Exam Questions Water, Electrolyte, And Acid-Base Ch.27 12e - Seeley’s Anatomy and Physiology 12e Complete Test Bank by Cinnamon VanPutte. DOCX document preview.
Seeley's Anatomy and Physiology, 12e (VanPutte)
Chapter 27 Water, Electrolyte, and Acid-Base Balance
1) Which of the following fluid compartments contains the largest volume of water?
A) Plasma
B) Interstitial compartment
C) Intracellular compartment
D) Extracellular compartment
E) Lymph
2) Which of the following fluid compartments contains the smallest volume of water?
A) Plasma
B) Interstitial compartment
C) Intracellular compartment
D) Extracellular compartment
E) Cytoplasm
3) Synovial fluid is a part of which of the following fluid compartments?
A) Plasma
B) Interstitial
C) Intracellular
D) Extracellular
E) Cytoplasm
4) Which of the following individuals would have the largest percentage of their body weight as water?
A) A 7-month-old female
B) A lean 35-year-old male athlete
C) A chunky 52-year-old male athlete
D) A healthy 88-year-old male
E) An adult female marathon runner
5) Which of the following people would be most severely affected by prolonged vomiting?
A) 3-year-old male
B) 15-year-old male
C) 35-year-old male
D) 35-year-old female
E) 50-year-old male
6) Extracellular fluid has a ________.
A) higher protein content than intracellular fluid
B) higher K+ content than intracellular fluid
C) higher Na+ content than intracellular fluid
D) higher Mg2+ content than intracellular fluid
E) higher number of large organic molecules than intracellular fluid
7) The predominant intracellular cation is ________.
A) K+
B) Na+
C) Ca2+
D) Mg2+
E) Cl−
8) The predominant extracellular cation is ________.
A) bicarbonate
B) Na+
C) Cl−
D) K+
E) H+
9) The distribution of Na+ and K+ between intracellular and extracellular compartments is ________.
A) K+ mainly intracellular; Na+ mainly in extracellular
B) Na+ mainly intracellular; K+ mainly in extracellular
C) little of either intracellular but large amounts of both extracellular
D) equal amounts of both ions, in both intracellular and extracellular fluids
E) None of the choices are correct.
10) One difference between the plasma and interstitial fluid is that the plasma has significantly more ________ than interstitial fluid.
A) protein
B) bicarbonate
C) Cl−
D) water volume
E) H+
11) Serum electrolyte concentrations are most often expressed as ________.
A) mg %
B) mmHg
C) mg/dl
D) mEq/L
E) None of the choices are correct.
12) The predominant extracellular anion is ________.
A) protein
B) phosphate
C) bicarbonate
D) Cl−
E) Na+
13) Where is the highest concentration of bicarbonate ion found?
A) Plasma
B) Intracellular fluid
C) Interstitial fluid
D) Lymph
14) Water moves back and forth across the plasma membrane by the process of ________.
A) osmosis
B) filtration
C) facilitated diffusion
D) active transport
E) endocytosis
15) The cation that plays a major role in determining the osmotic pressure of the plasma is ________.
A) Na+
B) K+
C) Cl−
D) phosphate
E) H+
16) The major route of excretion for Na+ (under normal conditions) is the ________.
A) skin
B) kidney
C) GI tract
D) adrenal cortex
E) sweat
17) When aldosterone is absent, Na+ reabsorption in the nephron is ________.
A) greatly increased
B) greatly decreased
C) unchanged
18) As the rate of sweat production increases, the amount of Na+ lost in the urine ________.
A) increases
B) decreases
C) remains the same
19) Receptors sensitive to changes in the osmolality of extracellular fluid are the ________.
A) baroreceptors
B) chemoreceptors
C) osmoreceptors
D) pressoreceptors
E) proprioreceptors
20) Renin is released by the ________.
A) lungs
B) kidney
C) spleen
D) liver
E) pancreas
21) Which of the following events occurs last?
A) Release of renin by the kidney
B) Release of aldosterone by the adrenal cortex
C) Sodium ion reabsorption by the kidney tubules
D) Angiotensinogen → angiotensin I
E) Angiotensin I → angiotensin II
22) The primary regulator of plasma Na+ concentration is ________.
A) renin
B) aldosterone
C) antidiuretic hormone (ADH)
D) atrial natriuretic hormone
E) insulin
23) Which of the following is most likely to happen to a group of students who relax by drinking a pitcher of their favorite beverage?
A) An increase in urine volume
B) An increase in urine osmolality
C) An increase in ADH production
D) Increased aldosterone secretion
E) A decrease in urine volume
24) Antidiuretic hormone (ADH)
A) increases plasma osmolality.
B) is secreted by the anterior pituitary.
C) increases water reabsorption in the kidneys.
D) causes the production of a large volume of urine.
E) increases urine volume.
25) A decrease in plasma osmolality would increase ________.
A) ADH production
B) plasma Na+ levels
C) renin production
D) urine production
E) thirst
26) The stimulus for secretion of atrial natriuretic hormone is increased ________.
A) blood osmolality
B) aldosterone production
C) blood pressure in atria of heart
D) blood pressure in the kidneys' afferent arterioles
E) blood pressure in the ventricles of the heart.
27) Which of the following is NOT a principle sensor for thirst regulation?
A) Osmoreceptors in the hypothalamus
B) Arterial baroreceptors
C) Juxtaglomerular apparatus
D) Mouth mucosa
28) Loss of water through diffusion and evaporation from the skin is called ________ and is important in ________ control.
A) insensible perspiration; blood volume
B) insensible perspiration; heat loss
C) sensible perspiration; blood volume
D) sensible perspiration; temperature
29) Elevated blood pressure under resting conditions results in increased urinary output because
A) baroreceptors signal the hypothalamus to increase ADH secretion.
B) elevated blood pressure stimulates renin secretion.
C) the amount of angiotensin II formed is increased.
D) aldosterone levels increase.
E) baroreceptors signal the hypothalamus to decrease ADH secretion.
30) You've been working outside in the hot sun and are dripping wet with sweat. Your fluid intake has been minimal as you have been too busy to stop and get a drink. You would expect
A) your blood osmolality to be low.
B) an increase in the production of urine.
C) aldosterone levels to decrease.
D) ADH levels to increase.
E) ADH levels to decrease.
31) Increased ADH secretion could be stimulated by which of the following situations?
A) Increased renal blood flow
B) Increased blood osmolality
C) Increased atrial natriuretic hormone production
D) Increased blood pressure
E) Decreased blood osmolality
32) Atrial natriuretic hormone increases ________.
A) urine volume.
B) ADH secretion.
C) aldosterone secretion.
D) the reabsorption of Na+.
E) blood volume.
33) Which characteristic of the plasma membrane is responsible for maintaining the difference between intracellular and extracellular fluid?
A) Presence of channels in the membrane
B) Presence of lipids in the membrane
C) Being selectively permeable
D) High Na+ concentration inside the cell
34) True or False? The composition of extracellular fluid has little affect on intracellular fluid amounts.
35) Which of the following would be expected to cause hyponatremia?
A) High intake of Na+
B) Increased aldosterone production
C) Increased urine output
D) Decreased aldosterone production
E) Decreased ADH production
36) Oversecretion of aldosterone causes ________.
A) hyperkalemia
B) hypercalcemia
C) hypernatremia
D) increased urine volume
E) hyponatremia
37) Chloride ions
A) are cations.
B) are found only inside cells.
C) are part of the DNA molecule.
D) are regulated with Na+.
E) are not found in extracellular fluid.
38) Decreased extracellular K+ levels cause
A) cells to become more excitable.
B) hyperpolarization of plasma membranes.
C) more action potentials to be generated.
D) increased permeability of plasma membranes.
E) hypopolarization of plasma membranes.
39) Which of the following statements concerning K+ is false?
A) An increase in the extracellular K+ concentration leads to depolarization.
B) Potassium ions are secreted into the nephron by the distal convoluted tubule.
C) When aldosterone levels are high, K+ secretion is low.
D) Aldosterone secretion is stimulated by high blood levels of K+.
E) None of the choices are false.
40) Potassium levels in the body are regulated by ________.
A) ADH
B) PTH
C) calcitonin
D) aldosterone
E) insulin
41) Oversecretion of aldosterone causes
A) decreased secretion of Ca2+ by the kidney.
B) increased secretion of K+ by the kidney.
C) decreased reabsorption of Na+ by the kidney.
D) increased reabsorption of phosphate ions by the kidney.
E) decreased secretion of K+ by the kidney.
42) Aldosterone secretion may be stimulated by ________.
A) ADH
B) elevated K+ levels
C) excess water intake
D) elevated Na+ levels
E) low K+ levels
43) The most common cause of hyperkalemia is ________.
A) vomiting
B) increased dietary intake
C) increased urinary output
D) cellular injury or death
E) diarrhea
44) Which of the following will the body begin to do in order to compensate for hyperkalemia?
A) Vasoconstriction of blood vessels
B) Increase ADH secretion
C) Decrease aldosterone secretion
D) Increase the release of atrial natriuretic hormone
E) Increase aldosterone secretion
45) Hyperkalemia is defined as
A) excess excitability of kalems.
B) reduction of plasma Ca2+ level.
C) increase in plasma K+ level.
D) increase in plasma Na+ level.
E) decrease in plasma K+ level.
46) Which of the following is correctly matched?
A) Alkalosis – hypokalemia
B) Cell destruction – hypokalemia
C) Increased secretion of aldosterone – hyperkalemia
D) Overuse of diuretics – hyperkalemia
E) Acidosis – hypokalemia
47) Most of the Ca2+ in the body is in the ________.
A) bones
B) plasma
C) kidneys
D) GI tract
E) extracellular fluid
48) In hypocalcemia,
A) depolarization is prevented.
B) PTH production is reduced.
C) blood Ca2+ levels are increased.
D) neuromuscular excitability increases.
E) neuromuscular excitability decreases.
49) Calcium balance is influenced by
A) ADH and parathyroid hormone levels.
B) ADH and aldosterone levels.
C) parathyroid hormone and vitamin D levels.
D) aldosterone and parathyroid hormone levels.
E) insulin and glucagon.
50) Calcium's roles in the body include
A) bone health.
B) muscle contraction.
C) blood clotting.
D) action potentials in heart muscle.
E) All of the choices are correct.
51) An increase in parathyroid hormone levels results in
A) increased rate of bone resorption.
B) increased rate of vitamin D degradation.
C) increased concentration of K+ in the urine.
D) increased rate of Ca2+ excretion by the kidneys.
E) decreased levels of blood Ca2+.
52) Adequate Ca2+ absorption from the GI tract depends on
A) serum K+ levels.
B) serum calcitonin levels.
C) adequate amounts of vitamin D.
D) the osmolality of the extracellular fluid.
E) adequate amounts of vitamin C.
53) Stimulus for the secretion of parathyroid hormone is a decrease in serum ________ levels.
A) K+
B) Ca2+
C) calcitonin
D) phosphate
E) Na+
54) Parathyroid hormone affects the ________.
A) bones, heart, and blood
B) kidney, liver, and spleen
C) intestine, kidneys, and bone
D) liver, stomach, and small intestine
E) stomach, pancreas, and bone
55) What is the main role of Mg2+ in the body?
A) Muscle contraction
B) Nerve impulse
C) Blood clotting
D) Cofactors for intracellular enzymes
56) The main regulator of serum phosphate levels is a transport process in the ________.
A) liver
B) kidneys
C) pancreas
D) small intestine
E) large intestine
57) A major complication of thyroid surgery is the accidental damaging or removal of the parathyroid glands. This damage or removal of the parathyroid glands can result in
A) increased Na2+ retention.
B) increased plasma volume.
C) decreased plasma Ca2+.
D) delayed healing.
E) increased plasma Ca2+.
58) Calcitonin
A) promotes the absorption of Ca2+ from the gastrointestinal tract.
B) promotes osteoclast activity in the bones.
C) reduces Ca2+ excretion by the kidneys.
D) reduces extracellular Ca2+ ion levels.
E) increases blood Ca2+ levels.
59) Increased osmolality of the extracellular fluid
A) increases thirst.
B) inhibits ADH.
C) increases renin secretion.
D) increases aldosterone secretion.
E) decreases thirst.
60) The sensation of thirst results from
A) an increase in the plasma volume.
B) hypertension (increased blood pressure).
C) stimulation of osmoreceptor cells in the hypothalamus.
D) a decrease in the osmolality of the extracellular fluid.
E) stimulation of baroreceptors.
61) Angiotensin II increases blood volume by stimulating
A) thirst.
B) vasodilatation.
C) water movement into the cells.
D) renal excretion of Na+.
E) ADH production.
62) Under normal conditions, most water loss from the body is through the ________.
A) skin
B) kidneys
C) lungs
D) GI tract
E) sweat
63) Which of the following is an example of water conservation by the body?
A) Diarrhea
B) Perspiration
C) Decreased water intake
D) Decreased urine volume
E) Increased urine volume
64) Sensible perspiration
A) contains only water.
B) is water lost through simple evaporation.
C) is secreted by the sweat glands.
D) is invisible on the skin.
E) is secreted by salivary glands.
65) Loss of a large volume of sweat will
A) decrease the hematocrit.
B) decrease ADH production.
C) increase the blood pressure.
D) increase the osmolality of body fluids.
E) decrease the osmolality of body fluids.
66) In which of the following situations does one see large volumes of dilute urine produced?
A) ADH levels decrease.
B) Renin levels increase.
C) Aldosterone levels increase.
D) Parathyroid hormone levels decrease.
E) ADH levels increase.
67) A person working in the hot sun loses the greatest amount of water from the ________.
A) lungs
B) urine
C) mouth
D) skin
E) GI tract
68) pH
A) increases with acidity.
B) is measured on a scale of 0 to 10.
C) is a measure of the H+ concentration.
D) reflects Na+ content of body fluids.
E) is not related to amounts of CO2 in the body.
69) Which of the following substances releases H+ into a solution?
A) Acids
B) Bases
C) Salts
D) Glucose
E) Water
70) Chemicals that function to minimize changes in the pH of body fluids are called ________.
A) buffers
B) inhibitors
C) accelerators
D) activators
E) stabilizers
71) If the H+ concentration in the blood increases, bicarbonate ions act as buffers by
A) removing excess H+ from the plasma.
B) releasing H+ into the plasma.
C) dissociating into H+ and CO3−.
D) combining with Cl−.
E) combining with hemoglobin.
72) Which of the following is NOT a buffer system of the body?
A) Bicarbonate buffer system
B) Phosphate buffer system
C) Protein buffer system
D) NaCl buffer system
E) Hemoglobin buffer
73) Body fluid pH will rise dramatically when
A) Na+ is excreted by the kidney.
B) large amounts of bicarbonate are ingested.
C) carbonic acid is formed.
D) the respiratory rate decreases.
E) CO2 levels increase.
74) As a result of hyperventilation,
A) the body pH decreases.
B) the plasma PCO2 level decreases.
C) the kidney will increase the rate of H+ excretion.
D) more bicarbonate ions are added to the plasma.
E) the plasma PCO2 level increases.
75) An increase in blood CO2 levels is followed by a/an ________ in H+ ions and a/an ________ in blood pH.
A) decrease; decrease
B) decrease; increase
C) increase; increase
D) increase; decrease
E) increase; no change
76) Which of the following terms does not belong with the other three?
A) Acidosis
B) pH increases
C) H+ concentration increases
D) Carbonic acid levels increase
E) pH decreases
77) Wilma's plasma pH is 7.2. Which of the following indicates that the body is attempting to compensate and return the body pH to normal?
A) An increase in respiration rate
B) A decrease in respiration rate
C) No change in respiration rate
78) In renal compensation of acidosis,
A) H+ secretion decreases; bicarbonate excretion increases.
B) H+ secretion decreases; bicarbonate reabsorption increases.
C) H+ secretion increases; bicarbonate reabsorption increases.
D) H+ secretion increases; bicarbonate excretion increases.
E) H+ secretion decreases; bicarbonate excretion decreases.
79) Which of the following can play a role in buffering the pH of urine?
A) Ammonia
B) Bicarbonate ions
C) Phosphate ions
D) All of the choices are correct.
80) The normal pH for blood plasma is ________.
A) 7.00
B) 7.25 - 7.35
C) 7.35 - 7.45
D) 7.45 - 7.55
E) 6.80 - 7.20
81) Once alkalosis has occurred, which of the following would you expect to happen?
A) Increased respiratory rate
B) A plasma pH less than 7.40
C) Retention of H+ by the kidney
D) Increased renal reabsorption of bicarbonate ions
E) Secretion of H+ by the kidney
82) Hyposecretion of aldosterone would lead to
A) increased secretion of H+.
B) decreased secretion of H+.
C) no change in secretion of H+.
83) When normal buffer mechanisms are overwhelmed by excessive numbers of H+, which of the following will result?
A) Acidosis
B) Alkalosis
C) Neither of these
84) A falling blood pH and a rising concentration of CO2 due to emphysema, indicate ________.
A) metabolic acidosis
B) metabolic alkalosis
C) respiratory acidosis
D) respiratory alkalosis
E) None of the choices are correct.
85) Ingesting large amounts of sodium bicarbonate can lead to ________.
A) metabolic acidosis
B) metabolic alkalosis
C) respiratory acidosis
D) respiratory alkalosis
E) None of the choices are correct.
86) Respiratory alkalosis can occur as a result of ________.
A) asphyxia
B) asthma
C) severe emphysema
D) hyperventilation
E) hypoventilation
87) Prolonged vomiting of stomach contents will result in ________.
A) metabolic acidosis
B) metabolic alkalosis
C) respiratory acidosis
D) respiratory alkalosis
E) None of the choices are correct.
Case study:
You have just admitted Mary Roberts, a 70-year-old woman, to the hospital for GI bleeding. Her blood pressure is 130/80, pulse 80/min and irregular, respirations 18/min, and temperature 99.2. Mrs. Roberts denies pain at this time, although she appears anxious and very pale. Her medical history includes lung cancer that was diagnosed two weeks ago, peptic ulcer disease with reflux esophagitis, and "fluid retention." Admission lab work shows a plasma Na+ of 152 mEq/L and K+ of 2.8 mEq/L.
88) Which of the following regulatory mechanisms would be stimulated as a result of the increased osmolality that results from a Na+ level of 152 mEq/L?
A) Increased urine output
B) An increased release of ADH
C) An increase in renin production
D) An increase in the secretion of aldosterone
E) A decreased release of ADH
89) The increase in extracellular osmolality would cause
A) water to move out of the cells.
B) water to move into the cells.
C) no change in the net movement of water into or out of the cells.
90) The K+ level of 2.8 mEq/L indicates hypokalemia. Low plasma K+ levels will cause ________.
A) thirst
B) muscle weakness
C) increased body temperature
D) tremors, tetany, and convulsions
E) paralysis
91) Robert has an enteropathogenic E. coli infection resulting in severe diarrhea for 2 days. This could produce which of the following:
(1) Acidosis
(2) Alkalosis
(3) Increased respiration
(4) Decreased respiration
(5) Increased ADH secretion
(6) Increased renin secretion
(7) Increased urine concentration
A) 1, 3, 5, 6, 7
B) 2, 4, 5, 6, 7
C) 1, 3, 6
D) 2, 4, 5, 7
E) 1, 4, 5, 7
92) Acetazolamide (Diamox) is a diuretic that functions by blocking the activity of carbonic anhydrase inside kidney tubule cells. This slows the formation of carbonic acid, which slows H+ the formation in the cells and Na+ reabsorption at the tubule. This results in the diuretic effect. Select from the following list the possible side-effects of Azetazolamide.
(1) Acidosis
(2) Reduced movement of bicarbonate ion into the plasma
(3) An alkaline urine is produced
(4) Respiration increases
A) 1, 4
B) 2, 3
C) 1, 2, 3
D) 2, 3, 4
E) 1, 2, 3, 4
93) Edema results when the amount of ________ fluid increases.
A) interstitial
B) intracellular
C) plasma
D) cerebrospinal
E) synovial
94) Which of the following are sources of water intake? (Check all that apply.)
A) Cellular metabolism
B) Ingestion
C) Perspiration
D) Respiratory intake
E) Osmosis
95) Wetting the oral mucosa and stretching the digestive tract will cause ________ in thirst sensations.
A) a temporary interruption
B) a tremendous increase
C) an increase in blood osmolarity and an increase
D) an increase in blood osmolarity and a decrease
96) An increase in the osmolarity of the extracellular fluid will trigger a/an ________ in the secretion of ADH and a/an ________ in thirst.
A) increase; increase
B) increase; decrease
C) decrease; decrease
D) decrease; increase
97) Which cell structure regulates the composition of the intracellular fluid?
A) Plasma membrane
B) Cell wall
C) Endoplasmic reticulum
D) Ribosomes
E) Nucleus
98) Which organ(s) play(s) a role in the excretion of Na+? (Check all that apply.)
A) Skin
B) Kidneys
C) Lungs
D) Liver
99) Sodium homeostasis leads to the homeostasis of ________.
A) chloride
B) hydrogen
C) calcium
D) potassium
E) magnesium
100) Which hormone regulates K+ levels, and how does it work?
A) Aldosterone; increases secretion of K+
B) Aldosterone; increases reabsorption of K+
C) ADH; increases secretion of K+
D) ADH; increases reabsorption of K+
E) ANH; increases reabsorption of K+
101) Parathyroid hormone increases the activity of ________ in bone and increases the rate of Ca2+ ________ in the kidney tubules.
A) osteoclast; reabsorption
B) osteoblast; reabsorption
C) osteocyte; reabsorption
D) osteocyte; secretion
E) osteoblast; secretion
102) Name the ion that commonly serves as a cofactor for intracellular enzymes, such as the sodium-potassium pump.
A) Magnesium
B) Calcium
C) Hydrogen
D) Carbonate
E) Phosphate
103) What roles does phosphate play in the body?
A) It is found in the salts of bone and teeth.
B) It is an important component of several macromolecules.
C) It affects neuromuscular activity.
D) It is part of an important intracellular buffer system.
E) It affects the action of the sodium-potassium pump.
104) Slight deviations from the normal concentration of ________ can shut down metabolic pathways as well as alter the structure and function of other macromolecules.
A) H+
B) K+
C) Na+
D) phosphate
E) glucose
105) Which of the following is not a function of the carbonic acid/bicarbonate system?
A) Regulation of the pH of the intracellular environment.
B) Regulating pH changes of the blood during exercise.
C) Regulation of blood pH during elevated fat metabolism.
D) Regulation of blood pH in coordination with the respiratory system.
E) Regulation of blood pH in coordination with the kidneys.
106) When blood pH decreases, which of the following occurs to correct the imbalance?
A) The respiratory center increases the breathing rate.
B) The respiratory center decreases the breathing rate.
C) Less CO2 is expelled from the lungs.
D) More CO2 is expelled from the lungs.
E) The carbonic acid/bicarbonate equation is driven to the right.
107) Decreased extracellular K+ levels cause
A) cells to become more excitable.
B) hyperpolarization of plasma membranes.
C) more action potentials to be generated.
D) increased permeability of plasma membranes.
E) hypopolarization of plasma membranes.
108) A force that causes the movement of fluid out of the capillary is ________.
A) blood pressure
B) positive interstitial pressure
C) blood colloid osmotic pressure
D) critical closing pressure
E) lymph pressure
109) Edema can occur when there is
A) an increase in the amount of plasma proteins.
B) a decrease in capillary permeability to proteins.
C) a decrease in blood pressure.
D) a blockage of the lymphatics.
E) an increase in blood colloid osmotic pressure.
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Seeley’s Anatomy and Physiology 12e Complete Test Bank
By Cinnamon VanPutte