9) Body water and electrolytes

Question 1

list main body cations

Answer 1

sodium
potassium
calcium
magnesium
trace elements

Question 2

list main body anions

Answer 2

chloride
bicarbonate
proteins (albumin)
organic acids (lactate)
sulfate
phosphate

Question 3

main intracellular ions

Answer 3

K+
phosphate
proteins

Question 4

main extracellular ions

Answer 4

Na+
Cl-
HCO3-
proteins

Question 5

Na+ functions

Answer 5

Maintains osmolality

Regulates acid-base balance by Na-H exchange in kidneys

Question 6

K+ functions

Answer 6

Involved in heart and skeletal muscle contraction
Maintains intracellular osmolality
Influences acid-base balance

Question 7

80% plasma osmolality is due to…

Answer 7

Na and Cl

Question 8

chloride functions

Answer 8

Maintains plasma osmolality with sodium
Chloride shift (Maintains electroneutrality when Cl- exchanges with HCO3-)

Question 9

Test used to diagnose children with Cystic Fibrosis

Answer 9

sweat chloride

Question 10

> 60 mmol/L chloride is positive for…

Answer 10

CF

Question 11

———- and the agent ——– is used to stimulate sweat production on the skin of a child

Answer 11

Iontophoresis
pilocarpine

Question 12

how does hemolysis affect electrolyte measures?

Answer 12

Increased Potassium
Increased Phosphorus
Increased Iron
Increased Magnesium
Increased AST, ALT, CK, Troponin, and LD (liver & cardiac enzymes)

Question 13

calculate anion gap

Answer 13

AG = [Na + K] - [Cl + HCO3]

or

AG = AG = Na - [Cl + HCO3]

Question 14

causes of increased AG (not mudpiles)

Answer 14

• Renal Tubular Disease
• Diabetic Ketoacidosis

Question 15

causes of low AG

Answer 15

• low albumin (most common)
• Organic paraproteins
• Inorganic bromide, lithium, Iodine, or Polymyxin B

Question 16

MUDPILES

causes of high AG

Answer 16

• methanol
• uremia
• DM
• paraldehyde
• isoniazid
• lactic acidosis
• ethylene glycol/ethanol
• salicylate

Question 17

major difference between plasma and ISF

Answer 17

presence of protein in plasma and virtually none in ISF

Question 18

Represents a heterogeneous mixture of solutes that are difficult to measure directly because of the lack of cells free of contamination

Answer 18

intracellular water compartment

Question 19

interactions of physical forces within and among fluid compartments

Answer 19

Gibbs-Donnan equilibrium

Question 20

Used to identify the number of moles of a particle per kilogram of water, not the kind of particle

Answer 20

osmolality

Question 21

Solution concentrations expressed on a weight factor are ——— independent

Answer 21

temperature

Question 22

As osmolality increases…
- Osmotic pressure
- Boiling point
- Freezing point
- Vapor pressure

Answer 22

increases
increases
decreases
decreases

Question 23

explain how the freezing point osmometer works

Answer 23

• Sample is rapidly supercooled to several degrees below its freezing point.
• Then agitated with the stirrer to initiate freezing.
• Rate at which this heat of fusion is released from the ice being rapidly formed reaches equilibrium with the rate of heat removed.

Question 24

The freezing point is lowered by an amount that is directly proportional to…

Answer 24

the concentration of dissolved particles in the solution

Question 25

osmolality equation

Answer 25

mOsm/kg = (1.86)(Na) + (Glucose/18) + (BUN/2.8) + 9

Question 26

osmol gap

Answer 26

osmol gap = measured osm - calculated osm

Question 27

the causes of high osmol gap and AG are basically the same, except…

Answer 27

salicylate poisoning does not cause high osmol gap

Question 28

Pressure created in a solution by the presence of large (> 30 kDa) proteins, also called colloids.

Answer 28

colloid oncotic pressure

Question 29

hypothalamus responds to these stimuli in order to regulate water balance

Answer 29

Increases in extracellular water osmolarity
Decreases in intravascular volume
Angiotensin II

Question 30

angiotensin II effect on transport

Answer 30

increases NaCl and H2O reabsorption

Question 31

aldosterone effect on transpoart

Answer 31

increases NaCl and H2O reabsorption

Question 32

ANP, BNP, CNP effect on transport

Answer 32

inhibits NaCl and H2O reabsorption

Question 33

urodilantin effect on transport

Answer 33

inhibits NaCl and H2O reabsorption

Question 34

ADH effect on transport

Answer 34

Increases H2O reabsorption

Question 35

Causes increased thirst and water intake

Answer 35

thirst center

Question 36

Stimulates the posterior pituitary gland to secrete Antidiuretic Hormone (ADH)

Answer 36

antidiuretic center

Question 37

2 areas of hypothalamus responding to low water

Answer 37

thirst center (water intake)
antidiuretic center (water output)

Question 38

RAAS regulates…

Answer 38

Body sodium and water content
Arterial blood pressure
Potassium balance

Question 39

proteolytic enzyme produced, stored, and secreted by juxtaglomerular cells of the kidneys

Answer 39

renin

Question 40

angiotensin II functions

Answer 40

• Stimulation of aldosterone secretion by the adrenal cortex
• Arteriolar vasoconstriction, which increases blood pressure
• Stimulation of ADH secretion and thirst
• Enhancement of NaCl reabsorption by the proximal tubule

Question 41

aldosterone functions

Answer 41

• Na+ reabsorption in the distal nephron of the kidneys
• Water reabsorption in the kidneys
• K+ excretion (secretion) by the kidneys

Question 42

Low effective circulating blood volume can be sensed by baroreceptors located in the…

Answer 42

carotid sinus and aortic arch

Question 43

3 natriuretic peptides

Answer 43

Atrial (A)-type natriuretic peptide (ANP)
Brain (B)-type natriuretic peptide (BNP)
(C)-type natriuretic peptide (CNP)

Question 44

natriuretic peptides respond to…

Answer 44

intravascular volume expansion

Question 45

Hormone produced primarily in atria

Answer 45

ANP

Question 46

ANP functions

Answer 46

• Reducing the venous pressure that occurs with a given increase in blood volume
• Increasing vascular permeability
• Promoting natriuresis and diuresis

Question 47

natriuresis

Answer 47

excretion of Na+ in urine

Question 48

Hormone produced and stored in cardiac ventricles

Answer 48

BNP

Question 49

Levels increase in Congestive Heart Failure

Answer 49

BNP

Question 50

Produced in vascular endothelial cells, brain, and renal tubules

Answer 50

CNP

Question 51

Potent venous dilator, but no natriuretic effect

Answer 51

CNP

Question 52

In the brain, ANP inhibits….

Answer 52

salt appetite
water intake
secretion of ADH and corticotropin

Question 53

conditions associated with dilutional hyponatremia

Answer 53

Weight gain & excess edema
Liver failure
Congestive heart failure
Renal failure
Nephrotic syndrome
Inappropriate ADH secretion

Question 54

hyponatremia causes

Answer 54

v/d
polyuria

Question 55

hypernatremia causes

Answer 55

Ingestion of large amounts of sodium salts
Administration of hypertonic NaCl Hyperaldosteronism
Excessive sweating
DI
Osmotic diuresis

Question 56

Small amount is taken up by cells and most excreted by the kidneys

Answer 56

K+

Question 57

hyperkalemia s/s

Answer 57

Mental confusion
Weakness
Tingling sensations
Flaccid paralysis of the extremities
Respiratory muscle weakness

Question 58

causes of pseudohyperkalemia

Answer 58

Hemolysis
Leukocytosis
Vigorous arm exercise
Tight application of tourniquet
Squeezing the area around a draw site

Question 59

causes of hyperkalemia

Answer 59

High-potassium uptake
Decreased K+ excretion
Crush injuries
Digitals overdose
Tissue hypoxia
Metabolic acidosis

Question 60

causes of hypokalemia

Answer 60

Metabolic alkalosis
Diuretic administration
Increased GI loss
Increased urinary loss

Question 61

Metabolic ——– is often associated with hyperkalemia because potassium moves out of the cell and into the extracellular water space.

Answer 61

acidosis

Question 62

Metabolic ——- is a condition characterized by hypokalemia. Potassium ions move from the extracellular water space and into the cell.

Answer 62

alkalosis

Question 63

causes of hyperchloremia

Answer 63

Dehydration
Kidney diseases
Salicylate intoxication

Question 64

causes of hypochloremia

Answer 64

Vomiting
Salt-losing nephritis
Metabolic acidosis

Question 65

Decreased secretion of Cortisol and Aldosterone

Causes water and Na loss by kidneys

Answer 65

Addison’s disease

Question 66

diuretics used to tx…

Answer 66

conditions that have fluid retention (also called edema) as a symptom, such as heart failure, kidney failure and cirrhosis of the liver

Question 67

Characterized by polyuria accompanied by polydipsia because of ADH deficiency

Answer 67

DI

Question 68

central vs nephrogenic DI

Answer 68

Central DI is caused by a failure of the pituitary gland to secrete normal amounts of A D H in response to osmoregulatory factors.

Nephrogenic DI patients have renal resistance to the action of ADH. Still producing ADH, but just not receptive to it.

Question 69

DI s/s

Answer 69

Increased urine output >2.5L/day
Low urine specific gravity, low urine osmolality
Crave water/ice
Extreme fatigue, muscle pain/weakness
Increased serum osmolality, hypernatremia

Question 70

causes of DI

Answer 70

• Kidneys not receptive to ADH
• Damage to the pituitary gland and/or hypothalamus
• Brain trauma through stroke or head trauma
• Tumors
• Drugs (demenocycline)
• Gestational due to the placenta producing vasopressinase

Question 71

parts of DI dx

Answer 71

polyuria
urine glucose testing to exclude glycosuria
measurement of urine and serum creatinine, electrolytes, and osmolality
A water-deprivation test is useful to distinguish central from nephrogenic DI

Question 72

water deprivation test is d/c if…

Answer 72

urine osmolality rises above 500 or if the patient loses more than 3% of body weight, without a rise in urine osmolality

Question 73

goal of DI therapy

Answer 73

urine osmolality up
urine output down

Question 74

A chronic, excessive intake of water suppresses ADH secretion and produces hypotonic polyuria

Answer 74

Psychogenic or Primary Polydipsia

Question 75

The increased production of ADH in the absence of known stimuli for its release

Answer 75

syndrome of inappropriate ADH secretion

Question 76

SIADH s/s

Answer 76

Low serum osmolality
Normal to increased plasma volume
Fluid overload (weight gain)
Hypotonic (low osmotic pressure) plasma and urine
Hyponatremia, with continued sodium excretion
Low urine output with high specific gravity and increased urine osmolality

Question 77

—— is suspected if urine osmo > plasma osmo without corresponding low urine Na

Answer 77

SIADH

Question 78

tx for moderate SIADH

Answer 78

Loop Diuretics (Lasix)
Hypertonic IV solutions (3% Saline)

Question 79

tx for severe SIADH

Answer 79

Demeclocycline

Question 80

water overload —ADH, water, serum osmo, serum Na, urine output, urine osmo

Answer 80

ADH—
water ↑
serum osmo ↓
serum Na ↓
urine output ↑
urine osmo ↓

Question 81

DI — ADH, water, serum osmo, serum Na, urine output, urine osmo

Answer 81

ADH↓
water ↓
serum osmo ↑
serum Na ↑
urine output ↑
urine osmo ↓

Question 82

SIADH —ADH, water, serum osmo, serum Na, urine output, urine osmo

Answer 82

ADH↑
water ↑
serum osmo ↓
serum Na ↓
urine output ↓
urine osmo ↑

Question 83

suspect ingestion if osmo gap…

Answer 83

> 25

Question 84

causes of high osmo gap without high AG

Answer 84

• isopropyl alcohol
• mannitol
• sorbitol
• glycine
• maltose

Question 85

cannot be used as an anticoag for electrolyte specimens

Answer 85

sodium heparin

Question 86

Lipemic samples can interfere with…

Sodium falsely decreased due to…

Answer 86

indirect ISE measurement
electrolyte exclusion effect

Question 87

ISE

Answer 87

ion-selective electrode

Question 88

direct vs indirect ISE

Answer 88

direct —no dilution
indirect —sample diluted

Question 89

electrolyte instruments account for —% solid portion of plasma

Answer 89

7%

Question 90

4 methods of measuring Na+

Answer 90

Both direct and indirect ISEs
Flame-emission spectroscopy (obsolete)
Atomic-absorption spectroscopy
Spectrophotometry

Question 91

extra K+ in serum (compared to plasma) is mainly a result of…

Answer 91

platelet rupture during coagulation

0.1-0.7 mEq/L lower

Question 92

Slight hemolysis can raise K+ vales —-%, marked hemolysis —%, and gross hemolysis —–%

Answer 92

3
12
30

Question 93

incorporates valinomycin into its organic liquid membrane

Answer 93

ISE for K+

Question 94

Macroduct coils

Answer 94

used to collect sweat