Tubules- Physiology

Question 1

This is the pathways of water and solutes when they are transported through both the apical and basolateral membranes of a cell.

Answer 1

Transcellular pathway

Question 2

This is the pathway of water solutes when it is transported through the junctional spaces between the cells.

Answer 2

Paracellular pathway

Question 3

This is the term for when once the water and solutes are in the interstitial fluid, they are transported all the way through the peritubular capillary walls into the blood by ultrafiltration.

Answer 3

Bulk flow

Question 4

This is the use of specific ATPase transporters to move substances against an electrochemical gradient.

Answer 4

Primary active transport

Question 5

In secondary active transport, what must be established by a secondary ATPase to cause movement of a substance against an electrochemical gradient?

Answer 5

A gradient

Question 6

This is the movement of solutes down their gradient,

Answer 6

Passive transport

Question 7

When a substance is moved down its gradient with the helping hand of a carrier protein, what is it called?

Answer 7

Facilitated diffusion

Question 8

This is the saturation of the specific transport systems involved when the amt of solute delivered to the tubule exceeds the capacity of the carrier proteins.

Answer 8

Transport maximum

Question 9

If a substance exceeds the transport maximum, which is normally reabsorbed completely in the tubules, what do u see in the pee?

Answer 9

The substance, which u normally wouldnt see

Question 10

Is the transport of water passive or active across cells?

Answer 10

Passive

Question 11

When water is reabsorbed in the PCT, there is a high gradient established for which ion?

Answer 11

Cl-

Question 12

Cl- is also reabsorved through the tubular epithelial cells because of the electrical drive from which ion that’s absorbed?

Answer 12

Na+

Question 13

Urea is pretty big, which causes a ↓ reabsorption rate, resulting in how much % urea reabsorbed?

Answer 13

50%

Question 14

How much Water and NaCl are reabsorbed at the PCT?

Answer 14

65%

Question 15

What is reabsorbed in the descending LH?

Answer 15

Water (20%)

Question 16

How much NaCl is reabsorbed in the descending LH?

Answer 16

NOTHING. ONLY WATER. HAHHAHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHA!

Question 17

When in the LH does water reabsorption stop?

Answer 17

at the thin ascending LH

Question 18

What % of NaCl and K is reabsorbed in the thick ascending LH?

Answer 18

25%

Question 19

How much NaCl is reabsorbed in the early DCT?

Answer 19

5%

Question 20

The pricipal and intercalated cells of the late DCT reabsorb which substances?

Answer 20

NaCl, K, HCO3- and water

Question 21

Which hormone controls the level of H2O reabsorption in the collecting duct (CD)?

Answer 21

Antidiuretic Hormone (ADH)

Question 22

What is reabsorbed in the CD to raise the osmolality of this region to concentrate the urine more?

Answer 22

Urea

Question 23

Glucose, proteins, and AA’s are completely reabsorbed in which segment of the nephron?

Answer 23

PCT

Question 24

The NKCC channels in the thick ascending LH absorb which ions?

Answer 24

Na+
K+
2 Cl-

Question 25

After the NKCC channels reabsorb K, it leaks out again through which channels to cause the reabsorption of Ca and Mg?

Answer 25

ROMK

Question 26

Which drug is almost completely removed in the plasma and excreted, so it can be used to estimate RPF?

Answer 26

PAH

Question 27

Loop diruetics (furosemide, ethacrynic acid, and bumetanide) target which carrier?

Answer 27

NKCC on the thick ascending LH

Question 28

Thiazide diuretics target whcih carrier protein?

Answer 28

NaCl in the early DCT

Question 29

What is the target for spironolactone and eplerenone for K+ sparing?

Answer 29

Aldosterone R

they’re competitive antagonists

Question 30

What is the target for Amiloride and Triamterene for the K+ sparing?

Answer 30

ENaC channel (Na+) on luminal membranes

Question 31

What are the 2 influences on the peritubular capillary hydrostatic pressures?

Answer 31

Arterial pressure

Arterial resistance

Question 32

SANS increases the reabsorption of which ion from the PCT, thick ascending LH, and DCT?

Answer 32

Na+

Question 33

The sans also constricts the renal arterioles, which cause which change in GFR?

Answer 33

↓ GFR

Question 34

Aldosterone stimulates the reabsorption of which ion from the principal cells?

Answer 34

Na+

Question 35

Aldosterone stimulates the secretion of which ion from the principal cells?

Answer 35

K+

Question 36

Aldosterone stimulates the secretion of which ion from the intercalated cells?

Answer 36

H+

Question 37

ADH causes the recruitment and insterion of which proteins int he luminal membrane of the CD to cause ↑ water reabsorption?

Answer 37

Aquaporins

Question 38

What does ANP do to Na reabsorption?

Answer 38

Blocks it

Question 39

PTH increases the reabsorption of which ion from the DCT and LH?

Answer 39

Ca++

Question 40

PTH activates the Gs pathway to decrease the reabsorption of which substance?

Answer 40

Phosphate

Question 41

This is the volume of plasma that is completely cleared of the substance by the kidneys per unit time.

Answer 41

Renal Clearance

Question 42

What is the equation for clearance rate?

Answer 42

Cs = (Us x V)/Ps

Us- urine concentration of substance
V- urine flow rate
Ps- plasma concentration

Question 43

What is the equation for GFR using inulin?

Answer 43

GFR = (Uinulin x V)/Pinulin

Question 44

What is the equation for clearance ratio, using inulin?

Answer 44

CR = Cs/Cinsulin

Question 45

What is the equation for ERPF, using PAH?

Answer 45

ERPF = C(PAH) = [U(PAH) x V]/P(PAH)

Question 46

What is the eqn for RPF?

Answer 46

RPF = C(PAH)/E(PAH) = [U(PAH) x V/P(PAH)]/{[P(PAH) - V(PAH)]/P(PAH)}

E(PAH) = urine PAH extration ratio

lol do u like that?

Question 47

What is the eqn for RBF?

Answer 47

RBF = RPF/(1-Hct)

Question 48

What is the eqn for excretion rate?

Answer 48

ER = Us x V

Question 49

What is the eqn for reabsorption rate?

Answer 49

RR = filtered load - excretion rate = (GFR x Ps) - (Us x V)

Question 50

What is the eqn for secretion rate?

Answer 50

SR = ER - FL

Question 51

How much water is taken in each day through liquids or food?

Answer 51

2100 mL/day

Question 52

How much water is synthesized in the body each day as a result of oxidation of carbs?

Answer 52

200 mL/day

Question 53

SOOOOOOOOOOOOOOOOOOOOOO the total intake of water each day is what?

Answer 53

2300 ml/day

Question 54

How much water do we lose each day to respiration and the skin (insensible)?

Answer 54

700 mL/day

Question 55

How much water is lsot in sweat?

Answer 55

100mL normally but i can increase if ur a sweaty bitch

Question 56

How much water is lost in poop?

Answer 56

100 mL/day normally.

10000 ml/day for me.

Question 57

How much water is lost in pee per day?

Answer 57

from 0.5-20L/day

Question 58

Diarrhea causes the loss of Na, leading to which condition of low Na?

Answer 58

Hyponatremia

Question 59

Which drugs can cause excess Na loss, leading to hyponatremia?

Answer 59

Diuretics (typically thiazides)

Question 60

This is the condition where there is undersecretion of aldosterone, leading to Na loss.

Answer 60

Addisons disease

Question 61

True or False: in SIADH there is too much water retention leading to dilution of Na leading to Hypernatremia.

Answer 61

True

ok yeah i didnt know how to make a flashcard for this lol.

Question 62

So if you can’t secrete ADH, the excessive loss of water will lead to what Na condition?

Answer 62

HYPERnatremia

Question 63

What condition is when there is damage to the posterior pituitary, causing the inability to secrete ADH?

Answer 63

central diabetes insipidus

Question 64

What is it called when there is appropriate ADH release but the kidneys cannot respond to it?

Answer 64

nephrogenic diabetes insipidus

Question 65

How will sweating cause hypernatremia?

Answer 65

Lose water –> ↑ [Na]

Question 66

This is the syndrome where there is hyperaldosteronism causing ↑ Na reabsorption and thus hypernatremia.

Answer 66

Conn’s syndrome

Question 67

What is the osmolarity of the filtrate in the PCT?

Answer 67

300

Question 68

What is the osmolarity of the filtrate in the descending LH?

Answer 68

increases from 300 –> 600

Question 69

Why does the osmolarity of the filtrate increase in the descending LH?

Answer 69

water leaves and salt stays in the pee

Question 70

What is the osmolarity of the filtrate in the ascending LH?

Answer 70

decreases from 600 –> 100

Question 71

Why does the osmolarity of the filtrate decrease so much from themedullary LH to the DCT?

Answer 71

cuz salt leaves and water stays

Question 72

What is the osmolarity of the filtrate in the DCT?

Answer 72

100

Question 73

What is the maximum concentrating ability of the kidneys in osmolarity?

Answer 73

1200 mOsm/L

Question 74

In the countecurrent mechanism, the tubule pumps out ions and urea into the interstitum, creating a large gradient for what?

Answer 74

Water

Question 75

Where does water flow to equalibrize the high somolarity from the coutnercurrent mechanism?

Answer 75

From the CD –> interstitum

Question 76

A loop diruetic will inhibit the NKCC transporter, causing what change in water drive?

Answer 76

less driving force to leave –> ↑ urine volume

Question 77

Where is urea reabsorbed in the nephron?

Answer 77

PCT and medullary CD

Question 78

Reabsorption of urea will increase the drive for what other substance to be reabsorbed?

Answer 78

Water

Question 79

An increased protein diet will cause what change in the urine concentration?

Answer 79

↑ protein –> ↑ urea –> ↑ reabsorption of urea –> ↑ concentration of urine

Question 80

Once reabsorbed from the CD, urea can then re-enter the nephron at which points to keep a little cycle action going?

Answer 80

medullary portions of the LH

Question 81

Is medullary blood flow from the vasa recta high or low?

Answer 81

Low (keeps solutes there)

Question 82

True or False: the vasa recta has a single osmolarity, unlike the LH which varies from cortex –> medulla.

Answer 82

FALSE. The vasa recta is the same shape as the LH and has the same weird osmolarities

Question 83

Receptors in what location shrink when osmolarity increases?

Answer 83

Anterior pituitary

Question 84

The anterior pitutary then tells the suproptic nuclei what’s up, which then signals which location?

Answer 84

Posterior pituitary

Question 85

What does the posterior pituitary release?

Answer 85

ADH

Question 86

What will cause baroreceptor firing to increase ADH secretion?

Answer 86

decreased arterial pressure (hemorrhage)

Question 87

Will vomiting increase or decrease ADH release?

Answer 87

increase a ton

Question 88

Does nicotine and morphine increase or decrease ADH release?

Answer 88

Increase

Question 89

Does alcohol increase or decrease ADH release?

Answer 89

inhibit

u pee a lot while drinking

Question 90

Which form of diabetes insipidus will respond to Desmopressin, central or nephrogenic?

Answer 90

Central

Question 91

Which nuclei in the hypothalamus are responsible for thirst?

Answer 91

Lateral nuclei

Question 92

What are the 2 locations that sense osmolarity to tell the lateral hypothalamic nuclei that you’re thirsty?

Answer 92

Tractus solitarii nuclei

Area postrema

Question 93

True or False: there is a massive change in plasma Na concentration when the aldosterone systme is blocked, as you can no longer take in Na+.

Answer 93

False. it barely changes cuz whenever Na is reabsorbed, water follows. its a balance.

Question 94

True or False: there is a massive change in plasma Na concentration when ADH and thirst systems are blocked.

Answer 94

True

Question 95

You take in 50-200mEq/day of what ion?

Answer 95

K+

Question 96

What is normal K concentration in the extracellular fluid?

Answer 96

4.2 mEq/L

Question 97

This is the condition where there is failure to rapidly ride the ECF of ingested K.

Answer 97

Hyperkalemia

Question 98

Too much loss of K will cause what?

Answer 98

Hypokalemia

Question 99

Case: pt presents with massive myoglobinuria and increased urine CK. He also has malaise, hyperventilation, metabolic acidosis, and most importantly, cardiac arrhythmia that’s msot likely leading to sudden death. What is his problem?

Answer 99

Hyperkalemia

↑ Mb and CK from muscle cells popping, which release a ton of K into the ECF –> hyperkalemia

Question 100

In addition to HTN and arrhythmias, what skeletal muscle abnromalities can be a result from hypOkalemia?

Answer 100

Muscle cramps
Flaccid paralysis
Rhabdomyolisis

Question 101

Does insulin increase or decrease K uptake into cells?

Answer 101

Increase

Question 102

So are diabetics typically hyperkalemic or hypokalemic?

Answer 102

Hyperkalemic (no insulin to get rid of the ECF K)

Question 103

Does aldosterone increase or decrease K uptake into cells?

Answer 103

Increase

Question 104

Does beta-adrenergic stimualtion increase or decrease K uptake into cells?

Answer 104

Increase

Question 105

Does acid (H+) increase or decrease [K] in the ECF?

Answer 105

increase

Question 106

Case: pt presents with cardiac arrhythmias post-marathon. What is happening to his K levels in the ECF?

Answer 106

↑ K from SkM lysis –> hyperkalemia

Question 107

If there’s an increased intracellular osmolarity, will there be an increase or decrease of K within the cell?

Answer 107

increase

Question 108

What are the 2 places K is reabsorbed along the nephron?

Answer 108

PCT and thick ascending LH

Question 109

Where is K SECRETED in the nephron?

Answer 109

DCT/CD

Question 110

Does an increase or decrease in Na/K ATPase in the principal cells increase K secretion?

Answer 110

Increase Na/K ATPase –> ↑ K secretion

Question 111

What are the 3 ways that stimulate K secretion?

Answer 111

1. ↑ [K] in ECF.
2. ↑ aldosterone
3. ↑ tubular flow

Question 112

Which receptor does aldosterone stimualate to cause K secretion and Na reabsorption?

Answer 112

Na/K ATPase

Question 113

Why does an increased Na intake not change K excretion?

Answer 113

cuz it both ↓ aldosterone (↓ K secretion) but ↑ tubular flow rate (↑ K secretion)

Question 114

What does acid inhibit cause an increase in [K] in the ECF?

Answer 114

Na/K ATPase

Question 115

What are 2 drugs that inhibit the aldosterone R to spare K secretion?

Answer 115

Eplerenone and Spironolactone

Question 116

What are 2 drugs that inhibit the ENaC channel on the luminal membrane to spare K+ secretion?

Answer 116

Amiloride

Triamterene

Question 117

Thiazide and loop diuretics inhibit receptors, leading to what severe K imbalance?

Answer 117

Hypokalemia

Question 118

What is a normal Ca++ levels in the plasma?

Answer 118

2.4 mEq/L

Question 119

What mg/dL determines hypocalcemia?

Answer 119

< 8.5 mg/dL

Question 120

What mg/dL determines hypercalcemia?

Answer 120

> 10.3 mg/dL

Question 121

This is the condition of hypocalcemia where there are spastic muscle contractions from ↑ excitability of nerve and muscle cells.

Answer 121

Hypocalcemic tetany

from ↑ permeability of neuronal membranes to Na+

Question 122

What is the main issue with hypercalcemia?

Answer 122

Cardiac arrhythmias

Question 123

What are the 3 ways PTH stimulates ↑ [Ca++] in the blood?

Answer 123

1, Stimulating bone resorption

2. Activation of vitamin D (↑ GI absorption)
3. Directly ↑ renal tubular Ca++ reabsorption

Question 124

Whenever you reabsorb what ion in the nephron do u reabsorb Ca++?

Answer 124

Na+

Question 125

What % of Ca++ is excreted?

Answer 125

1%

Question 126

What mechanism does Ca++ reabsorption in the thick ascending?

Answer 126

Passive mechanisms secondary to Na+ reabsorption

Question 127

So a loop diuretic will do what to Ca++ reabsorption?

Answer 127

↓

Question 128

How is Ca++ reabsorbed in the DCT?

Answer 128

active transport independent of Na+ reabsorption

Question 129

What will thiazide diuretics do to Ca++ reabsorption?

Answer 129

increase Ca++ reabsorption

Question 130

So which type of diuretics (loop or thiazide) do u use with osteoporotic pts with HTN?

Answer 130

Thiazide diuretics

Question 131

Does metabolic acidosis or alkalosis increase Ca++ reabsorption?

Answer 131

Acidosis

Question 132

What is the cap (in mM/min) of Ca++ reaborption of Phosphate in the nephron?

Answer 132

1 mM/min

Question 133

Does PTH increase or decrease phosphate excretion?

Answer 133

Increase

Question 134

Although PTH causes bone resorption and thus ↑ phosphate dumping, what does it do to the transport maximum on the renal tubules to ↑ phosphate excretion?

Answer 134

↓ the transport max

Question 135

This is the term for increased Na excretion from elevated blood pressure.

Answer 135

Pressure natriuresis

Question 136

This is the term for the effect of increased blood pressure causes a raise in urinary volume excretion.

Answer 136

Pressure diuresis

Question 137

Which form of HTN (acute or chronic) causes a 2-3 fold increase in urinary Na output?

Answer 137

Chronic

Question 138

Increased capilalry hydrostatic pressure, ↓ plasma colloid osmotic pressure, ↑ permeability of the capillaries, and obstruction of the lymph vessels can lead to what abnormality?

Answer 138

edema

Question 139

What does the SANS do to GFR?

Answer 139

↓ GFR by constricting the afferent arteriole

Question 140

What does the SANS do to tubular reabsorption of Na and Water?

Answer 140

↑

Question 141

What does the SANS trigger the release of to increase tubular reabsorption?

Answer 141

RAAS system

Question 142

After eating your Thanksgiving meal, what happens to the SANS?

Answer 142

Reflex inhibition leading to rapid elimination of excess fluid

Question 143

When the control of ATII of naturesis is fully functional, how much change in blood pressure is needed to increase the sodium excretion drastically?

Answer 143

A little change

Question 144

If ATII levels cannot eb decreased in response to increased Na intake (like in HTN), how much change in BP is needed to change the Na excretion?

Answer 144

A good amount

Question 145

Does ADH have an effect on Na+ excretion?

Answer 145

No

Question 146

Cardiac atrial muscle fibers make this protein when the atria are stretched to act on the kidneys to cause small increases in GFR and ↓ of Na reabsorption by the CD.

Answer 146

ANP

Question 147

What happens to the kidneys in heart failure?

Answer 147

They retain volume in an attempt to return the arterial pressure and CO toward normal

Question 148

If you increase circulation capacity (varicose veins), what do the kidneys retain until blood volumes increase to fill the extra capacity?

Answer 148

Na and water

Question 149

Nephrotic syndrome resulting in edema causes what compensation of the kidney?

Answer 149

Retains Na and water until plasma volume is restored to normal

Question 150

These are molecules containing hydrogen atoms that can release hydrogen ions in solutions.

Answer 150

acids

Question 151

These is an ion or molecule that can accept a H+.

Answer 151

base

Question 152

This is the excess removal of H+ from the body fluids (↑ in pH).

Answer 152

Alkalosis

Question 153

This is the excess addition of H+ from the body fluids (↓ in pH).

Answer 153

Acidosis

Question 154

What is the normal pH for the blood?

Answer 154

7.4

Question 155

What are the 3 ways the body can buffer changes in pH?

Answer 155

Chemical acid-base buffer systems
Respiratory center
Kidneys

Question 156

Which enzyme convers CO2 + H2O –> H2CO3?

Answer 156

Carbonic Anhydrase

Question 157

How is acid buffered by the bicarbonate buffer solution (give the eqn)?

Answer 157

↑H + HCO3- –> H2CO3 –> CO2 + H2O

Question 158

How is base buffered by the bicarbonate buffer solution (give the eqn)?

Answer 158

NaOH + H2CO3 –> NaHCO3 + H2O

Question 159

What is the Henderson-Hasselbalch eqn to calculate the pH of a sln?

Answer 159

pH = 6.1 + log[(HCO3-)/(0.03 x PCO2)]

Question 160

What does an ↑ in respiration rate do to pH?

Answer 160

↑ by ↑ CO2 blow-off

Question 161

These are acids that can be excreted from the lungs, like H2CO3.

Answer 161

Volatile acids

Question 162

These are acids that cannot be excreted by the lungs, like ketoacids or lactic acid.

Answer 162

Nonvolatile acids

Question 163

How does the body get rid of nonvolatile acids?

Answer 163

The kidneys excrete them

Question 164

What is the transporter on the luminal membrane of the PCT, thick ALH, and DCT to secrete H+?

Answer 164

Na/H antiporter

Question 165

What form of energy transport does H+ use on the PCT, thick ALH, and DCT to secrete H+?

Answer 165

Secondary active transport from Na+ gradient set up by Na/K ATPase

Question 166

What always gets reabsorbed whenever H+ is made inside the tubule cell to be secreted?

Answer 166

HCO3-

Question 167

From the DCT onwards, how is H+ secreted by the intercalated cells?

Answer 167

Primary active transport

H+ ATPase

Question 168

When all the H+ in the pee buffers with the free HCO3-, what 2 systems kick into place to buffer the excess H+ ions?

Answer 168

Phosphate and ammonia buffer systems

Question 169

The phosphate and ammonia buffer systems buffer the free H+ but also give rise to the net GAIN of what ion to be reabsorbed?

Answer 169

HCO3-

Question 170

In the phosphate buffer system, the NaHPO4- in the pee can buffer acid and be excreted as what salt?

Answer 170

NaH2PO4

Question 171

In the PCT, thick ALH, and DCT, which AA is delivered form the liver to the kidneys to buffer H+?

Answer 171

Glutamine

Question 172

In the CD, the H+ is secreted by primary active transport into the pee, whcih combines with what from the intercalated cell?

Answer 172

NH3

Question 173

So in both forms of the ammonia buffer system, what is excreted as a salt to buffer H+?

Answer 173

NH4+ + Cl-

Question 174

An increase in PCO2 causes what change to H+ secretion?

Answer 174

↑ H+ secretion

more CO2 to be broken down and secreted

Question 175

Does an increase or decrease in the RAAS system ↑ H+ secretion?

Answer 175

↑ RAAS –> ↑ H+ secretion

Question 176

A patient with Conns syndrome will cause what change, acidosis or alkalosis?

Answer 176

Alkalosis

↑ aldosterone –> ↑ H+ secretion

Question 177

What is the compensatory response to respiratory acidosis?

Answer 177

an increase in plasma HCO3-from the addition of new bicarbonate to the extracellular fluid by the kidneys

Question 178

What is the compensatory response to metabolic acidosis?

Answer 178

the lungs compensate by increasing ventilation rate. This decreases PCO2. The kidneys also add new bicarbonate to the extracellular fluid

Question 179

What is the compensatory response to respiratory alkalosis?

Answer 179

the kidney compensates by increasing excretion of HCO3-

Question 180

What is the compensatory response to metabolic alkalosis?

Answer 180

the lungs compensate by decreasing respiratory rate (↑ PCO2) and the kidneys increase renal HCO3- excretion

Question 181

What happens to the H+, HCO3-, and CO2 levels in respiratory acidosis?

Answer 181

H+: ↑
HCO3-: ↑
CO2: ↑

Question 182

What happens to the H+, HCO3-, and CO2 levels in Metabolic acidosis?

Answer 182

H+: ↑
HCO3-: ↓
CO2: ↓

Question 183

What happens to the H+, HCO3-, and CO2 levels in respiratory alkalosis?

Answer 183

H+: ↓
HCO3-: ↓
CO2: ↓

Question 184

What happens to the H+, HCO3-, and CO2 levels in metabolic alkalosis?

Answer 184

H+: ↓
HCO3-: ↑
CO2: ↑

Question 185

What causes respiratory acidosis?

Answer 185

↓ ventilation

Question 186

What causes metabolic acidosis?

Answer 186

Diarrhea, diabetes, ingesting acids, renal failure

Question 187

What causes respiratory alkalosis?

Answer 187

↑ ventilation

Question 188

What causes metabolic alkalosis?

Answer 188

Vomiting, diuretics, excess aldosterone, ingestion of alkaline drugs

Question 189

What is the Tx for acidosis?

Answer 189

Tums

Question 190

What is the Tx for alkalosis?

Answer 190

give ammonium chloride by mouth

Question 191

This is when there are 2 or more underlying causes for acid-base disturbance and disorders are not accompanied by appropriate compensatory responses.

Answer 191

Mixed acid-base disorder

Question 192

This is the difference between the unmeasured anions and unmeasured cations in the plasma.

Answer 192

Anion gap

Question 193

What is the eqn for the plasma anion gap?

Answer 193

Anion gap = [Na+] - [HCO3-] - [Cl-]

Question 194

In metabolic acidosis, plasma HCO3 is reduced, so what much increase to maintain electrostability?

Answer 194

Cl-

Question 195

In hyperchloremic metabolic acidosis, is the anion gap increased, decreased, or normal?

Answer 195

Normal

Question 196

Matabolic acidosis from increased nonvolatile acids does what to the anion gap, increase, decrease, or keep it normal?

Answer 196

Increase

Question 197

Diarrhea, renal tubular acidosis, carbonic anhydrase inhibitors, and Addisons cause what?

Answer 197

hyperchloremic metabolic acidosis