A) Astrocytes
B) Schwann cells
C) Oligodendrocytes
D) Radial glial cells
E) Microglial cells
G) A) and D)
Correct Answer
verified
Correct Answer
verified
A) ATP
B) connexon
C) AQP4
D) PMP22
E) ACh
G) B) and C)
Correct Answer
verified
Correct Answer
verified
A) uptake of potassium from clefts.
B) movement of calcium through glial cell networks.
C) hyperpolarization of nearby neurons.
D) uptake of sodium from clefts.
E) release of potassium from the glial cell.
G) A) and C)
Correct Answer
verified
Correct Answer
verified
A) Certain glial cells grow too large.
B) Certain glial cells can migrate throughout the CNS.
C) Certain glial cells are not susceptible to programmed cell death.
D) Certain glial cells can divide.
E) Certain glial cells mutate more easily.
G) A) and D)
Correct Answer
verified
Correct Answer
verified
A) also release glutamate, exacerbating the effect of brain injury.
B) release calcium, exacerbating the effect of the brain injury.
C) release debris, increasing immune response in the brain.
D) fire action potentials, causing deleterious signaling through the brain region.
E) die, increasing the volume of the extracellular space.
G) D) and E)
Correct Answer
verified
Correct Answer
verified
A) water from the extracellular space into the glial cells.
B) water from the glial cells into the extracellular space.
C) sodium between glial cells and the extracellular space.
D) water between glial cells and other glial cells.
E) sodium between glial cells.
G) B) and D)
Correct Answer
verified
Correct Answer
verified
A) They produce astrocytes in the adult CNS.
B) They regulate cerebrospinal fluid.
C) They form the myelin sheath around axons within the central nervous system.
D) They move to sites of injury within the brain.
E) They form the myelin sheath around axons within the peripheral nervous system.
G) A) and D)
Correct Answer
verified
C
Correct Answer
verified
A) Glial cells are smaller than neurons and have fewer ion channels.
B) Glial cells have lower resting potentials than neurons.
C) Neurons are myelinated, which contributes to the speed of their return to resting potential.
D) Potassium spreads through networks of glial cells, which slows the return to resting potential.
E) Calcium waves through glial networks prevent potassium from reentering the glial cells.
G) A) and E)
Correct Answer
verified
Correct Answer
verified
A) Glial cells aid in increasing capillary blood flow through their interaction with neurons and capillaries during periods of high activation.
B) There is an increase in the flow of oxygen ions along the axons of active neurons.
C) Glial cells allow more molecules into the intracellular space during periods of high activation.
D) Glial cells transport oxygen and other ions/molecules from blood capillaries directly to neurons during periods of high activation.
E) Oxygen ion channels in glial cells near blood capillaries become more permeable during periods of high activation, allowing more oxygen ions into glial networks.
G) A) and D)
Correct Answer
verified
Correct Answer
verified
Correct Answer
verified
Glial cells greatly outnumber ...View Answer
Correct Answer
verified
View Answer
A) Long; short
B) Microglial; Schwann
C) Radial; fibrous
D) Fibrous; protoplasmic
E) Protoplasmic; radial
G) D) and E)
Correct Answer
verified
Correct Answer
verified
A) Oligodendrocytes
B) Astrocytes
C) Radial glial cells
D) Microglial cells
E) Schwann cells
G) B) and D)
Correct Answer
verified
Correct Answer
verified
Correct Answer
verified
Spatial buffering is the process by whic...View Answer
Correct Answer
verified
View Answer
A) stop the movement of certain molecules from the bloodstream into the brain.
B) protect the bloodstream from neuronal debris.
C) stop neurotransmitters from passing into the bloodstream.
D) prohibit the movement of any molecules from the bloodstream into the brain.
E) protect endothelial cells from damage caused by neuronal activity.
G) C) and D)
Correct Answer
verified
Correct Answer
verified
Correct Answer
verified
Astrocytes and oligodendrocytes are both found in the CNS. Astrocytes help form the blood-brain barrier; oligodendrocytes form the myelin sheath around axons.
Correct Answer
verified
Correct Answer
verified
Glial cells take longer to reach resting potential following depolarization as potassium ions spread through the glial networks.
Correct Answer
verified
Correct Answer
verified
Glia and neurons are thought t...View Answer
Correct Answer
verified
View Answer
A) cerebrospinal fluid.
B) select neurotransmitters.
C) microglia cells.
D) myelin sheaths.
E) potassium pumps.
G) A) and C)
Correct Answer
verified
Correct Answer
verified
A) increasing the rate of neurotransmitter release.
B) bridging activity of neurons with other neurons.
C) decreasing the reuptake of certain neurotransmitters.
D) reducing the resting potential of neurons.
E) increasing flow of cerebrospinal fluid throughout the CNS.
G) C) and D)
Correct Answer
verified
Correct Answer
verified
A) depolarized, and more depolarized than the neurons.
B) depolarized, but less depolarized than the neurons.
C) completely unaffected by external potassium.
D) hyperpolarized, and more hyperpolarized than the neurons.
E) hyperpolarized, but less hyperpolarized than the neurons.
G) C) and D)
Correct Answer
verified
Correct Answer
verified
Showing 1 - 20 of 57
Related Exams