Purdue BME 330 Practice Exam Answers PDF

Summary

This is a practice midterm exam for Purdue BME 330 focusing on biological and electrical engineering concepts. The practice exam contains questions about membrane currents, conductance, and voltage dynamics.

Full Transcript

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PURDUE
BME 330 Practice
EXAM - Answers
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Q1. The extracellular medium has the following ionic composition: [Na+]e =
120mM, [K+]e = 4mM, [Cl-]e = 110mM. The cytoplasmic (intracellular) ionic
concentrations are: [Na+]i = 15mM, [K+]i = 120mM, [Cl-]i = 20mM, (assume charge
balance is maintained by fixed negative charges associated with large molecules in
the cytoplasm). Assume PNa = 0.02. PK = 1 and PCl=0.5.

a. What are the reversal potentials for Na+, K+ and Cl- ? (5 pts)
b. What is the resting membrane voltage? (10 pts)
c. The reversal potential for an excitatory channel is 0 mV while the reversal
potential for an inhibitory channel is -45mV. Draw out the resultant voltage
dynamics when an inhibitory input (duration 5 ms) arrives at
i) rest
ii) during a 30mV depolarization from rest that lasts 50ms. Assume the
input arrives 10ms after the onset of depolarization
(15 pts)

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Q2. Plot the membrane current for the following voltage step applied to a squid giant axon using
a whole-cell patch pipette (20 pts)

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Q3. Plot the conductance curves for Sodium and Potassium as a function of the
action-potential shown.
(5 pts)

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Q4. If you were to inject a negative current into an electrically small cell to
hyperpolarize it to -100 mV, what will be the membrane voltage recorded at a
distance of 10 cm from the injection point? Assume a resting membrane potential of
-65mV, an external resistance of 10Ω/cm, an internal resistance of 500Ω/cm, and a
membrane conductivity of 10e-4 S/m.
(20 pts)

a) -80.5mV
b) -82.1mV
c) -67.1mV
d) -69.8mV
e) -75.7mV

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Q5. Use the opamp rules and assume all sources are ideal and solve for Vo in terms
of resistors R1 to R6, Vs and Iin. (25 pts)

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Q6. Bonus question (40 Pts)

Let’s consider the patch clamp experiment outlined in the figure above. A pipette is
brought in contact with a neuron but the seal is not open, i.e. the experimenter has
formed Giga seal but not opened the membrane (membrane still closed as he forgets
to pop the membrane open). The giga seal is represented by the blue resistor and this
resistance is extremely high (several GΩ). Pipette resistance (Re) is 5 MΩ and can
be neglected.

a. What type of circuit configuration is the opamp in? (10 pts)
Current Clamp/Voltage Buffer/Voltage Follower
b. If the cell has the following intracellular dynamic (shown on next page), what
would the resultant voltage recording look like at the patch amplifier output
Vo? Draw out the waveform and write down the reasons and calculations that
brought you to the solution.

Assume 100 % capacitance neutralization so there is no filtering across the
glass wall. The membrane inside the patch-pipette has a resistance of 1 GΩ
and a total membrane capacitance of 0.2 pF. (30 pts)

(HINT: Membrane is not open, so what does a membrane represent)

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