last exam

Question 1

1. Extracellular fluids include all of the following except?
   a. Blood plasma
   b. Interstitial fluid
   c. Cerebrospinal fluid
   d. Lymph
   e. Cytoplasm

Answer 1

Cytoplasm

Question 2

2. Antidiuretic Hormone
   a. Stimulates water loss in the kidneys
   b. Stimulates water retention in the kidneys
   c. Stimulates salt loss
   d. Stimulates salt retention
   e. None of the above

Answer 2

Stimulates water retention in the kidneys

Question 3

3. When the fluid outside a cell becomes highly concentrated with ions, what will the result be on the cell?
   a. Water will move from inside the cell to outside
   b. Water will move from outside the cell to inside the cell
   c. No net movement of water will result

Answer 3

Water will move from inside the cell to outside

Question 4

4. Which location are the chemorecptors monitoring?
   a. Intracellular fluid
   b. Extracellular fluid

Answer 4

Extracellular fluid

Question 5

5. Which of the following hormones is released by the cardiac muscle in response to high blood volume?
   a. ADH
   b. Renin
   c. Aldosterone
   d. Natriuretic peptide
   e. None of the above

Answer 5

Natriuretic peptide

Question 6

6. In which case is the pH lower?
   a. After hyperventilating
   b. After hypoventilating

Answer 6

After hypoventilating

Question 7

7. A _________ consists of a combination of a weak acid and a dissociation product
   a. Buffer system
   b. Strong acid
   c. Strong base
   d. Weak base
   e. None of the above

Answer 7

Buffer system

Question 8

8. Which acid is the result of cellular metabolism?
   a. Fixed acid
   b. Volatile acid
   c. Organic acid

Answer 8

Organic acid

Question 9

9. In the respiratory system, the buffer utilized to regulate pH is CO2, what is the name of the volatile acid that works here?
   a. Nitric acid
   b. Hydrochloric acid
   c. Carbonic acid
   d. Pyruvic acid

Answer 9

Carbonic acid

Question 10

The most common problems with electrolyte balance are caused by imbalances between gains and losses of which ion?

a. Calcium
b. Chloride
c. Potassium
d. Sodium
e. Magnesium

Answer 10

Sodium

Question 11

1. The functional unit of the kidney is called what?
   a. Glomerulus
   b. Nephron
   c. Bowman’s Capsule
   d. Loop of Henle
   e. Proximal convoluted tubule

Answer 11

Nephron

Question 12

2. Vasodilation of the afferent arteriole combined with vasoconstriction of the efferent arteriole will result in which of the following?
   a. An increase in the glomerular filtration
   b. A decrease in the glomerular pressure
   c. A decrease in glomerular filtration
   d. An increase in the secretion of renin
   e. None of the above

Answer 12

An increase in the glomerular filtration

Question 13

3. The primary location(s) for hormonal regulation of water, sodium ions, and potassium ions in the nephrons is where?
   a. Distal convoluted tubule
   b. Proximal convoluted tubule
   c. Descending loop of Henle
   d. Collecting duct
   e. Both A and D

Answer 13

Both A and D

Question 14

4. Which of the following is the primary site for nutrient reabsorption from the filtrate?
   a. Glomerulus
   b. Proximal Convoluted Tubule
   c. Ascending loop of Henle
   d. Collecting Duct
   e. Distal Convoluted Tubule

Answer 14

Proximal Convoluted Tubule

Question 15

5. Each of the following would be considered normal in a urine sample except?
   a. Amber coloration
   b. Ammonia scent
   c. Acidic pH
   d. Cloudy

Answer 15

Cloudy

Question 16

6. Urine with a glucose trace is considered what?
   a. Normal
   b. Abnormal

Answer 16

Abnormal

Question 17

7. The muscle in the urinary bladder is called what?
   a. Ureter
   b. PeePee Pusher
   c. Detrusor
   d. Micturator

Answer 17

Detrusor

Question 18

8. The higher the plasma concentration of aldosterone, the more efficiently the kidney will what?
   a. Conserve sodium ions
   b. Retain potassium ions
   c. Stimulate urinary water loss
   d. Secrete greater amounts of ADH
   e. All of the above

Answer 18

Conserve sodium ions

Question 19

9. A drop in the GFR will result in which of the following?
   a. Juxtaglomerular cell production of renin
   b. Increase in Angiotensin I plasma levels
   c. Increase in Angiotensin II plasma levels
   d. Increase in Aldosterone plasma levels
   e. All of the above

Answer 19

All of the above

Question 20

10. The kidney not only removes waste products from the blood, they also assist in the regulation of what?
    a. Blood volume
    b. Blood pH
    c. Blood pressure
    d. Blood ion levels
    e. All of the above

Answer 20

All of the above

Question 21

11. The countercurrent multiplication is important to the nephron for what reason?
    a. Decreases the water reabsorption
    b. Decreases sodium reabsorption
    c. Decreases potassium reabsorption
    d. All of the above
    e. None of the above

Answer 21

None of the above

Question 22

12. The openings for the ureters and the urethra on the interior surface of the bladder are called what?
    a. Renal sinus
    b. Hilus
    c. Renal pelvis
    d. Trigone
    e. Internal urethral sphincter

Answer 22

Trigone

Question 23

13. The glomerular hydrostatic pressure is significantly less than the pressures in the rest of the circuit.
    a. True
    b. False

Answer 23

False

Question 24

14. If the GFR drops, which of the following will occur?
    a. Efferent arteriole will constrict
    b. Afferent arteriole will dialate
    c. Erythropoietin will be released
    d. Renin will be released
    e. All of the above will occur

Answer 24

All of the above will occur

Question 25

15. The perception of the Micturition reflex begins when the bladder hits what level?
    a. 1000 ml
    b. 200 ml
    c. 2000ml
    d. 500ml
    e. 100ml

Answer 25

500ml

Question 26

1. The sum of all of the biochemical processes going on within the human body at any given time is called?
   a. Glycolysis
   b. Oxidative phosphorylation
   c. Catabolism
   d. Anabolism
   e. Metabolism

Answer 26

Metabolism

Question 27

2. Cell synthesis of new chemicals from basic building blocks is called?
   a. Glycolysis
   b. Oxidative phosphorylation
   c. Catabolism
   d. Anabolism
   e. Metabolism

Answer 27

Anabolism

Question 28

3. The pyruvic acid molecule as it is in the transition phase of the TCA cycle is undergoing what type of chemical reaction?
   a. Glycolysis
   b. Oxidative phosphorylation
   c. Decarboxylation
   d. All of the above
   e. None of the above

Answer 28

Decarboxylation

Question 29

4. Which phase gives off CO2?
   a. Glycolysis
   b. TCA
   c. ETC
   d. All of the above

Answer 29

TCA

Question 30

5. What is the first thing that happens to a glucose molecule as it enters the nutrient pool?
   a. Phosphate is attached
   b. Pyruvic acid is formed
   c. Decarboxylation occurs
   d. Lactic acid is formed

Answer 30

Phosphate is attached

Question 31

6. Which of the following is a true statement regarding glycolysis?
   a. Requires oxygen
   b. Yields two ATP net gain
   c. Yeilds two pyruvic acid
   d. Yields two NADH
   e. All but A

Answer 31

All but A

Question 32

7. Which nutrient undergoes Beta-Oxidation?
   a. Carbohydrates
   b. Lipids
   c. Amino Acids
   d. Nucleic acids

Answer 32

Lipids

Question 33

8. What chemical reaction is occurring in the ETC?
   a. Beta –oxidation
   b. Glycolysis
   c. Decarboxylation
   d. Oxidative-phosphorylation
   e. None of the above

Answer 33

Oxidative-phosphorylation

Question 34

9. In the ETC every time one compound is reduced, what happens to a paired compound?
   a. It is reduced also
   b. It is oxidized
   c. Nothing

Answer 34

It is oxidized

Question 35

10. What is the name of the process by which ATP is created in the ETC?
    a. Beta-oxidation
    b. Oxidative-Reduction
    c. Decarboxylation
    d. Chemiosmosis phosphorylation
    e. ATP-synthase

Answer 35

Chemiosmosis phosphorylation

Question 36

What is the primary role of the TCA cycle in the production of ATP?

a. break down glucose
b. create hydrogen gradient
c. phosphorylate ADP
d. transfer electrons from substrates to coenzymes

Answer 36

d. transfer electrons from substrates to coenzymes

Question 37

What is the electron transport system’s role in the generation of ATP?

a. It creates a steep concentration gradient across the inner mitochondrial membrane.
b. It manufactures 36 ATP.
c. It facilitates formation of coenzymes.
d. It prevents substrate-level phosphorylation.

Answer 37

a. It creates a steep concentration gradient across the inner mitochondrial membrane.

Question 38

How does a decrease in the level of cytoplasmic NAD affect ATP production in mitochondria?

a. ATP production increases.
b. ATP production decreases.
c. Pyruvic acid supplies increase.
d. Unused glucose molecules allow for production of ATP through other mechanisms.

Answer 38

b. ATP production decreases

Question 39

NADH produced by glycolysis in skeletal muscle fibers leads to production of two ATP molecules in mitochondria, but NADH produced by glycolysis in cardiac muscle cells leads to production of three ATP molecules. Why?

a. different systems
b. different pH
c. different intermediaries
d. more efficient enzymes in cardiac muscle

Answer 39

c. different intermediaries

Question 40

Why is oxidative phosphorylation the most important mechanism for generating ATP?

a. It requires less energy than other mechanisms.
b. It requires fewer steps to produce ATP molecules.
c. It produces more than 90% of ATP used by body  	    cells.
d. It allows the release of a tremendous amount of 	    energy.

Answer 40

c. It produces more than 90% of ATP used by body cells.

Question 41

What contributes to the increased amount of urea in blood during the postabsorptive state?

a. protein digestion
b. lipolysis
c. glycolysis
d. glycogenesis

Answer 41

a. protein digestion

Question 42

What consequence(s) is (are) the result of a dietary deficiency of one or more essential amino acids?

a. Protein deficiency disease occurs.
b. The body produces the missing amino acids by amination.
c. Protein synthesis comes to a halt.
d. Both A and C are correct

Answer 42

d. Both A and C are correct.

Question 43

Why are proteins an impractical source of quick energy, a “last ditch” source of energy?

a. Proteins are more difficult to break apart than are carbohydrates or lipids.
b. NH4, a by-product of protein catabolism, is toxic.
c. Protein catabolism threatens homeostasis.
d. All of the above are correct.

Answer 43

d. All of the above are correct

Question 44

Why do athletes in intensive training try to maintain a positive nitrogen balance?

a. They must excrete more N than they take in.
b. They must keep the amount of N absorbed in 	    balance with what is lost in urine and feces.
c. They actively synthesize N compounds, so 		    must absorb more than they secrete.
d. None of the above are correct.

Answer 44

c. They actively synthesize N compounds, so must absorb more than they secrete.

Question 45

Why does a diet that is deficient in pyridoxine (vitamin B6) affect protein metabolism?

a. B6 deficiency sets up a cascade of events 		    leading to premature breakdown of lipases.
b. The first step in amino acid catabolism 		    requires a coenzyme derivative of B6.
c. B6 deficiency is critical to later steps of amino 	    acid catabolism.
d. Pyridoxine is not involved in protein 			    metabolism.

Answer 45

b. The first step in amino acid catabolism requires a coenzyme derivative of B6.

Question 46

Why are high-density lipoproteins (HDLs) considered beneficial?

a. They increase lipid metabolism.
b. They decrease blood pressure.
c. They increase blood pH.
d. They reduce fat and cholesterol in the bloodstream.

Answer 46

d. They reduce fat and cholesterol in the bloodstream.

Question 47

Why is catabolism of dietary carbohydrates and proteins considered “not as productive” as catabolism of lipids?

a. In lipids, many carbon and hydrogen atoms 		    are already bound to oxygen.
b. Digestion of dietary protein creates toxins.
c. Lipids release almost twice the energy of 		    proteins or carbohydrates.
d. Carbohydrates and proteins have fewer 		    health benefits than lipids.

Answer 47

c. Lipids release almost twice the energy of proteins or carbohydrates

Question 48

Why are LDLs considered “bad cholesterol”?

a. They take cholesterol from peripheral tissues to the liver.
b. They deliver cholesterol to peripheral tissues.
c. They often end up in arterial plaques.
d. Both B and C are correct.

Answer 48

d. Both B and C are correct.

Question 49

Why does hypervitaminosis more commonly involve fat-soluble vitamins?

a. Water-soluble vitamins rapidly degenerate into their component parts.
b. Excess fat-soluble vitamins are stored in body lipids.
c. Fat-soluble vitamins participate in more important reactions than do water-soluble vitamins.
d. All of the above are correct.

Answer 49

b. Excess fat-soluble vitamins are stored in body lipids.

Question 50

What characteristic of lipoproteins allows them to be made water-soluble?

a. They are small enough to pass through 	    the plasma membrane.
b. They have a superficial coating of 		    phospholipids and proteins.
c. They form compact granules.
d. They provide more energy than a 	 	    comparable amount of glucose

Answer 50

b. They have a superficial coating of phospholipids and proteins.

Question 51

Which of the following vitamins can be synthesized inside the body?

a. vitamins D and K
b. vitamins B12 and C
c. vitamins A and E
d. vitamins B6 and C

Answer 51

a. vitamins D and K

Question 52

How would a decrease in the amount of bile salts in the bile affect the amount of vitamin A in the body?

a. It would increase vitamin A.
b. It would decrease vitamin A.
c. It would have no effect, since the two 		    are not related.
d. It depends on the absorptive
         state.

Answer 52

b. It would decrease vitamin A.

Question 53

How would the BMR of a pregnant woman compare with her own BMR before she became pregnant?

a. higher when pregnant
b. lower when pregnant
c. no difference during pregnancy
d. depends on her pre-pregnancy weight

Answer 53

a. higher when pregnant

Question 54

What effect does vasoconstriction of peripheral blood vessels have on an individual’s body temperature on a hot day?

a. an increase in body temperature
b. a decrease in body temperature
c. no difference
d. depends on the individual’s hydration level

Answer 54

a. an increase in body temperature

Question 55

In cold conditions, how does blood flow change to restrict heat loss?

a. Blood is diverted to the skin to decrease 	 	    surface-to-volume ratio.
b. Heat transfer from warm blood in arteries 		    warms cooler venous blood.
c. Blood flows through the superficial venous 	    network.
d. Vasomotor centers are inhibited and 		    respiration increases in depth.

Answer 55

b. Heat transfer from warm blood in arteries warms cooler venous blood.

Question 56

Which of the following is a true statement?

a. Gluconeogenesis is the reverse biochemical process of glycolysis.
b. Glycogenesis will facilitate the storage of glucose in cells.
c. Gluconeogenesis uses amino acids and lactate ions to produce glycogen.
d. Both A and B are true.

Answer 56

b. Glycogenesis will facilitate the storage of glucose in cells.

Question 57

What is NOT true with regard to glycolysis?

a. It is an anaerobic process that occurs in the cytoplasm.
b. The first step of glycolysis phosphorylates glucose and traps it in the cell.
c. The breakdown of glucose can lead to lactic acid accumulation.
d. All of the above are correct.

Answer 57

d. All of the above are correct.

Question 58

What process in the liver increases after you have eaten a high-carbohydrate meal?

a. glycolysis
b. glycogenesis
c. lipolysis
d. beta-oxidation

Answer 58

b. glycogenesis

Question 59

In infants, the highly vascularized tissue between the shoulder blades is referred to as ______ fat and contains adipocytes that have many ______.

a. brown; nuclei
b. brown; mitochondria
c. tan; nuclei
d. tan; mitochondria

Answer 59

b. brown; mitochondria

Question 60

In training for competitive sports, what might increase athletic performance?

a. increased carbohydrates in the diet 3 days prior to an event
b. increased protein in the diet 3 days prior to the event
c. carbohydrate depletion/loading 3 days prior to the event
d. none of the above

Answer 60

a. increased carbohydrates in the diet 3 days prior to an event

Question 61

What happens during the process of transamination?

a. An amino group and hydrogen atom 	    are removed.
b. The toxic compound ammonium (NH4) 	    is created.
c. A keto acid is converted into an amino 	    acid that can leave the mitochondria.
d. The liver breaks down internal 		    proteins.

Answer 61

c. A keto acid is converted into an amino acid that can leave the mitochondria

Question 62

What is the composition of the filtrate in the capsular space?

a. like urine, only more concentrated
b. similar to water
c. like urine, only less concentrated
d. similar to plasma, only no proteins

Answer 62

d. similar to plasma, only no proteins

Question 63

What part of the nephron is involved with obligatory water, ion, and organic nutrient reabsorption?

a. PCT
b. DCT
c. glomerular capillaries
d. nephron loop

Answer 63

a. PCT

Question 64

Why don’t plasma proteins pass into the capsular space under normal circumstances?

a. Glomerular capillary pores are too small.
b. Glomerular blood pressure is too low.
c. Glomerular filtration rate is too low.
d. Glomerular blood flow is too slow.

Answer 64

a. Glomerular capillary pores are too small

Question 65

What is the major driving force behind filtrate production?

a. capsular hydrostatic pressure
b. the osmotic pressure of the blood
c. hydrostatic pressure in the afferent arteriole
d. hydrostatic pressure in the efferent arteriole

Answer 65

c. hydrostatic pressure in the afferent arteriole

Question 66

Why are glomerular pressures higher than pressure in other capillaries?

a. The efferent arteriole has a smaller diameter 	    than the afferent arteriole, increasing 	  		    resistance.
b. Sodium content of the filtrate increases 		    pressure.
c. E and NE cause increased glomerular 		    pressure.
d. The length of the afferent arteriole is longer 		    than the  efferent arteriole.

Answer 66

a. The efferent arteriole has a smaller diameter than the afferent arteriole, increasing resistance.

Question 67

What effect does renin have on the glomerular filtration rate (GFR)?

a. It will decrease the GFR and vasoconstrict the efferent arteriole.
b. It will increase the GFR and vasoconstrict the efferent arteriole.
c. It will raise the GFR and vasoconstrict the afferent arteriole.
d. None of the above are correct.

Answer 67

b. It will increase the GFR and vasoconstrict the efferent arteriole

Question 68

Why is the presence of microvilli important to the epithelial tissue of the PCT?

a. because most reabsorption occurs at 		    the PCT
b. because filtration is taking place
c. because secretion of toxins and ions are 	    actively secreted to waste at the PCT
d. because hormonally controlled 			    reabsorption of water and sodium     		    occurs in the PCT

Answer 68

a. because most reabsorption occurs at the PCT

Question 69

Why does the filtrate dilute all along the ascending loop?

a. A glycoprotein here restricts water from leaving the filtrate.
b. Water reabsorption has taken place at the descending loop.
c. Water channels allow it to mix with the filtrate.
d. None of the above are correct.

Answer 69

a. A glycoprotein here restricts water from leaving the filtrate

Question 70

A decrease in Na+ in the blood leads to an increase in blood pressure because:

a. it increases aldosterone secretion.
b. it increases renin production.
c. it increases ADH secretion.
d. All of the above are correct.

Answer 70

d. All of the above are correct

Question 71

Why does osmotic concentration decrease in the thick ascending limb of the nephron loop?

a. Urea is transported out of the tubule.
b. Na+ and CI– are actively transported out of the tubular fluid.
c. The thick ascending limb is permeable to water.
d. Both A and B are correct.

Answer 71

b. Na+ and CI– are actively transported out of the tubular fluid.

Question 72

Which structures exit at the hilum of the kidney?

a. renal artery and vein
b. renal ureters
c. renal capsule and renal sinus
d. both A and B

Answer 72

d. both A and B

Question 73

An obstruction of a ureter by a kidney stone limits the flow of urine between which two points?

a. ureter and urethra
b. renal medulla and renal pelvis
c. renal medulla and urethra
d. renal pelvis and urinary bladder

Answer 73

d. renal pelvis and urinary bladder

Question 74

The ability to control the micturition reflex depends on the ability to control which muscle?

a. urogenital diaphragm
b. internal urinary sphincter
c. external urinary sphincter
d. coccygeus

Answer 74

c. external urinary sphincter

Question 75

Mary has had a urinalysis that indicates a high level of bilirubin. What condition may she have?

a. liver disease
b. anorexia
c. ketonuria
d. renal infection

Answer 75

a. liver disease

Question 76

What effect does eating a high-protein diet have on the composition of urine?

a. increased urea
b. increased potassium
c. increased fluid volume
d. both A and C

Answer 76

d. both A and C

Question 77

Which portion of a nephron is NOT in the renal cortex?

a. proximal convoluted tubule
b. distal convoluted tubule
c. collecting duct
d. nephron loop

Answer 77

d. nephron loop

Question 78

Damage to which part of the nephron interferes with hormonal control of blood pressure?

a. Bowman’s capsule
b. juxtaglomerular apparatus
c. PCT
d. nephron loop

Answer 78

b. juxtaglomerular apparatus

Question 79

What event occurs when the plasma concentration of a substance exceeds its tubular maximum?

a. Glomerular blood pressure increases.
b. Filtration shuts down.
c. Excess is excreted in urine.
d. Glomerular osmotic pressure 			    decreases.

Answer 79

c. Excess is excreted in urine.

Question 80

How would the absence of juxtamedullary nephrons affect the volume of urine and its osmotic concentration?

a. decrease volume; decrease osmotic	    		    concentration
b. decrease volume; increase osmotic 			    concentration
c. increase volume; decrease osmotic 			    concentration
d. increase volume; increase osmotic 			    concentration

Answer 80

c. increase volume; decrease osmotic concentration

Question 81

The concentration of filtrate is greatest in _____. This is because ______.

a. the PCT; the PCT is where most reabsorption occurs
b. the bottom of the nephron loop; solutes are concentrated
c. the DCT; water diffuses out
d. the glomerulus; it has highest concentration of solutes

Answer 81

b. the bottom of the nephron loop; solutes are concentrated

Question 82

Where does urine production begin?

a. renal artery
b. minor calyces
c. nephron
d. collecting duct

Answer 82

c. nephron

Question 83

How are cortical and juxtamedullary nephrons structurally different?

a. Cortical nephrons are surrounded by 		    vasa recta.
b. Cortical nephrons have very short 		    PCTs.
c. Juxtamedullary nephrons have longer 	    nephron loops.
d. All of the above are correct.

Answer 83

c. Juxtamedullary nephrons have longer nephron loops.

Question 84

What effect does an increased amount of aldosterone have on K+ concentration of urine?

a. K+ Increases
b. K+ decreases
c. no effect
d. impossible to predict

Answer 84

a. K+ Increases

Question 85

All of the following EXCEPT _______ are effects of angiotensin II.

a. elevation of glomerular pressures and 	    GFR
b. inhibition of ADH release
c. elevation of arterial pressure throughout 	    the body
d. stimulation of Na+ reabsorption in the 		    DCT

Answer 85

b. inhibition of ADH release

Question 86

What is the role of the vasa recta in the urinary system?

a. increasing specific gravity of urine
b. increasing the osmotic concentration of 	    urine
c. returning water and solutes to general 	    circulation
d. cleansing blood before it re-enters 		    systemic circulation

Answer 86

c. returning water and solutes to general circulation

Question 87

What direct effect does sympathetic activation have on GFR?

a. produces powerful vasoconstriction of 	    the afferent arteriole
b. produces powerful vasoconstriction of 	    glomerular capillaries
c. produces dilation of the afferent arteriole
d. produces dilation of glomerular 			    capillaries and constriction of the 		    efferent arteriole

Answer 87

a. produces powerful vasoconstriction of the afferent arteriole

Question 88

Why are effects of diet more profound and immediate in infants compared with adults?

a. Infants’ energy sources and mineral reserves are smaller.
b. Infants have less body water, making fluid shifts more profound.
c. Infants have a much higher bicarbonate content in their ECF.
d. None of the above are correct

Answer 88

a. Infants’ energy sources and mineral reserves are smaller

Question 89

What is the primary cause of hypercalcemia?

a. hyperparathyroidism
b. excessive consumption of vitamin D supplements
c. chronic renal failure
d. alcoholism

Answer 89

a. hyperparathyroidism

Question 90

How does a prolonged fast affect the body’s pH?

a. pH increases after a fast
b. pH decreases after a fast
c. no effect on pH
d. impossible to predict

Answer 90

b. pH decreases after a fast

Question 91

What effect does a decrease in the pH of body fluids have on respiratory rate?

a. The respiratory rate increases.
b. The respiratory rate decreases.
c. The rate of respiration remains the same, but depth of respiration increases.
d. It is impossible to predict.

Answer 91

a. The respiratory rate increases

Question 92

Wayne’s cardiac muscle cells have been releasing ANP in response to overstretching of his heart walls. What is the effect of the release of ANP?

a. ANP release could cause a heart attack.
b. ANP blocks the release of ADH and aldosterone.
c. Water is conserved at the kidneys.
d. Blood volume and blood pressure increase.

Answer 92

b. ANP blocks the release of ADH and aldosterone.

Question 93

Which of the following are the primary ions present in ECF?

a. Na+, Cl–, and HCO3–
b. Na+, K+, Mg2+, and SO42–
c. Na+, K+, and HPO42–
d. none of the above

Answer 93

a. Na+, Cl–, and HCO3–

Question 94

Which of the following is NOT one of the processes essential to stabilizing body fluid volumes, solute concentration, or pH of the ECF?

a. fluid balance
b. acid–base balance
c. hormone balance
d. electrolyte balance

Answer 94

c. hormone balance

Question 95

If the osmotic concentration of ECF increases, which of the following happens?

a. ICF volume increases.
b. Metabolic generation of water decreases.
c. ECF becomes hypotonic to ICF.
d. Water moves from cells into ECF.

Answer 95

d. Water moves from cells into ECF.

Question 96

Why do homeostatic mechanisms that adjust composition of body fluids respond to changes in the ECF, rather that ICF?

a. The receptors monitoring electrolytes are only found in ECF.
b. A change in one ECF component rapidly affects all body cells.
c. ECF is contained within cells, which are physically and chemically isolated.
d. Both A and C are correct.

Answer 96

b. A change in one ECF component rapidly affects all body cells.

Question 97

Mr. Proctor has high blood pressure. As his physician, why do you counsel him to limit his intake of sodium?

a. Sodium causes ICF volume to increase and increased ADH secretion.
b. Sodium causes an increase in fat storage and increased ECF osmolarity.
c. Sodium causes an increase in blood volume and blood pressure, and decreased ADH secretion.
d. Sodium causes loss of other electrolytes and decreased blood volume.

Answer 97

c. Sodium causes an increase in blood volume and blood pressure, and decreased ADH secretion

Question 98

What situation would contribute to an acute episode of respiratory acidosis?

a. a drowning accident
b. the development of a lung tumor
c. cigarette smoking
d. chronic pulmonary obstruction disorder

Answer 98

a. a drowning accident

Question 99

Which of the following is true concerning metabolic generation of water?

a. Breaking down 1 g of lipid generates more water than breaking down 1 g of carbohydrate.
b. Metabolic generation of water is the result of overhydration.
c. Metabolic generation of water generates about 1200 mL per day.
d. Metabolic generation of water occurs when you lose water, but not electrolytes.

Answer 99

a. Breaking down 1 g of lipid generates more water than breaking down 1 g of carbohydrate.

Question 100

What is a possible reason for the development of metabolic acidosis?

a. strenuous exercise due to lactic acid accumulation
b. choking on food
c. diabetics who are noncompliant with their insulin
d. both A and C

Answer 100

d. both A and C

Question 101

What effect would drinking salt water have on the intracellular concentration?

a. The intracellular solute concentration would rise.
b. The intracellular solute concentration would decline.
c. no effect on water concentration in the cell
d. impossible to predict because of previous hydration level

Answer 101

a. The intracellular solute concentration would rise.

Question 102

What effect does drinking a pitcher of distilled water have on ADH secretion?

a. Secretion of ADH increases.
b. Secretion of ADH decreases.
c. Increased ADH secretion prompts secretion of renin in the kidney.
d. It is impossible to predict.

Answer 102

b. Secretion of ADH decreases.

Question 103

Although disturbances in _____ balance are more common, a disturbance in _____ balance is much more dangerous because of the effect on cardiac function.

a. sodium; potassium
b. potassium; sodium
c. calcium; sodium
d. potassium; magnesium

Answer 103

a. sodium; potassium

Question 104

Which hormone affecting electrolyte balance is responsible for determining the rate of Na+ absorption and K+ loss along the DCT?

a. the natriuretic peptides (ANP and BNP)
b. ADH
c. aldosterone
d. all of the above

Answer 104

c. aldosterone

Question 105

Which of the following is the major buffer system of the ECF?

a. phosphate buffer system
b. potassium buffer system
c. carbonic acid–bicarbonate buffer system
d. protein buffer system

Answer 105

c. carbonic acid–bicarbonate buffer system

Question 106

Which of the following is (are) true of the hemoglobin buffer system?

a. It is the only intracellular buffer system that has an immediate effect on the pH of ECF.
b. It helps prevent drastic changes in pH when plasma PCO2 is rising or falling.
c. It prevents changes in pH caused by organic acids and fixed acids in the ECF.
d. Both A and B are correct.

Answer 106

d. Both A and B are correct

Question 107

Why does the tubular fluid in nephrons need to be buffered?

a. Buffers allow for tubular modification of fluids.
b. Lacking buffers, the kidneys would secrete too much acid.
c. Buffers prevent increasing respiratory rate.
d. Buffers keep the pH high enough for H+ ion secretion to continue.

Answer 107

d. Buffers keep the pH high enough for H+ ion secretion to continue.

Question 108

Which of the following characteristics distinguishes a strong acid from a weak acid?

a. Weak acids dissociate completely in solution.
b. Weak acids have more profound effect on the pH of a solution.
c. Strong acids dissociate completely in solution.
d. Both A and B are correct.

Answer 108

c. Strong acids dissociate completely in solution.

Question 109

What is the effect of acidosis on the circulatory system?

a. cardiac arrhythmias
b. peripheral vasoconstriction and rise in BP
c. peripheral vasodilation and drop in BP
d. cardiomyopathy

Answer 109

c. peripheral vasodilation and drop in BP

Question 110

Hyperventilation produces which of the following effects?

a. respiratory alkalosis
b. respiratory acidosis
c. metabolic alkalosis
d. metabolic acidosis

Answer 110

a. respiratory alkalosis

Question 111

What change in an elderly person’s body contributes to poor acid–base balance?

a. reduction in ability to concentrate urine
b. reduction in total body water content
c. reduction in GFR and reduction in number of functional nephrons
d. reduction in ADH and aldosterone sensitivity

Answer 111

c. reduction in GFR and reduction in number of functional nephrons

Question 112

Why can prolonged vomiting produce metabolic alkalosis, while prolonged diarrhea produces metabolic acidosis?

a. Diarrhea causes loss of HCO3– in the ECF, while vomiting causes increase of HCO3– in the ECF.
b. Diarrhea causes H+ ions to be replenished from bloodstream, while vomiting generates HCl.
c. Both A and B are correct.
d. None of the above is correct.

Answer 112

a. Diarrhea causes loss of HCO3– in the ECF, while vomiting causes increase of HCO3– in the ECF.

Question 113

During an asthma attack, Kristen’s bronchioles constrict, reducing pulmonary exchange. Which of the following scenarios will result?

a. increased breathing rate, increased plasma pH, and metabolic acidosis
b. decreased breathing rate, increased plasma pH, and hypocapnia
c. decreased breathing rate, increased plasma pH, and respiratory alkalosis
d. increased breathing rate, decreased plasma pH, and hypercapnia

Answer 113

d. increased breathing rate, decreased plasma pH, and hypercapnia