You are an PA student that is on their ER clinical rotation. You are introduced to a patient that has lost 2 liters of plasma volume due to Postpartum hemorrhage (PPH). Your preceptor asks you to approximate how many liters of intravascular isotonic saline must be infused to stabilize this patient.

A) 1 Liters

B) 5 Liters

C) 10 Liters

D) 8 Liters

A patient is admitted to the hospital with severe motor dysfunction following a traumatic brain injury. The PA needs to determine whether the patient's condition is due to a lower motor neuron lesion or decerebrate posturing. Which of the following correctly differentiates between these two conditions?

A) A lower motor neuron lesion causes spastic paralysis and hyperreflexia, while decerebrate posturing causes flaccid paralysis with absent reflexes.

B) A lower motor neuron lesion results in flaccid paralysis with muscle atrophy and decreased reflexes, while decerebrate posturing is characterized by rigid extension of both upper and lower limbs due to brainstem damage.

C) A lower motor neuron lesion leads to increased muscle tone and exaggerated reflexes, whereas decerebrate posturing leads to muscle flaccidity and hyporeflexia.

D) A lower motor neuron lesion causes flexion of the upper limbs with extension of the lower limbs, while decerebrate posturing results in extension of the upper limbs with flexion of the lower limbs.

What neurotransmitter is involved in reward, motivation, executive function (in the frontal lobes) and control of movement?

A) Serotonin

B) Dopamine

C) Glutamate

D) GABA

If a drug targeted the function of the sodium potassium pump, which of the following processes would cease?

A) SGLT

B) Ca+ channels

C) Osmotic entry of water

D) Exit of K+ from the cell

During regulatory volume increase, cells will increase which of the following?

A) Efflux of K+

B) Efflux of Cl-

C) Influx of Na+

D) Hydrolysis of sorbitol

A researcher is studying the transport of ions across epithelial cells in the kidney. She notices that a specific ion channel is present on the apical side of the plasma membrane but not on the basolateral side. What is the primary functional difference between the apical and basolateral sides of the plasma membrane in epithelial cells?

A) The apical side faces the extracellular fluid, while the basolateral side faces the lumen.

B) The apical side faces the lumen, while the basolateral side faces the extracellular fluid and blood vessels.

C) The apical side is responsible for active transport, while the basolateral side is responsible for passive transport.

D) The apical side contains only symporters, while the basolateral side contains only antiporters.

A neurologist is examining a patient who has suffered a lesion to the alpha motor neurons that control the muscles involved in reciprocal inhibition. What would most likely occur in the affected muscles because of this lesion?

A) The agonist muscle would become hyperactive, leading to excessive contraction, while the antagonist muscle remains unaffected.

B) Both the agonist and antagonist muscles would become flaccid and unable to contract, resulting in complete paralysis of the affected limb.

C) The antagonist muscle would no longer be inhibited, leading to simultaneous contraction of both the agonist and antagonist muscles, causing spasticity or rigidity.

D) The agonist muscle would be unable to contract, while the antagonist muscle would become hyperactive and resist any attempted movement.

What can an inhibitory neurotransmitter do indirectly to achieve its effect?

A) Close K+ channels & open Ca 2+ channels for influx  

B) Open Cl- channels for influx

C) Open Na+ and Ca2+ channels for influx

D) Open K+ channels for efflux and close Ca2+ channels

A new drug has been developed that specifically inhibits the function of calcium pumps (Ca²⁺-ATPase) on the plasma membrane and the sarcoplasmic reticulum of muscle cells. What would be the most likely effect of this drug on muscle function?

A) Enhanced muscle contraction due to increased intracellular calcium levels

B) Muscle relaxation due to decreased calcium availability

C) Prolonged muscle contraction due to delayed calcium reuptake

D) Decreased neurotransmitter release at the neuromuscular junction

What is an example of a symport carrier-mediated transport?

A) Calcium pump

B) Sodium-glucose transporters

C) Sodium-potassium pump

D) Calcium-sodium pump

A PA student is studying the forces that drive fluid movement across capillary walls and encounters the concepts of hydrostatic and osmotic pressures. Which of the following statements correctly distinguishes between hydrostatic pressure and osmotic pressure?

A) Hydrostatic pressure is the force exerted by plasma proteins that draws water into the capillaries, while osmotic pressure is the force exerted by blood pressure that pushes fluid out of capillaries.

B) Hydrostatic pressure is generated by the pressure of fluid within the capillaries that drives fluid out, while osmotic pressure is created by the concentration of solutes that pull water into the capillaries.

C) Hydrostatic pressure results from the concentration of electrolytes in the interstitial fluid, promoting fluid movement out of capillaries, whereas osmotic pressure is caused by the filtration of fluid into the capillaries.

D) Hydrostatic pressure facilitates the reabsorption of nutrients into the capillaries, while osmotic pressure is responsible for the filtration of waste products into the interstitial space.

A patient is brought to the emergency room after sustaining a severe head injury. Upon examination, the patient exhibits decorticate posturing, characterized by flexion of the upper limbs and extension of the lower limbs. Which of the following is the most likely location of the lesion causing this posturing?

A) Midbrain at the level of the red nucleus

B) Pons, below the level of the red nucleus

C) Cerebral cortex or internal capsule above the red nucleus

D) Medulla, affecting the corticospinal tract

Which muscle fiber would you expect lightly myelinated, a diameter less than <3 uM, and serve preganglionic and autonomic functions?

A) Aα

B) Aβ

C) Β

D) C (dorsal root)

A new experimental drug has been developed that specifically inhibits the S2 region of the myosin head. Which of the following would most likely occur because of this inhibition?

A) The myosin head would be unable to hydrolyze ATP, preventing the initiation of the power stroke.

B) The myosin head would lose its ability to bind to actin, disrupting cross-bridge formation.

C) The myosin head would be unable to undergo the conformational change necessary for the power stroke, leading to impaired muscle contraction.

D) The myosin head would remain permanently attached to actin, causing continuous muscle contraction.

A PA student is learning about the roles of Na+ in the body and how its distribution across cell membranes influences cellular function. The student is asked to explain the difference between steady state and equilibrium in the context of Na+ ion distribution.

Which of the following statements best describes the difference between steady state and equilibrium with respect to the importance of Na+ ions?

A) In steady state, Na+ ions are continuously pumped out of the cell, maintaining a concentration gradient, whereas in equilibrium, Na+ ions would be equally distributed across the membrane, requiring no energy expenditure.

B) In steady state, Na+ ions are equally distributed inside and outside the cell, while in equilibrium, Na+ ions are pumped out to maintain a higher concentration outside the cell.

C) Steady state refers to the equal distribution of Na+ ions across the membrane without energy use, while equilibrium requires energy to maintain different concentrations of Na+ inside and outside the cell.

D) In steady state, the movement of Na+ ions across the membrane is balanced by their passive diffusion, whereas in equilibrium, the concentration of Na+ ions is kept constant only by active transport.