Fluid Status/Diuretics

Question 1

When people say fluid what are they talking about?

Answer 1

Blood, plasma, water

Question 2

How does fluid enter the body?

Answer 2

PG, NG Tube, IV, drinking, absorption

Question 3

How does fluid leave the body?

Answer 3

Urine, Sweat, breathing (insensible loss), bleeding, vomiting, defecation

Question 4

Describe how fluid is distributed in the body?

Answer 4

40% solid, 60% Fluid
2/3 ICF, 1/3 ECF (20% plasma, 80% Interstitial fluid)

Question 5

What are the standards we must consider when looking at TBW?

Answer 5

1L of water = 1 kg
Values are based on the 70 kg man

Question 6

What is tonicity?

Answer 6

Concentration of a solution compared to another solution

Question 7

What is osmole?

Answer 7

Number of osmotically active particles in a solution

Question 8

What is osmolality?

Answer 8

Osmoses/kg of water

Question 9

What is osmolarity?

Answer 9

Osmoles/Liter of solution

Question 10

What components are not included in the TBW and osmolarity of body fluids?

Answer 10

WBC, RBC, platelets

Question 11

What are extracellular electrolytes?

Answer 11

Cations: Na+, Ca2+
Anions: Cl-, HCO3-

Question 12

What are the intracellular electrolytes?

Answer 12

Cations: K+, Mg2+
Anions: PO4^3-, proteins

Question 13

What is the physiological osmolarity?

Answer 13

280 mOsm/L

Question 14

What is the difference between filtration and reabsorption?

Answer 14

F: Fluid exits the arterial capillary due to capillary hydrostatic pressure
R: Fluid moves in the venous capillary driven by colloid osmotic pressure

Question 15

How do we maintain fluid status?

Answer 15

1. ADH
2. RAAS (retain Na+ and water)
3. Natriuretic peptides (lose Na+ and water)
4. Osmoreceptors in the hypothalamus
5. Proteins

Water follows the highest concentration of solute

Question 16

What are the types of fluid balance states?

Answer 16

1. Hypervolemia
2. Euvolemia
3. Hypovolemia

Question 17

What are the daily fluid requirements?

Answer 17

1st 10 kg/ → 100mL/kg
2nd 10 kg → 50 mL/kg
Weight over 20 kg → 20 mL/kg

Question 18

What are the hourly fluid requirements?

Answer 18

1st 10 kg/ → 4 mL/kg
2nd 10 kg → 2 mL/kg
Weight over 20 kg → 1 mL/kg

Question 19

What is the clinically utilized fluid requirement?

Answer 19

25-30 mL/kg

Question 20

What is progressions of hypovolemia?

Answer 20

Euvolemic → GI and intraabdominal → lack of intake → skin → kidneys → insensible losses → dehydration

Question 21

What are the signs and symptoms of hypovolemia?

Answer 21

1. Fatigue
2. Thirst
3. Dry mucous membraneis
4. Low UO
5. Muscle cramps
6. Lightheadedness
7. DZ
8. Hypotension
9. Poor skin turgor
10. Sunken eyes

Question 22

What are the lab findings of hypovolemia?

Answer 22

≥295 mOsm/kg
BUN/sCr >10:1
Low urine Na+ concentration
High urine osmolality

Question 23

What can hypervolemia lead to?

Answer 23

1. Edema (peripheral)
2. Effusion (pleural)
3. Ascites (peritoneal)

Question 24

What are the causes of edema?

Answer 24

1. Increased capillary hydrostatic pressure
2. Increased capillary permeability
3. Decrease colloid osmotic pressure
4. Obstruction of the lymphatic systems
5. Excess in water and Na+

Question 25

What is the increase in volume in a person with edemas?

Answer 25

Increase of at least 2.5 -3 L

Question 26

What is the treatment for hypovolemia?

Answer 26

1. Volume resuscitation
2. Treatment of underlying cause

Question 27

What are the types of IV fluids and what is the difference between the two?

Answer 27

Crystalloids: electrolytes
Colloids: water-pulling and don’t cross membrane as easily

Question 28

What are the hypotonic solutions? What is the cells response?

Answer 28

Quarter NS
Half NS
Half DW

Cells swell

Question 29

What are the isotonic solutions? Which are balanced colloids? What is the cells response?

Answer 29

NS
LR (BC)
Plasma-lyte (BC)
Normosol (BC)
D5W → becomes hypertonic in the body

No change

Question 30

What are the hypertonic solutions? What is the cells response?

Answer 30

Hyper-sol (3%)
D10W, D20W, D50W

Cell shrinks

Question 31

Why are colloids important?

Answer 31

Given to hypotensive patient to increase BP by increased vascular fluid retention and CO

Considered hypertonic and doesnt move freely

Question 32

What are the types of colloids?

Answer 32

Albumin 5%, 25%
Hetastarch
Pentastarch
Dextran-40, -70

Question 33

What are the treatments for hypervolemia?

Answer 33

1. Fluid removal
2. Sodium restriction
3. Fluid restriction
4. Treatment of underlying cause

Question 34

What is the efficacy of diuretic in a patient dependent on especially with edemas?

Answer 34

1. Amount of filtered Na+ normally reabsorbed at the site of action
2. Amount of Na+ reabsorbed distal to its site of action
3. Adequate medication delivery to site of action
4. Amount of Na+ reaching the site of action

Question 35

What are carbonic anhydrase inhibitors used for?

Answer 35

1. Acid/base disorders
2. GLacoma
3. Diuretic resistance
4. Edema: acetazolamide 250 mg IV/PO QD

Question 36

Dosage forms of CAIs?

Answer 36

IV, PO, opthalmic

Question 37

What is the MOA of osmotic?

Answer 37

Mannitol (hypertonic) to reduce ICP and IOP by pulling H2O from vasculature to urine

Question 38

What are the PK characteristics of Loops?

Answer 38

1. Most potent
2. High ceiling
3. Rapid acting and short DOA (except torsemide)

Question 39

What are the clinical uses of loops

Answer 39

1. Edema (associated with excess salt, HF, poor renal function)
2. Acute renal failure (improve urine output and limit kidney damage)
3. Hypercalecemia
4. Hyperkalemia

Question 40

What are the ratios of loops?

Answer 40

Furosemide IV:PO (1:2)
Lasix: Bumex: Demadex IV (40: 1: 20)

Question 41

What are the clinical uses of thiazide?

Answer 41

HTN, mild edema, kidney stones

Ceiling doses but longer half-life and less diuretic effect than loops

Question 42

What are the daily dose of thiazides used for?

Answer 42

HTN

Question 43

What are the sequential nephron blockade doses of thiazides used for?

Answer 43

Edema

Question 44

What are the types of thiazesd? Strongest?

Answer 44

1. Chlorothiazide
2. Chlorthaliidone (strongest)
3. HCTZ
4. Indapamide
5. Metolazone

Question 45

What are the types of K+ sparing diuretics?

Answer 45

Direct inhibit: triamterene and amiloride
Aldosterone antagonists: Spiranolactone and eplerenone

Question 46

What are K+ sparing clinical uses?

Answer 46

HTN, CHF in combo with loop and thiazides

Weaker than loops and thiazides (gradually fluid loss)

Question 47

What do you evaluate in fluids?

Answer 47

1. Volume status
2. Perfusion
3. ADRs

Question 48

What is third spacing?

Answer 48

Water flowing into tissue spaces caused by blood pooling and decrease CO

Question 49

Who qualifies for diuretic dose adjustments?

Answer 49

Pediatric, HF, renal impairment (increased dosing), geriatric, liver

Question 50

When would you do a dosage adjustment?

Answer 50

1. Taking too much fluid → decrease diuretics
2. Taking too little fluid → increase diuretic

Question 51

Why do we do dosage adjustment?

Answer 51

To reduce ADRs, morbidity, and mortality

Question 52

What do we do when there decreased efficacy of a diuretic?

Answer 52

1. Increase dose or frequency
2. Add another diuretic
3. Sodium restriction

Question 53

What ADRs are we looking for in diuretics?

Answer 53

1. Hypovolemia
2. Electrolyte imbalnaces
3. AKI

Question 54

What disease states require dosage adjustment? Dosage forms?

Answer 54

1. CKD
2. GI edema and delayed gastric emptying
3. Cirrhosis

IV → PO

Question 55

What are loop ADRs?

Answer 55

Hypokalemia, Hypernatriemia, hypocalcemia

Question 56

What are the thiazide ADRs?

Answer 56

hypokalemia, hypercalcemia, hyponatremia

Question 57

What are ADRs of K+ sparing?

Answer 57

Mild metabolic acidosis, hyperkalemia

Carospir: reversible gynecomastia