Renal - Physiology

Question 1

Elevated parathyroid hormone increases exchange of calcium and what other ion between cell and blood? How does this affect uptake of calcium from the lumen?

Answer 1

Sodium

increased exchange reduces intracellular calcium and allows more luminal calcium to be reabsorbed

Question 2

Hydrochlorothiazide inhibits the active reabsorption of which ions from the lumen? How does this affect tonicity of the urine?

Answer 2

The absorption of sodium and chloride helps to make the urine hypotonic; inhibition of this process makes the urine more hypertonic

Question 3

In Gitelman syndrome, early distal convoluted tubules do not actively reabsorb which ions?. How does this affect reabsorption of calcium?

Answer 3

Sodium and Chloride

More reabsorption; less intracellular Na+from less pumping increases Na+/Ca2+exchanger activity, increasing Ca2+reabsorption

Question 4

Nonwater mass comprises _____% of total body weight (in kilograms), while total body water (in liters) makes up _____% of total body weight.

Answer 4

40% nonwater mass; 60% total body water

Question 5

What fraction of total body water is extracellular vs intracellular fluid?

Answer 5

One third extracellular fluid, two thirds intracellular fluid

Question 6

What fraction of the extracellular fluid is plasma volume vs interstitial volume?

Answer 6

One fourth plasma volume, three fourths interstitial volume

Question 7

What substance is used to measure plasma volume?

Answer 7

Radiolabeled albumin

Question 8

What substance is used to measure extracellular volume?

Answer 8

Inulin

Question 9

What is the 60-40-20 rule of body weight?

Answer 9

60% of total body weight is made up of total body water, 40% is made up of intracellular fluid, and 20% is made up of extracellular fluid

Question 10

What is the normal value for plasma osmolarity?

Answer 10

290 mOsm

Question 11

Extracellular fluid consists of _____ (high/low) sodium chloride and _____ (high/low) potassium, whereas intracellular fluid consists of _____ (high/low) sodium chloride and _____ (high/low) potassium.

Answer 11

High; low; low; high (remember: HIKIN’: HIgh K INtracellular)

Question 12

What are the two characteristics on which the glomerular barrier bases plasma filtration?

Answer 12

Size and net charge of plasma molecules

Question 13

The fenestrated capillary endothelium of the glomerular filtration barrier is responsible for the filtration of plasma by what characteristic, size or charge?

Answer 13

Size

Question 14

The fused basement membrane of the glomerulus containing heparan sulfate is responsible for the filtration of plasma molecules by which characteristic, size or charge?

Answer 14

Net charge

Question 15

What kind of charge does heparan sulfate have?

Answer 15

Negative; as a result, negatively charged proteins are kept in plasma

Question 16

The epithelial layer of the glomerular filtration barrier is formed by which cells?

Answer 16

Podocyte foot processes

Question 17

What are the three components of the glomerular filtration barrier?

Answer 17

Fenestrated capillary endothelium (size barrier), fused basement membrane with heparan sulfate (negative charge barrier), and epithelial layer that consists of podocyte foot processes

Question 18

Albuminuria, hypoproteinemia, generalized edema, and hyperlipidemia are hallmarks of what syndrome?

Answer 18

Nephrotic syndrome; resulting from loss of the charge barrier in the glomeruli

Question 19

What is the formula for calculating the clearance of substance x, the volume of plasma from which the substance is cleared completely per unit of time?

Answer 19

Renal clearance of x = the urine concentration of x times the urine flow rate divided by the plasma concentration of x (Cx = Ux × V/Px)

Question 20

If renal clearance is less than the glomerular filtration rate of substance x, then there is net tubular _____ (reabsorption/secretion) of x.

Answer 20

Reabsorption

Question 21

If renal clearance is greater than the glomerular filtration rate of substance x, then there is a net tubular _____ (reabsorption/secretion) of x.

Answer 21

Secretion

Question 22

Why is para-aminohippurate used to estimate renal plasma flow?

Answer 22

Para-aminohippurate is actively secreted from the proximal tubule into the urine; the concentration of para-aminohippurate in the renal vein is zero

Question 23

The clearance of what substance is used to estimate renal plasma flow?

Answer 23

Para-aminohippurate

Question 24

What is the formula for estimating the effective renal plasma flow using para-aminohippuric acid?

Answer 24

Effective renal plasma flow = urine concentration of para-aminohippuric acid times the urine flow rate divided by the plasma concentration of para-aminohippuric acid (UPAH × V/PPAH)

Question 25

What is the formula for estimating renal blood flow if renal plasma flow is known?

Answer 25

Renal blood flow = renal plasma flow divided by (1 - the hematocrit), or RBF = RPF/(1 - Hct); in a normal individual, renal blood flow will be approximately double the renal plasma flow

Question 26

Effective renal plasma flow _____ (over-/under-) estimates true renal plasma flow by approximately _____%.

Answer 26

Under; 10; it is an underestimate because 10% of renal blood flow perfuses the kidney parenchyma rather than being filtered through the glomerulus

Question 27

How is the filtration fraction for a molecule determined?

Answer 27

By determining the ratio of the glomerular filtration rate to renal plasma flow

Question 28

What are the effects of prostaglandins on the glomerulus?

Answer 28

Prostaglandins cause dilation of the afferent arteriole and an increased glomerular filtration rate

Question 29

What are the effects of angiotensin II on the glomerulus?

Answer 29

Angiotensin II causes constriction of the efferent arteriole and increased glomerular filtration rate

Question 30

What type of drug blocks the effect of prostaglandins on the afferent arteriole?

Answer 30

Nonsteroidal antiinflammatory drugs

Question 31

What type of drug blocks the effect of angiotensin II on the efferent arteriole?

Answer 31

Angiotensin-converting enzyme inhibitors

Question 32

Prostaglandins cause a(n) _____ (decrease/increase) in renal plasma flow, a(n) _____ (decrease/increase) in glomerular filtration rate, and a _____ (constant/decreased/increased) filtration fraction.

Answer 32

Increase; increase; constant

Question 33

In terms of filtration in the glomerulus, the filtered load is equal to the glomerular filtration rate multiplied by what?

Answer 33

The plasma concentration

Question 34

Angiotensin II causes a(n) _____ (decrease/increase) in renal plasma flow, a(n) _____ (decrease/increase) in glomerular filtration rate, and a _____ (constant/decreased/increased) filtration fraction.

Answer 34

Decrease; increase; increased

Question 35

What is the path of blood flow leading to the afferent arteriole?

Answer 35

Renal artery to interlobar artery to interlobular artery to afferent arteriole

Question 36

What is the path of vasculature coming from the efferent arteriole?

Answer 36

Efferent arteriole to vasa recta to interlobular vein to interlobar vein to renal vein

Question 37

Constriction of the afferent arteriole causes _____ (decrease/increase/no change) in renal plasma flow and _____ (decrease/increase/no change) in glomerular filtration rate, which in turn results in _____ (decrease/increase/no change) in the filtration fraction.

Answer 37

Decrease; decrease; no change

Question 38

Constriction of the efferent arteriole causes _____ (decrease/increase/no change) in renal plasma flow and _____ (decrease/increase/no change) in glomerular filtration rate, which in turn results in _____ (decrease/increase/no change) in the filtration fraction.

Answer 38

Decrease; increase; increase

Question 39

Increased plasma protein concentration causes _____ (decrease/increase/no change) in renal plasma flow and _____ (decrease/increase/no change) in glomerular filtration rate, which in turn results in _____ (decrease/increase/no change) in the filtration fraction.

Answer 39

No change; decrease; decrease

Question 40

Decreased plasma protein concentration causes _____ (decrease/increase/no change) in renal plasma flow and _____ (decrease/increase/no change) in glomerular filtration rate, which in turn results in _____ (decrease/increase/no change) in the filtration fraction.

Answer 40

No change; increase; increase

Question 41

Constriction of the ureter causes _____ (decrease/increase/no change) in renal plasma flow and _____ (decrease/increase/no change) in glomerular filtration rate, which in turn results in _____ (decrease/increase/no change) in the filtration fraction.

Answer 41

No change; decrease; decrease

Question 42

How is free water clearance calculated?

Answer 42

Free water clearance = urine flow rate minus the osmolar clearance (V - Cosm)

Question 43

As part of the free water clearance calculation, how is the total clearance of osmoles calculated?

Answer 43

Osmolar clearance = urine osmolarity times the urine flow rate divided by plasma osmolarity (Cosm = UosmV/Posm)

Question 44

What is free water clearance?

Answer 44

A measure of the kidney’s ability to dilute urine

Question 45

In the presence of antidiuretic hormone, free water clearance is _____ (greater than/less than/equal to) zero.

Answer 45

Less than (water is retained)

Question 46

In the absence of antidiuretic hormone, free water clearance is _____ (greater than/less than/equal to) zero.

Answer 46

Greater than; the body has net loss of water relative to osmoles

Question 47

What is the free water clearance equal to in isotonic urine?

Answer 47

Zero; isotonic urine is seen with use of loop diuretics

Question 48

What is the formula for filtered load?

Answer 48

Filtered load = glomerular filtration rate × Px; where Px is the plasma concentration of x

Question 49

What is the formula for excretion rate?

Answer 49

Excretion rate = V × Ux; where V is the urine flow rate and Ux is the urine concentration of x

Question 50

What is the formula for the amount of a substance reabsorbed in the kidneys?

Answer 50

Reabsorption = filtered - excreted

Question 51

What is the formula for the amount of a substance secreted by the kidneys?

Answer 51

Secretion = excreted - filtered

Question 52

In the nephron, glucose at normal plasma concentrations is reabsorbed in which structure? By which transporter?

Answer 52

Glucose is reabsorbed in the proximal tubule by sodium/glucose cotransport

Question 53

At normal plasma glucose concentrations, how does the proximal tubule handle glucose in the urine?

Answer 53

Glucose is completely reabsorbed from the urine

Question 54

When plasma glucose levels exceed 200 mg/dL, what finding may result on urinalysis?

Answer 54

Glucosuria; due to inability of the glucose reabsorption mechanism of the proximal tubule to deal with the filtered load of urine glucose

Question 55

Glucosuria is an important clinical clue to what condition?

Answer 55

Diabetes mellitus

Question 56

At what concentration of plasma glucose is the transport mechanism of the proximal tubule completely saturated?

Answer 56

350 mg/dL

Question 57

How and where are amino acids reabsorbed in the kidney?

Answer 57

Amino acids are filtered and then reabsorbed from the urine at the level of the proximal tubule by three distinct sodium-dependent transporters with competitive inhibition within each group

Question 58

What is Hartnup’s disease?

Answer 58

Deficiency of neutral amino acid (tryptophan) transporter, resulting in pellagra due to niacin deficiency

Question 59

What substance is secreted into the lumen of the early proximal convoluted tubule of the kidney nephron and acts as a buffer for hydrogen ions?

Answer 59

Ammonia

Question 60

In the thin descending loop of Henle, water is passively reabsorbed, because the tonicity of the medulla is _____.

Answer 60

Hypertonic

Question 61

The thin descending loop of Henle in a kidney nephron is permeable to _____ (sodium/water) but not to _____ (sodium/water).

Answer 61

Water; sodium

Question 62

Does the thin descending loop of Henle reabsorb water passively or actively?

Answer 62

Passively

Question 63

Which three ions are actively reabsorbed in the thick ascending loop of Henle of a kidney nephron?

Answer 63

Sodium, potassium, and chloride

Question 64

In the thick ascending loop of Henle of a kidney nephron, which two ions are indirectly reabsorbed as a result of the active reabsorption of sodium, potassium, and chloride?

Answer 64

Magnesium and calcium

Question 65

The thin descending loop of Henle is _____ (impermeable/permeable) to water, whereas the thick ascending loop of Henle is _____ (impermeable/permeable) to water.

Answer 65

Permeable; impermeable

Question 66

What two ions are actively reabsorbed in the early distal convoluted tubule of a kidney nephron?

Answer 66

Sodium and chloride

Question 67

Which hormone controls the reabsorption of calcium in the early distal convoluted tubule of a kidney nephron?

Answer 67

Parathyroid hormone

Question 68

In the collecting tubule of a kidney nephron, which ion is reabsorbed in exchange for secreting potassium or hydrogen ion?

Answer 68

Sodium

Question 69

Which segment of the kidney nephron does the hormone aldosterone act on?

Answer 69

The collecting tubules

Question 70

Which segment of the kidney nephron does the hormone antidiuretic hormone (vasopressin) act on?

Answer 70

The collecting tubules

Question 71

Sodium/potassium exchange and sodium/hydrogen exchange in the collecting tubule of a kidney nephron is regulated by which hormone?

Answer 71

Aldosterone

Question 72

The reabsorption of water in the collecting tubule of a kidney nephron is regulated by which hormone?

Answer 72

Antidiuretic hormone (vasopressin)

Question 73

What type of cell in the collecting tubule of a kidney nephron is responsible for sodium/potassium exchange and the reabsorption of water?

Answer 73

The principal cell

Question 74

On what type of cell in the collecting tubule of a kidney nephron is the vasopressin receptor of the V2 type located?

Answer 74

The principal cell

Question 75

Is the reabsorption in the early proximal tubule hypertonic, isotonic, or hypotonic?

Answer 75

Isotonic

Question 76

Does the thin descending loop of Henle make the urine in the tubule hypertonic, isotonic, or hypotonic?

Answer 76

Hypertonic

Question 77

Is the thick ascending limb of the loop of Henle a concentrating or a diluting segment?

Answer 77

Diluting

Question 78

Does the thick ascending limb of the loop of Henle make the urine hypotonic, isotonic, or hypertonic?

Answer 78

Hypotonic

Question 79

Is the early distal convoluted tubule a concentrating or a diluting segment?

Answer 79

Diluting

Question 80

Does the early distal convoluted tubule make the urine hypotonic, isotonic, or hypertonic?

Answer 80

Hypotonic

Question 81

Antidiuretic hormone action at V2 receptors results in what action?

Answer 81

Insertion of aquaporin water channels on the luminal side of the collecting tubules resulting in increased water reabsorption

Question 82

What substances are reabsorbed in the early proximal convoluted tubule?

Answer 82

Glucose, amino acids, bicarbonate, sodium, chloride, and water

Question 83

What does angiotensin II do in the early proximal convoluted tubule?

Answer 83

Angiotensin II stimulates the sodium/hydrogen ion exchange, causing increased sodium and water reabsorption, thereby permitting contraction alkalosis

Question 84

How does parathyroid hormone increase phosphate excretion in the kidney?

Answer 84

It inhibits Na+/phosphate cotransport in the proximal tubule

Question 85

The ratio of solute concentration in the tubular fluid vs plasma (TF/P) can indicate the level of secretion or reabsorption of that solute along the proximal renal tubule. If the TF/P ratio of that solute is less than that of inulin, there is net _____ (reabsorption/secretion) along the proximal tubule.

Answer 85

Reabsorption

Question 86

Which exogenous substance filtered at the glomerulus quickly increases in concentration along the proximal tubule because there is net secretion?

Answer 86

Para-aminohippurate

Question 87

Along the length of the proximal tubule, does the relative concentration of chloride increase, decrease, or stay the same?

Answer 87

Increases; chloride is reabsorbed distally in the nephron

Question 88

The ratio of solute concentration in the tubular fluid vs plasma (TF/P) can indicate the level of secretion or reabsorption of that solute along the proximal renal tubule. Because the TF/P ratio of chloride, potassium, sodium, phosphate, bicarbonate, amino acids, and glucose is less than that of inulin, there is net _____ (reabsorption/secretion) along the proximal tubule.

Answer 88

Reabsorption

Question 89

The concentration of amino acids in urine along the length of the proximal tubule decreases; therefore, there is _____ (net reabsorption/net secretion/balanced reabsorption and secretion).

Answer 89

Net reabsorption; amino acids are entirely reabsorbed within the proximal tubule

Question 90

The concentration of sodium ion along the length of the proximal tubule remains constant; therefore, there is _____ (net reabsorption/net secretion/balanced reabsorption and secretion).

Answer 90

Net reabsorption

Question 91

Reabsorption of which electrolyte drives water reabsorption, thus nearly matching total osmolarity throughout the length of the proximal tubule?

Answer 91

Sodium

Question 92

The concentration of bicarbonate along the length of the proximal tubule decreases; therefore, there is _____ (net reabsorption/net secretion/balanced reabsorption and secretion).

Answer 92

Net reabsorption; bicarbonate is reabsorbed more avidly than most other ions

Question 93

Along the length of the proximal tubule, does the concentration of inulin increase, decrease, or stay the same as water is reabsorbed?

Answer 93

Increases, because there is no net secretion or reabsorption of inulin

Question 94

What five actions of angiotensin II serve to increase intravascular volume and blood pressure?

Answer 94

Vasoconstriction, stimulation of sodium resorption in the proximal tubule, the release of aldosterone from the adrenal cortex, the release of antidiuretic hormone from the posterior pituitary, and the stimulation of thirst via the hypothalamus

Question 95

What is the physiologic function of renin?

Answer 95

Renin cleaves angiotensinogen from the liver into angiotensin I

Question 96

What is the site of action of angiotensin-converting enzyme?

Answer 96

The lungs

Question 97

Angiotensin I is cleaved to angiotensin II by what enzyme?

Answer 97

Angiotensin-converting enzyme; the reaction occurs in the lungs

Question 98

One action of angiotensin II is to stimulate the release of aldosterone from which organ?

Answer 98

The adrenal cortex

Question 99

When blood pressure drops, what proteolytic enzyme is released by the kidneys?

Answer 99

Renin

Question 100

Antidiuretic hormone primarily regulates _____ (osmolarity/blood volume), while aldosterone primarily regulates _____ (osmolarity/blood volume). However, in _____ (low/high) volume states, both antidiuretic hormone and aldosterone act to protect _____ (osmolarity/blood volume).

Answer 100

Osmolarity; blood volume; low; blood volume

Question 101

One action of angiotensin II is to stimulate the release of antidiuretic hormone from which gland?

Answer 101

The posterior pituitary

Question 102

What hormone, which is released from the atria, may act as a “check” on the renin-angiotensin system to prevent volume overload?

Answer 102

Atrial natriuretic peptide

Question 103

What are the effects of aldosterone secretion?

Answer 103

Aldosterone secretion from the adrenal cortex increases sodium channel and sodium/potassium pump insertion in principal cells and enhances potassium and hydrogen excretion by upregulating potassium channels in the principal cells and hydrogen ion channels in the intercalated cells. These actions create a favorable gradient for sodium and water reabsorption

Question 104

Atrial natriuretic peptide _____ (decreases/increases) renin secretion and _____ (decreases/increases) the glomerular filtration rate.

Answer 104

Decreases; increases

Question 105

Juxtaglomerular apparatus cells are modified cells of what type?

Answer 105

Smooth muscle

Question 106

What stimulates the macula densa of the nephron leading to release of renin?

Answer 106

Decreased sodium delivery to the macula densa cells

Question 107

What is the name of the cell type that produces renin in the kidney?

Answer 107

Juxtaglomerular cells

Question 108

Which hormone in the renin-angiotensin-aldosterone system alters baroreceptor response to prevent reflex bradycardia?

Answer 108

Angiotensin II; otherwise, the increase in blood pressure caused by angiotensin II would lead to a slower heart rate

Question 109

Juxtaglomerular cells, which are components of the juxtaglomerular apparatus, are modified smooth muscle cells of what arteriole of the glomerular vasculature?

Answer 109

The afferent arteriole

Question 110

What two components are part of the juxtaglomerular apparatus of the kidney?

Answer 110

Juxtaglomerular cells and macula densa

Question 111

The macula densa, which is a component of the juxtaglomerular apparatus, senses levels of which ion?

Answer 111

Sodium

Question 112

The macula densa, which is a component of the juxtaglomerular apparatus, is part of what section of the kidney nephron?

Answer 112

The distal convoluted tubule

Question 113

What are three triggers of renin release by the juxtaglomerular cells?

Answer 113

Decrease in renal blood pressure, decrease in sodium delivery to the distal tubule, and increase in sympathetic tone

Question 114

What are the results of renin release by the juxtaglomerular cells?

Answer 114

Angiotensin II and aldosterone levels increase, leading to increased circulating volume and blood pressure

Question 115

By what mechanism does the juxtaglomerular apparatus maintain and regulate the glomerular filtration rate?

Answer 115

Via the renin-angiotensin system

Question 116

What enzyme is released by the juxtaglomerular cells in response to decreased renal arterial pressure and increased renal sympathetic discharge (β1effect)?

Answer 116

Renin

Question 117

What hormone is released by the endothelial cells of renal peritubular capillaries in response to hypoxia?

Answer 117

Erythropoietin

Question 118

What enzyme from the kidney is activated by parathyroid hormone and what is the function of that enzyme?

Answer 118

1α-Hydroxylase, which converts 25-OH vitamin D to 1,25(OH)2vitamin D

Question 119

What effect do prostaglandins have on glomerular filtration rate?

Answer 119

They increase glomerular filtration rate by dilating the afferent arteriole

Question 120

What class of drugs can cause acute renal failure by inhibiting the renal production of prostaglandins?

Answer 120

Nonsteroidal antiinflammatory drugs

Question 121

122

What is the effect of nonsteroidal antiinflammatory drugs on the afferent arteriole of the kidney glomerulus?

Answer 121

Prevention of the vasodilation of the afferent arteriole by prostaglandins, reducing the glomerular filtration rate

Question 122

What are the direct and indirect effects of parathyroid hormone on the kidneys?

Answer 122

Parathyroid hormone directly acts on the kidney to increase renal calcium reabsorption and decrease renal phosphate reabsorption; it acts indirectly by stimulating the proximal tubule cells to make 1,25(OH)2 vitamin D, which increases the intestinal absorption of both calcium and phosphate

Question 123

Name four key hormones/enzymes released by the kidney that contribute to its endocrine function.

Answer 123

Erythropoietin, 1α-hydroxylase, renin, and prostaglandins

Question 124

Which cells of the collecting tubules have antidiuretic hormone receptors?

Answer 124

The principal cells

Question 125

What is the effect of atrial natriuretic peptide on the kidney’s glomerular filtration rate and sodium excretion?

Answer 125

It increases both the glomerular filtration rate and sodium filtration, with no compensatory sodium reabsorption in the distal nephron to lower volume

Question 126

On what segment of the kidney nephron does aldosterone exert its effects?

Answer 126

The distal convoluted tubule

Question 127

Which hormone is secreted by the parathyroid gland in response to a decrease in plasma calcium?

Answer 127

Parathyroid hormone

Question 128

Parathyroid hormone increases serum calcium levels by acting on which two target organs?

Answer 128

Kidney and bone

Question 129

On what segments of the kidney nephron does parathyroid hormone exert its effects?

Answer 129

The proximal and distal convoluted tubules, increasing calcium reabsorption and phosphate secretion

Question 130

Which vitamin does parathyroid hormone stimulate conversion of to an active form and what is the effect of this vitamin on the gut?

Answer 130

1,25(OH)2 vitamin D, which increases both calcium and PO43- absorption from the gut

Question 131

What is the effect of angiotensin II on the glomerular filtration rate and thus the filtration fraction?

Answer 131

Angiotensin II increases the glomerular filtration rate and filtration fraction by increasing the vasoconstriction of the efferent arteriole; there is a compensatory increase in sodium reabsorption in the proximal and distal nephron

Question 132

What hormone is secreted by the pituitary in response to increased plasma osmolarity?

Answer 132

Antidiuretic hormone (vasopressin)

Question 133

Which hormone is secreted by the adrenal cortex in response to decreased blood volume (via angiotensin II) and increased plasma potassium?

Answer 133

Aldosterone

Question 134

What effect does antidiuretic hormone have on the number of water channels and thus reabsorption of water in the collecting tubule of a kidney nephron?

Answer 134

Antidiuretic hormone increases the number of water channels and thus increases water reabsorption

Question 135

What are the effects of aldosterone on the kidney?

Answer 135

Aldosterone increases sodium reabsorption, indirectly increases potassium secretion, and increases hydrogen ion secretion

Question 136

How does angiotensin II help to decrease additional volume loss in low-volume states?

Answer 136

By increasing glomerular filtration rate and filtration fraction, via constriction of the efferent arteriole, while simultaneously increasing sodium reabsorption proximally and distally

Question 137

Name six things that can cause hyperkalemia by causing a shift of potassium out of cells.

Answer 137

Insulin deficiency, β-blockers, acidosis, hyperosmolarity, digitalis, and cell lysis

Question 138

Name four things that can cause hypokalemia by causing a shift of potassium into cells.

Answer 138

Insulin, β-agonists, alkalosis, and hypo-osmolarity

Question 139

By what mechanism does insulin cause potassium shifts across cellular membranes?

Answer 139

Insulin stimulates the sodium-potassium adenosine triphosphatase pump to pump potassium into the cell in exchange for sodium out of the cell

Question 140

By what mechanism does stimulation of the β-adrenergic system cause hypokalemia?

Answer 140

By stimulating the sodium-potassium adenosine triphosphatase pump to pump potassium into the cell in exchange for sodium out of the cell

Question 141

By what mechanism does acidosis or alkalosis cause potassium shifts out of or into the cell, respectively?

Answer 141

Changes in pH alter the activity of the K+/H+ exchanger; in acidosis (high H+ concentration), H+ is sequestered in cells in exchange for K+, increasing serum K+ concentrations; the opposite occurs with alkalosis

Question 142

By what mechanism does digitalis cause hyperkalemia?

Answer 142

Digitalis blocks the sodium-potassium adenosine triphosphatase pump from pumping potassium into the cell in exchange for sodium, thus leaving the potassium outside of the cell

Question 143

In the state of respiratory acidosis, the renal compensatory response has what effect on serum bicarbonate?

Answer 143

Bicarbonate levels increase in serum

Question 144

What is the primary electrolyte disturbance in metabolic acidosis?

Answer 144

Decreased serum bicarbonate

Question 145

What is the compensatory respiratory response to metabolic acidosis and in what direction does partial pressure of carbon dioxide change?

Answer 145

Hyperventilation, which causes the partial pressure of carbon dioxide to decrease

Question 146

What is the primary electrolyte disturbance in metabolic alkalosis?

Answer 146

Increased serum bicarbonate

Question 147

What is the compensatory respiratory response to metabolic alkalosis and in what direction does partial pressure of carbon dioxide change?

Answer 147

Hypoventilation, which causes the partial pressure of carbon dioxide to increase

Question 148

What is the primary electrolyte disturbance in respiratory acidosis?

Answer 148

Increased partial pressure of carbon dioxide

Question 149

In the state of respiratory alkalosis, in what direction does bicarbonate change as a result of a compensatory response?

Answer 149

Bicarbonate decreases

Question 150

What is the primary electrolyte disturbance in respiratory alkalosis?

Answer 150

Decreased partial pressure of carbon dioxide

Question 151

Using the Henderson-Hasselbach equation, what can be calculated if bicarbonate and partial pressure of carbon dioxide are known?

Answer 151

pH, because pH = pKa + log (bicarbonate / [0.03] partial pressure of carbon dioxide)

Question 152

In metabolic acidosis, a reduction in bicarbonate is the primary disturbance. How is the expected compensatory change in partial pressure of carbon dioxide calculated?

Answer 152

Winter’s formula: partial pressure of carbon dioxide = 1.5(bicarbonate) + 8 ± 2

Question 153

To compensate, PCO2 _____ (decreases/increases) by _____ mmHg for every 1 mEq/L increase in HCO3-.

Answer 153

Increases; 0.7; 1

Question 154

What is the formula for calculating the anion gap?

Answer 154

Anion gap = sodium - (chloride + bicarbonate)

Question 155

Acidemia is defined by an arterial pH value that is _____ (greater than/less than/equal to) 7.4, and alkalemia is defined by an arterial pH value that is _____ (greater than/less than/equal to) 7.4.

Answer 155

Less than; greater than

Question 156

What primary acid-base disturbance is present when the arterial pH is <7.4 and the partial pressure of carbon dioxide level is <40 mmHg?

Answer 156

Metabolic acidosis

Question 157

What is the differential diagnosis for a non-anion gap metabolic acidosis?

Answer 157

Diarrhoea, glue sniffing, renal tubular acidosis, and hyperchloremia

Question 158

Hypoventilation can lead to which state of acid-base imbalance?

Answer 158

Respiratory acidosis

Question 159

What mechanisms or disease states can lead to respiratory acidosis?

Answer 159

Airway obstruction, acute or chronic lung disease, opioids, narcotics, sedatives, and the weakening of respiratory muscles

Question 160

What primary acid-base disturbance is present when the arterial pH is <7.4 and the partial pressure of carbon dioxide level is >40 mmHg?

Answer 160

Respiratory acidosis

Question 161

What are the possible causes of metabolic acidosis with an anion gap?

Answer 161

Methanol, Uremia, Diabetic ketoacidosis, Paraldehyde/phenformin, Iron tablets/Isoniazid, Lactic acidosis, Ethylene glycol, and Salicylates (remember: MUD PILES)

Question 162

A normal anion gap falls into what range of values?

Answer 162

8-12 mEq/L

Question 163

What primary acid-base disturbance is present when the arterial pH is > 7.4 and the partial pressure of carbon dioxide level is<40 mmHg?

Answer 163

Respiratory alkalosis

Question 164

What is the primary acid-base disturbance when the arterial pH is > 7.4 and the partial pressure of carbon dioxide level is > 40 mmHg?

Answer 164

Metabolic alkalosis

Question 165

Hyperventilation, seen early in high-altitude exposure, can lead to a _____ (respiratory/metabolic) _____ (acidosis/alkalosis).

Answer 165

Respiratory, alkalosis

Question 166

If the arterial pH is > 7.5 and the partial pressure of carbon dioxide is > 40 mmHg, which acid/base compensatory mechanism is in use?

Answer 166

Respiratory compensation (hypoventilation to increase carbon dioxide)

Question 167

What type of acid-base disturbance does aspirin overdose initially lead to? As the aspirin is metabolized, what type of acid-base disturbance does it become?

Answer 167

Respiratory alkalosis initially, then metabolic acidosis

Question 168

What are four causes of metabolic alkalosis?

Answer 168

Vomiting, diuretic or antacid use, and hyperaldosteronism

Question 169

In type 4 renal tubular acidosis, there is hypoaldosteronism leading to hyperkalemia, which causes inhibition of _____ excretion.

Answer 169

Ammonia

Question 170

In type 1 renal tubular acidosis, there is a defect in the hydrogen ion pump, leading to a failure to _____ (acidify/alkalinize) urine.

Answer 170

Acidify; as a result, the body’s pH decreases

Question 171

In type 2 renal tubular acidosis, there is a failure to reabsorb _____.

Answer 171

Bicarbonate

Question 172

Which two types of renal tubular acidosis are associated with hypokalemia?

Answer 172

Type 1 and type 2

Question 173

Which type of renal tubular acidosis is characterized by a defect in the hydrogen pump, type 1, 2, or 4?

Answer 173

Type 1

Question 174

Which type of renal tubular acidosis is characterized by the inhibition of ammonia excretion, type 1, 2, or 4?

Answer 174

Type 4

Question 175

Which type of renal tubular acidosis is a defect of the collecting tubules?

Answer 175

Type 1; the collecting tubules cannot secrete H+ ions

Question 176

Which type of renal tubular acidosis is characterized by renal loss of bicarbonate, type 1, 2, or 4?

Answer 176

Type 2

Question 177

If a patient had a slightly elevated blood pH, a low plasma bicarbonate level, and a slightly low blood hydrogen ion level, what acid-base disturbance would be present?

Answer 177

Chronic respiratory alkalosis

Question 178

If a patient had a high blood pH, a slightly low plasma bicarbonate level, and a very low blood hydrogen ion level, what acid-base disturbance would be present?

Answer 178

Acute respiratory alkalosis

Question 179

If a patient had a low blood pH, a low plasma bicarbonate level, and a high blood hydrogen ion level, what acid-base disturbance would be present?

Answer 179

Metabolic acidosis

Question 180

If a patient had a low blood pH, a slightly elevated plasma bicarbonate level, and a high blood hydrogen ion level, what acid-base disturbance would be present?

Answer 180

Acute respiratory acidosis

Question 181

If a patient had slightly low blood pH, a high plasma bicarbonate level, and a slightly elevated blood hydrogen ion level, what acid-base disturbance would be present?

Answer 181

Chronic respiratory acidosis

Question 182

If a patient had high blood pH, a high plasma bicarbonate level, and a low blood hydrogen ion level, what acid-base disturbance would be present?

Answer 182

Metabolic alkalosis

Question 183

If a patient has a pH of 7.33, a plasma bicarbonate of 12, and a partial pressure of carbon dioxide of 21, that patient has a _____ (compensated/uncompensated) metabolic _____ (acidosis/alkalosis).

Answer 183

Compensated; acidosis

Question 184

If a patient has a pH of 7.18, a plasma bicarbonate of 14, and a partial pressure of carbon dioxide of 40, that patient has a _____ (compensated/uncompensated) metabolic _____ (acidosis/alkalosis).

Answer 184

Uncompensated; acidosis

Question 185

If a patient has a pH of 7.50, a plasma bicarbonate of 31, and a partial pressure of carbon dioxide of 40, that patient has a _____ (compensated/uncompensated) metabolic _____ (acidosis/alkalosis).

Answer 185

Uncompensated; alkalosis

Question 186

If a patient has a pH of 7.40, a plasma bicarbonate of 32, and a partial pressure of carbon dioxide of 48, that patient has a _____ (compensated/uncompensated) metabolic _____ (acidosis/alkalosis).

Answer 186

Compensated; alkalosis