at all. What is this period called? |
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Definition
| Absolute Refractory period |
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Term
| A little later into the refractory period, impulse can be triggered only by a larger-than-normal stimulus. This period is called ______ |
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Definition
| Relative Refractory PEriod |
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Term
What is saltatory conduction? Is it faster than continuous conductioN? |
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Definition
Saltatory is when nerve impulse leaps from one node of Ranvier to the next along a myelinated axon. It is faster than continuous conduction |
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Term
| What are the 2 types of synapse? |
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Definition
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Term
| Depolarization is the change from _____mV to _____ mV |
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Definition
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Term
| Repolarization is the reversal from _______ mV to _________ mV |
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Definition
from: +30 mV back to: -70 mV |
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Term
The electrical signals produced by neurons and muscle fibers rely on 4 kinds of ion channels: 1. 2. 3. 4. |
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Definition
- Leakage channels
- Voltage-gated channels
- Ligand-gated channels
- Mechanical channels
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Term
| When the cell exhibits a membrane potential, it is polarized. Why is a cell polarized? |
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Definition
| Because the charges are not equal on both side. |
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Term
| How does a graded potential arise? |
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Definition
| When a stimulus causes ligand-gated or mechanically gated channels to open or close in an exciatble cell's plasma membrane. |
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Term
| When a graded potential makes the membrane more polarized (more negative), it is called |
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Definition
| hyperpolarizing graded potential |
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Term
| When a graded potential makes the membrane more positive (less negative), it is called |
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Definition
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Term
| The amplitutde of a graded potential varies, depending on what? |
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Definition
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Term
| What is an action potential? |
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Definition
| A series of rapidly occuring events that decrease and eventually reverse membrane potential (depolarization) then restore membrane potential of a cell to its resting stage |
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Term
Action potential arises from _______ (structure of a neuron) Graded potential arises from _______ (structure of a neuron) |
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Definition
- trigger zones and propagate along the axon
- dendrites & cell body
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Term
| What types of channels occur in action potential? graded potential? |
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Definition
Action potential: voltaged gated channels Graded potential: Ligand-gated or mechannically gated ion channels |
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Term
What is the difference, in term of amplitude, between action potential & graded potential? |
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Definition
Action: amplitude is constant (all-or-none principle) Graded: amplitude depends upon strength of stimulus |
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Term
True or False. Axon with larger diameters conduct impulses at a slower speeds than do axon with smaller diameter |
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Definition
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Term
How do we differentiate a light touch from a firmer touch? Hint: encoding stimulus intensity |
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Definition
The frequency of impulses & the number of sensory neurons activated Firm pressure generates impulses at higher frequency stimulates more neurons than does a light touch |
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Term
True or False. A chemical synapse produces two ways information transfer BONUS: from where to where? |
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Definition
False. ONE WAY ONLY BONUS: from presynaptic to postsynaptic neuron |
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Term
| In chemical synapses, how does neurotransmitter get released? |
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Definition
Action potential reaches end bulb and voltaged gated Ca+ 2 channels open. The Ca+ 2 flows inward triggering release of neurotransmitter |
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Term
| Neurotransmitter crosses the synaptic cleft & bind to the _______ receptors |
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Definition
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Term
Excitatory Potentials (EPSP) is a result from the opening of ligand-gated _____ channels while Inhibitory Potentials (IPSP) is a result from the opening of ligand-gated ___ or ___ channels |
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Definition
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Term
EPSP causes postsynaptic cell to become ______ while IPSP causes postsynaptic cell to become _______ BONUS: which one would move the membrane potential further from threshold? |
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Definition
- depolarized
- hyperpolarized
BONUS: IPSP |
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Term
What are the 3 ways to remove neutrotransmitter from the synaptic cleft? hint: D.U.E |
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Definition
- Diffusion
- Uptakeby neurons or glia cells
- Enzymatic degradation
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Term
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Definition
| Spatial summation is when neurotransmitters are released from several end bulbes onto ONE neuron |
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Term
| Define temporal summation |
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Definition
| when neurotransmitters are released from 2 ore more firings of the sameend bulb in rapid succession onto a 2nd neuron |
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Term
What are the 3 possible responses from temporal summation? 1. 2. 3. |
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Definition
- small EPSP occurs
- IPSP occurs
- membrane potential of at least -55 mV
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Term
| Strychnine poisoning is what kind of poisoning? |
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Definition
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Term
How does strychnine poisoning work to kill someone? note: inhibitory neurons in the spinal cord are called Renshaw. Renshaw cells release the neurotransmitter glycine at inhibitory synapses with somatic motor neurons |
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Definition
- inhibitory neurons are blocked because strychnine binds to and block the glycine receptors in the spinal cord
- when diaphragm contracts & remain contracted, breathing cannot occur
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Term
| What is neurotransmitter effects? |
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Definition
| enhance neurotransmitters when you don't have enough |
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Term
How can you modified neurotransmitter effect? 1. 2. 3. 4. |
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Definition
- SYNTHESIS can be inhibited or stimulated
- REMOVAL can be stimulated or blocked
- RELEASE can be blocked or enhanced
- RECEPTORS can be blocked or activated
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Term
Anything that enhances a transmitter effects are called _________ Anything that blocks the action of a neurotransmitter is called _______ hint: characters in a story |
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Definition
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Term
What are the names of the small molecule transmitters listed in the book? 1. 2. 3. 4. 5. 6. |
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Definition
- Acetylcholine (ACh)
- Amino Acids
- ATP & other purines
- Biogenic Amines
- Gases (Nitric oxide)
- Neuropeptides
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Term
| What is the most common excitatory (depolarization) neurotransmitters in the brain? |
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Definition
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Term
| What is the most common inhibitory neurotransmitters in the brain? |
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Definition
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Term
| What is the most common inhibitory neurotransmitters in the spinal cord? |
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Definition
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Term
Biogenic Amines are modified amino acids. Some biogenic amines are: 1. 2. 3. |
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Definition
- norepinephrine
- dopamine
- serotonin
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Term
| Nitric oxide is first recognized as _______ that helps lower blood vessels |
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Definition
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Term
What are some neuro transmitters that are only released in CNS; blocks the effect of substance P 1. 2. 3. bonus: what is the function of substance P |
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Definition
- enkephalins
- endorphins
- dynorphins
bonus: substance P enhances our perception of pain |
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Term
| What are some important characters that neuronal circuits are involved in? |
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Definition
- breathing
- short-term memory
- waking up
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Term
| Neural circuits have 5 types. What are they? |
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Definition
- simple series
- divergin
- convergin
- reverberating
- parallel after discharge
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Term
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Definition
| The birth of new neurons from undifferentiated stem cells |
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Term
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Definition
| changes in the physiology of the brain |
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Term
| Why can PNS repair damaged dendrites or axon when CNS cannot? |
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Definition
B/c PNS has neurolemma. CNS is inhibited by neuglial cells that hog all nutrients. Also, CNS has no growth factor, neurolemmas, and rapid formation of scar tissue |
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Term
| Nissl bodies break up into fine granular masses after 24 to 48 hours of injury, this process is called? |
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Definition
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Term
Wallerian degeneration is the breakdown of axon & myelin sheath distal to injury. True or False? |
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Definition
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Term
| What is the second most common neurological disorder? |
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Definition
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Term
| What is multiple sclerosis (MS)? |
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Definition
| Autoimmune disorder causing destruction of myelin sheaths in CNS |
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Term
| What are somecauses of epilepsy? |
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Definition
- brain damage at birth
- metabolic disturbances
- infections
- toxins
- vascular disturbances
- head injuries
- tumors
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