Ch 4. The Structure and Function of the Plasma Membrane
Which of the following statements is FALSE about plasma membrane structure?
The membrane is based on a lipid bilayer.
The polar groups
on membrane lipids are directed toward the aqueous
environment.
The hydrophobic groups on membrane lipids are
directed toward one another.
The membrane contains
proteins.
The membrane contains a double layer of proteins.
The membrane contains a double layer of proteins.
Functions of cell membranes include all but which one of the following?
Determining what can enter or leave a cell.
Providing
different compartments within the cell that may carry on different
activities.
Interacting with other cells.
Responding to
stimuli.
Protecting the cell from damage.
Protecting the cell from damage.
Signal transduction:
converts one type of energy to another.
absorbs energy from
sunlight and converts it into chemical energy.
involves the
response of a cell to external stimuli, such as specific molecules or
light.
is mediated by membrane carbohydrates.
has little to
no effect on the behavior of a cell.
involves the response of a cell to external stimuli, such as specific molecules or light.
Which of the following is NOT a function of membranes?
transporting solutes
scaffold for biochemical
activities
energy transduction
signal transition
signal transduction
signal transition
What evidence convinced Overton that membranes were composed of lipids?
He could see the lipids in the microscope.
Membranes were
destroyed by enzymes that degraded lipids.
He found that more
lipid-soluble solutes entered root hair cells faster than polar
solutes.
Membranes dissolved in gasoline.
Membranes did not
dissolve in water.
He found that more lipid-soluble solutes entered root hair cells faster than polar solutes.
Gorter and Grendel extracted lipids from human red blood cells. They
calculated the total surface area of these red blood cells and found
it to be 36 µ2. Based on their findings, how much surface
area should these lipids cover once they were spread across the
surface of water?
72 µ2
36 µ2
18 µ2
144 µ2
30 µ2
72 µ2
What evidence suggested to cell physiologists that there had to be
more to the structure of the cell membrane than just a lipid bilayer?
Lipid solubility was not the only factor to determine whether a
substance could penetrate the plasma membrane.
Cell membranes
were harder than lipid bilayers.
The surface tensions of various
cell membranes were calculated to be much lower than those of pure
lipid bilayers.
Cell membranes were more fluid than lipid
bilayers.
The lipid solubility and surface tensions of natural
cell membranes differed significantly from those same properties of
lipid bilayers.
The lipid solubility and surface tensions of natural cell membranes differed significantly from those same properties of lipid bilayers.
What was determined to be a possible explanation for the differences
between natural cell membranes and lipid bilayers?
the presence of nucleic acids in the membrane
the presence
of proteins in the membrane
the presence of carbohydrates in the
membrane
the higher temperature of natural cell
membranes
the lipid content of the natural cell membranes as
compared to that of lipid bilayers
the presence of proteins in the membrane
MOST functions of cell membranes are carried out by:
lipids.
phospholipids.
proteins.
cholesterol.
liposomes.
proteins.
Which of the following statements is FALSE regarding liposomes?
They are very useful in membrane research.
They form
spontaneously when a small amount of phosphatidylcholine is dispersed
in an aqueous solution.
They are fluid-filled spherical
vesicles.
They can be used to deliver drugs within the
body.
They are normally found within the bloodstream of eukaryotes.
They are normally found within the bloodstream of eukaryotes.
Which of the following statements is TRUE regarding phospholipids?
They are amphipathic.
They possess a hydrophobic head group
composed of fatty acids.
They possess two charged hydrophilic
phosphate groups.
They all include at least one saturated omega-3
fatty acid.
They all possess a positively charged amino group.
They are amphipathic.
Carbohydrates found on the plasma membrane of the red blood cell:
do not determine the blood type of the person.
are
determined by the dietary preferences of individuals.
may be
related to certain disease conditions.
are added to membrane
lipids by mitochondria or chloroplasts.
are not immunogenic.
may be related to certain disease conditions.
The ratio of lipids to proteins in a membrane:
is about 50% lipid and 50% protein.
varies considerably
depending upon the type of cell and membrane, the organism, and the
function of the membrane.
always indicates more lipid in the
membrane than protein.
always indicates more protein in the
membrane than lipid.
reveals more lipid in the mitochondrial
membrane than in the plasma membrane.
varies considerably depending upon the type of cell and membrane, the organism, and the function of the membrane.
Membrane carbohydrates:
comprise about 90% of the molecules in the membrane.
can be
covalently linked to membrane proteins or to membrane lipids.
are
found on the inner membrane surface where they interact with cellular
organelles.
are removed from membranes in the process of
glycosylation.
are only present in human red blood cells.
can be covalently linked to membrane proteins or to membrane lipids.
What are the building blocks of a phosphoglyceride, specifically
phosphatidic acid?
glycerol + 2 phosphate groups + 1 fatty acid
glycerol + 1
phosphate group + 2 fatty acids
glycerol + 1 phosphate
group
glycerol + 3 fatty acids
glycerol + 1 phosphate group
+ 3 fatty acids
glycerol + 1 phosphate group + 2 fatty acids
Why did liposomes not work against diseases as hoped when they were
first tried?
They were degraded in the bloodstream.
Immune system
phagocytes removed them from the bloodstream before they could exert
an effect.
They leaked before getting to their target.
They
were targeted incorrectly.
They expanded osmotically and lysed
before reaching their target.
Immune system phagocytes removed them from the bloodstream before they could exert an effect.
How are the new "stealth liposomes" protected from immune
system phagocytes?
They are kept cold before use.
They are coated with
carbohydrates.
They are given a synthetic polymer coating that
protects them from immune destruction.
They are loaded with
radioactive isotopes.
They are colored red.
They are given a synthetic polymer coating that protects them from immune destruction.
Which of the following statements about membrane proteins is FALSE?
Lipid-anchored proteins are attached to lipids that are situated
within the bilayer.
Peripheral proteins provide about 60% of all
current drug targets.
Integral proteins have domains that
protrude from both the extracellular and the cytoplasmic sides of the
membrane.
Integral proteins comprise 25-30% of all encoded
proteins.
Peripheral proteins are associated with the surface of
a membrane by noncovalent bonds.
Peripheral proteins provide about 60% of all current drug
targets.
Integral proteins have domains that protrude from both
the extracellular and the cytoplasmic sides of the membrane.
Integral membrane proteins are difficult to isolate in a soluble form because:
they are generally denatured by the nonionic (uncharged)
detergents often used to remove them from the membrane.
they
possess hydrophobic transmembrane domains.
they are not
amphipathic.
they are too small.
they are composed of more
than one subunit.
they possess hydrophobic transmembrane domains.
Which one of the following statements about peripheral membrane
proteins is FALSE?
They can either attach or detach from the membrane as
needed.
They provide mechanical support for the
membrane.
They may function as enzymes.
They have domains
that protrude from both the extracellular and the cytoplasmic sides of
the membrane.
They may function as an anchor for integral
membrane proteins.
They have domains that protrude from both the extracellular and the cytoplasmic sides of the membrane.
Functions of integral proteins include all but which one of the following?
acting as channels through which substances can pass through the
membrane
transporting substances through the
membrane
binding to specific ligands that induce a cellular
response
interacting directly with cellular DNA
transferring
electrons during photosynthesis or respiration
interacting directly with cellular DNA
Which one of the following statements is NOT true of nitroxide groups?
They contain an unpaired electron that can be monitored by
electron paramagnetic resonance (EPR) spectroscopy.
They can be
introduced into the structure of a protein.
They were used to
discover the conformational changes that occur in a membrane channel
in response to pH changes.
They are used to develop a hydropathy
plot that measures the hydrophobicity of amino acids.
They are
sensitive to the distance that separates them.
They are used to develop a hydropathy plot that measures the hydrophobicity of amino acids.
Which of the following statements is NOT true of the freeze-fracture
replication technique?
Tissue is frozen solid and then struck with a knife blade, which
fractures the block into two pieces.
The fracture plane often
follows a path between the two leaflets of the lipid
bilayer.
Once membranes are split by the fracturing, metals are
deposited on their exposed surfaces to form a replica, which can be
viewed in the electron microscope.
Most of the
membrane-associated particles visualized by this technique are
peripheral membrane proteins
This technique allows investigation
of the microheterogeneity of the membrane.
Most of the membrane-associated particles visualized by this technique are peripheral membrane proteins
On average, how many amino acids engaged in predominantly hydrophobic
a- helices does it take to cross the hydrophobic part of the membrane?
about 10 amino acids
about 20 amino acids
at least 40
amino acids
about 2 – 3 amino acids
None of these are correct.
about 20 amino acids
Saturated fatty acids:
have crooked chains where carbon atoms are bonded to one
another.
are likely to pack together loosely at low
temperature.
have relatively low transition
temperatures.
have straight fatty acyl chains.
typically
have lower melting points
have straight fatty acyl chains.
Lipid rafts:
are easily seen in living cells, but are difficult to re-create
in the lab.
may repel some carbohydrates, but attract
others.
are thought to be patches of cholesterol and
sphingolipids that tend to float within the more fluid environment of
phosphoglycerides.
are more disordered than the surrounding
phosphoglycerides.
can be used to deliver certain medications.
are thought to be patches of cholesterol and sphingolipids that tend to float within the more fluid environment of phosphoglycerides.
Membrane fluidity can be increased by all of the following mechanisms EXCEPT:
desaturation of fatty acid chains.
the presence of two
unsaturated fatty acid chains in a single phospholipid
molecule.
reshuffling of fatty acid chains between glycerol
backbones to increase the number of double bonds in the fatty acid
chains of membrane phospholipids.
raising the melting temperature
of the lipid bilayer fatty acids.
forming double bonds between
carbon atoms that comprise the fatty acid chain.
raising the melting temperature of the lipid bilayer fatty acids.
Ankyrin and spectrin are peripheral membrane proteins that:
may cause muscular dystrophy in red blood cells when
mutated.
play no role in the development of hemolytic
anemias.
play a major role in determining the biconcave shape of
the erythrocyte.
form a supportive fibrillar skeleton linked by
strong covalent bonds.
facilitate movement of membrane proteins.
play a major role in determining the biconcave shape of the erythrocyte.
The major drawback of using fluorescence recovery after
photobleaching (FRAP) to follow the movements of molecules in the
membranes of living cells is:
it can only be used to follow the average movements of a
relatively large number of molecules over a relatively large
distance.
it cannot be used to determine the rate of
diffusion.
it does not allows an accurate determination of the
percentage of labeled molecules that are free to diffuse.
it
requires an electron microscope.
it can cause blindness in the researcher.
it can only be used to follow the average movements of a relatively large number of molecules over a relatively large distance.
The plasma membrane of the human erythrocyte is the MOST studied and
BEST understood of all the diverse types of membrane because:
red blood cells are expensive to obtain and present as a low
abundance cell within blood.
it is easily obtained by hemolysis
of red blood cells.
red blood cells are abundant in lymphatic
fluid as well.
a lack of antigenic variation makes all studies
uniform in scope.
red blood cell nucleus permits DNA studies to
take place.
it is easily obtained by hemolysis of red blood cells.
Individuals that lack glycophorin A in their red blood cell membranes:
typically do not live past infancy.
may be protected from
the protozoan that causes malaria.
must be blood type
O.
have positively-charged cells.
will react poorly to
repeated transfusions of type B blood.
may be protected from the protozoan that causes malaria.
Movement of membrane proteins may be restricted by all of the
following EXCEPT:
a high density of neighboring proteins embedded in the
membrane.
interactions with the underlying "membrane
skeleton."
peripheral proteins situated on the cytoplasmic
side of the membrane.
increased temperature.
interaction of
integral membrane proteins with extracellular materials..
increased temperature.
In the cell fusion experiments of Larry Frye and Michael Edidin of
Johns Hopkins University,:
fluorescent dyes were covalently linked to antibodies for
membrane proteins.
cells from mice and from humans were fused to
each other.
it was shown that membrane proteins could move within
the plane of the membrane.
indicated that the mobility of
membrane proteins was decreased at lower temperatures.
All of the
choices are correct.
All of the choices are correct.
Which of these processes REQUIRES input of energy to move materials
across a membrane?
Active transport that moves substances against a concentration
gradient.
Simple diffusion of glucose through the lipid
bilayer.
Diffusion that is facilitated by a protein
transporter.
Simple diffusion through an aqueous, protein-lined
channel.
Diffusion of chloride ions through the lipid layer.
Active transport that moves substances against a concentration gradient.
The substance a-bungarotoxin possesses all of the characteristics
EXCEPT that:
it causes paralysis.
it is a component of snake
venom.
it binds to nicotinic acetylcholine receptors.
it was
used to measure the amount of the acetylcholine receptor purified
using affinity chromatography.
it binds to dopaminergic receptors.
it binds to dopaminergic receptors.
Aquaporins:
can be regulated by the hormone vasopressin.
prevent the
passage of water through the membrane.
are dependent upon energy
from ATP.
are lipid-anchored membrane proteins.
are only
present in bacterial cells.
can be regulated by the hormone vasopressin.
Insulin:
is secreted when the level of blood glucose is
low.
stimulates the release of glucose from the cells lining the
digestive tract.
moves GLUT4 glucose transporters to the surface
of the cell.
phosphorylates sugars after they enter the
cytoplasm.
causes the pancreas to release glucose into the bloodstream.
moves GLUT4 glucose transporters to the surface of the cell.
A symport:
involves proteins called exchangers.
is the process used by
Na+/K+ ATPase.
is used to move
Na+ and glucose together into the epithelial cells of the
intestine.
maintains proper pH by coupling movement of
Na+ and H+ ions.
moves two transported
molecules in opposite directions.
is used to move Na+ and glucose together into the epithelial cells of the intestine.
The best understood gated channel is:
the channel in the inner ear that responds to sound.
an
aquaporin.
voltage-gated potassium ion channels.
the
ligand-gated nicotinic acetylcholine receptor.
channels in the
integument of the model organism C. elegans.
voltage-gated potassium ion channels.
One reason why gene therapy has NOT been successful in the treatment
of cystic fibrosis is that:
the defective cells are too distant from the inhaled agents that
deliver the normal version of the gene.
adenovirus was not able
to achieve genetic modification of the target cells and suppressed the
immune response leading to lung inflammation.
adenovirus easily
integrated its own DNA into the target cell, and researchers feared
this could cause cancer.
adenovirus did not integrate its own DNA
into the target cell and had to be re-administered frequently,
increasing the risk of an inflammatory response.
liposomes
stimulated a destructive immune response.
adenovirus did not integrate its own DNA into the target cell and had to be re-administered frequently, increasing the risk of an inflammatory response.
The sodium-potassium pump, or Na+/K+ ATPase:
moves Na+ ions and K+ ions in both
directions across the membrane.
moves both Na+ ions
and K+ ions across the membrane against their concentration
gradients.
moves both Na+ and K+ ions into
the cell.
pumps both Na+ and K+ ions out of
the cell.
exchanges one ion of Na+ for one ion of
K+ across the membrane.
moves both Na+ ions and K+ ions across the membrane against their concentration gradients.
Claude Bernard's use of curare and John Langley's use of nicotine:
damaged the fibers of skeletal muscle, so that it could not
contract.
indicated that a chemical transmitter released from
nerve cells had an effect on skeletal muscle cells.
proved that
an electrical impulse passed from nerve to muscle.
slowed the
rate of beating of a frog's heart.
damaged nerve cells, so that
they could not stimulate a muscle to contract.
indicated that a chemical transmitter released from nerve cells had an effect on skeletal muscle cells.
Which of the following statements is FALSE regarding the diffusion of
substances through membranes?
Water can diffuse through the lipid bilayer because it is
small.
Substances with a larger partition coefficient are better
able to diffuse through the lipid bilayer.
Diffusion across a
membrane requires a concentration gradient.
A membrane is
permeable to a substance that can cross through the lipid bilayer or
through an aqueous pore that spans the membrane.
Glucose
passively diffuses into cells where it is used as a nutrient.
Glucose passively diffuses into cells where it is used as a nutrient
A transport system that moves one solute into the cell and another
one out of the cell during a single cycle accompanied by the
expenditure of energy through ATP hydrolysis could be called a(n) _______
active antiport
active uniport
passive
antiport
active symport
passive symport
active antiport
Diffusion:
creates a concentration gradient between two
regions.
reverses a concentration gradient between two
regions.
eliminates a concentration gradient between two
regions.
has no effect on the concentration gradient between two
regions.
is not dependent upon a concentration gradient between
two regions.
eliminates a concentration gradient between two regions.
An electrochemical gradient:
is determined by the concentration difference of a substance
between two compartments.
is determined by the difference in
charge between two compartments.
is determined by the
concentration difference of a substance between two compartments and
by the difference in charge between two compartments.
is neither
determined by the concentration difference of a substance between two
compartments nor by the difference in charge between two
compartments.
cannot be established with substances using electrolytes.
is determined by the concentration difference of a substance between two compartments and by the difference in charge between two compartments.
The Na+/glucose cotransporter possesses NONE of the listed
characteristics EXCEPT:
moves glucose into the cell down its concentration
gradient.
is driven by the potential energy stored in the ionic
Na+ gradient.
moves Na+ into the cell in
exchange for the outward movement of a molecule of glucose.
is an
example of primary active transport.
works for fructose transport
as well.
is driven by the potential energy stored in the ionic Na+ gradient.
The sodium-potassium pump makes the cell interior more ______ by
pumping ____ sodium ions out of the cell for every ____ potassium ions
pumped in.
negative, 3, 2
negative, 2, 3
positive, 3,
2
positive, 2, 3
negative, 4, 3
negative, 3, 2
Gated channels may be opened or closed by all of the following EXCEPT:
mechanical forces.
voltage differences.
binding of a
ligand.
voltage clamping.
All of these can cause opening or
closing of channels.
voltage clamping.
Which organism provided an ideal system for the study of the
nicotinic acetylcholine receptor?
frogs
native South American hunters
electric
fish
a Taiwanese snake
E. coli
electric fish
If a red blood cell were added to a hypotonic solution,:
it would rapidly gain water and swell or burst.
it would
rapidly lose water and shrink.
nothing much would
happen.
solute would leave the cell and enter the more dilute
solution.
it is impossible to determine what might happen.
it would rapidly gain water and swell or burst.
Facilitated diffusion:
requires energy from ATP.
requires a concentration
gradient.
occurs by passage directly through the lipid
bilayer.
can move substances in only one direction across the
membrane.
always shows a direct relationship between the rate of
movement of a substance across the membrane and the concentration of
the substance to be moved.
requires a concentration gradient.
Which one of the following statements is FALSE regarding the CFTR protein?
When mutated, the CFTR protein can causes cystic
fibrosis.
It is found on epithelial cells.
It acts as a
cyclic AMP-regulated chloride channel.
It is important in
reducing the viscosity of mucus.
It conducts bicarbonate (HCO3
-) ions.
It is important in reducing the viscosity of mucus.
An action potential is ultimately caused by:
changes in membrane permeability.
maintaining a constant
membrane potential.
influx of potassium ions.
efflux of
sodium ions.
Na+/K+ ATPase.
changes in membrane permeability.
Which one of the following statements regarding the myelin sheath is FALSE?
It slows down propagation of nerve impulses along an
axon.
It allows saltatory conduction whereby action potentials
are generated only at the nodes of Ranvier.
It deteriorates in
those who suffer from multiple sclerosis.
It is composed of
layers of lipid-containing membranes.
It is composed of Schwann
cells or oligodendrocytes.
It slows down propagation of nerve impulses along an axon.
Acetylcholine:
excites both skeletal muscle and cardiac muscle.
is the
primary inhibitory neurotransmitter in the brain.
binds to the
GABA receptor and acts as an anesthetic.
increases in
concentration in the synaptic cleft in the presence of drugs that
inhibit acetylcholinesterase.
inhibits skeletal muscle activity.
increases in concentration in the synaptic cleft in the presence of drugs that inhibit acetylcholinesterase.
Drugs may affect behavior by having which of these effects at the synapse?
They may prevent the reuptake of neurotransmitters from the
synaptic cleft.
They may prevent release of neurotransmitters
from the presynaptic cell.
They may block receptors that bind to
neurotransmitters.
They may mimic the action of neurotransmitters
at the synapse.
Drugs may affect behavior by all of these mechanisms.
Drugs may affect behavior by all of these mechanisms.
Which of the following statements is FALSE regarding synaptic plasticity?
It is most readily observed in studies of neurons from the
hippocampus.
It is most important during early adulthood when
people are attending college or learning new job skills.
It is a
key element in learning and short-term memory.
It can result in
long-term potentiation (LTP).
It is a critical developmental
phenomenon, but persists to an extent during the lifespan of an organism.
It is most important during early adulthood when people are attending college or learning new job skills.
When cation-selective channels open in the postsynaptic cell membrane,:
the cell is inhibited.
the resting membrane potential
becomes more negative.
the cell goes through biochemical changes
that lead to synaptic strengthening.
an action potential does not
occur at the postsynaptic membrane.
K+ ions move into
the postsynaptic cell, causing depolarization.
the cell goes through biochemical changes that lead to synaptic strengthening.
Which of the following represents the correct order of changes in
membrane permeability that produce an action potential?
increase in K+ permeability; increase in
Na+ permeability
increase in Na+
permeability; increase in K+ permeability
increase in
Na+ permeability; decrease in K+
permeability
decrease in K+ permeability; increase in
Na+ permeability
increase in Na+
permeability; decrease in Na+ permeability
increase in Na+ permeability; increase in K+ permeability
When a neuron is at rest,:
it is most permeable to Na+ ions.
it is most
permeable to K+ ions, and they leak out of the
cell.
it is most permeable to K+ ions, and they leak
into the cell.
it is not permeable to either Na+ or
K+ ions.
it is equally permeable to Na+ and
K+ ions.
it is most permeable to K+ ions, and they leak out of the cell.
The strength of a stimulus is encoded in the nervous system by:
the strength of the action potential.
the size of the
action potential.
the shape of the action potential.
the
size and shape of the action potential.
the frequency of the
action potential.
the frequency of the action potential.
The fine extension of a neuron that conducts impulses away from the
cell body is:
an axon.
a dendrite.
a terminal knob.
a myelin
sheath.
an action potential.
an axon.
After a nerve impulse reaches the synaptic knob, the first step in
synaptic transmission is:
opening of voltage-gated Ca2+ channels.
closing
of voltage-gated Ca2+ channels.
opening of
voltage-gated Na+ channels.
activation of the
nicotinic acetylcholine receptor.
release of acetylcholine into
the synaptic cleft.
opening of voltage-gated Ca2+ channels.
The Venus flytrap has a sensory mechanism that responds to a(n)
____________ stimulus by opening ion channels in the plasma membrane
and thus depolarizing the membrane.
chemical
electrical
mechanical
photoelectric
sonic
mechanical
The channels that create the plant action potential accomplish this
by allowing the movement of:
Na+ ions into the cell cytoplasm.
Na+
ions out of the cell.
Cl- ions out of the
cell.
Cl- ions into the cell
cytoplasm.
Ca2+ ions into the cell cytoplasm.
Cl- ions out of the cell.
Repolarization in plant cells is accomplished by opening channels
that allow:
Na+ ions to enter the cell.
Na+ ions
to leave the cell.
Cl- ions to enter the
cell.
Cl- ions to leave the cell.
K+
ions to leave the cell.
K+ ions to leave the cell.
How do plant cell action potentials differ from animal cell action potentials?
Plant action potentials last longer.
Plant action
potentials propagate more quickly.
Plant action potentials
propagate more slowly.
Plant action potentials last longer and
propagate more slowly.
Plants action potentials last longer and
propagate more quickly.
Plant action potentials last longer and propagate more slowly.
How does an action potential travel long distances through the plant?
How does an action potential travel from cell-to-cell?
An action potential travels long distances through the phloem
and from cell-to-cell through cell-cell junctions.
An action
potential travels long distances through the xylem and from
cell-to-cell along the cell wall.
An action potential travels
long distances through the phloem and from cell-to-cell along the cell
wall.
An action potential travels long distances through the
xylem and from cell-to-cell through cell-cell junctions.
An
action potential travels long distances along the cell walls and from
cell-to-cell along the cell walls.
An action potential travels long distances through the phloem and from cell-to-cell through cell-cell junctions.
Which of the following is a reason that using a glass microneedle to
influence the activity of nerve cells in a patient is impractical?
Damage to the cell.
Inability to maintain such an electrode
for long periods.
The need to insert the electrode into a cell
using a microscope.
All of the procedures are impractical to use
in a patient.
All of the procedures are impractical to use in a patient.
What is currently the most successful form of neurotechnology?
prosthetic legs
prosthetic arms and hands
cochlear
implants
digital vision aids
olfactory implants
cochlear implants
Why must cochlear implants be flexible?
to vibrate appropriately in the presence of sound waves
to
bend into the right shape without damaging the organ itself
to
fit in the curved area of the pinna of the ear
to fit easily just
underneath the ear drum
to connect directly with the part of the
brain that interprets sound
to bend into the right shape without damaging the organ itself
Why is the cochlea an excellent candidate for neurotechnology?
Different frequencies of sound are sensed in different regions
along the cochlear spiral.
There is a straightforward
relationship between the position of a given electrode in the implant
and the information it must transmit.
The length of the cochlea
allows electrodes to be spaced millimeters apart.
The cochlear
implant is much easier to engineer than attempting to make
high-density electrode arrays that target individual neurons.
All
of the given answers are correct.
All of the given answers are correct.
What are some possible current and future applications of implanted
microelectrode arrays?
to stimulate the retina, the optic nerve, and the visual cortex
to provide sight to blind patients
to restore partial hearing to
deaf patients by direct stimulation of auditory nerves
to control
seizures
to restore movement to paralyzed patients
All of
these are possible applications of microelectrode arrays.
All of these are possible applications of microelectrode arrays.
The use of microelectrode array implants in the brain is challenging
for long periods of time because:
such implants degrade neural tissue
the brain often reacts
to the presence of a foreign object by becoming inflamed or forming
scar
the brain often reacts to the presence of a foreign object
by becoming inflamed
such implants can cause nervous tissue to
dedifferentiate
the brain often reacts to the presence of a
foreign object by becoming inflamed or forming scars
the brain often reacts to the presence of a foreign object by becoming inflamed or forming scars