Fluids and Electrolytes

Question 1

we are ___% water

Answer 1

60%

Question 2

What portion is intracellular and what portion is extracellular?

Answer 2

2/3 intracellular

1/3 extracellular

Question 3

what portion of ECF is plasma and what portion is interstitial?

Answer 3

80% interstitial

20% plasma

Question 4

what do you need to consider when managing a patients fluid status?

Answer 4

NPO Deficit
Maintenance
Evaporative Losses and “Third Spacing”
Blood loss

Question 5

what are the two main patient types that you would not want to fluid overload?

Answer 5

1. renal patient who is dialysis-dependent, because their kidneys do not filter the excess fluid.
2. patients with CHF with fluids, because the more preload their hearts have, the less they can respond by increasing contractility and they can end up in cardiogenic pulmonary edema.

Question 6

4/2/1 Rule

Answer 6

4 mL/kg/hr for 1st 10kg
2 mL/kg/hr for 2nd 10kg
1 mL/kg/hr for remaining kg

Question 7

what is the additional fluid requirement for minimal, moderate and severe tissue trauma?

Answer 7

minimal: 2-4mL/kg/hr
moderate: 4-6mL/kg/hr
severe: 6-8mL/kg/hr

Question 8

describe “third spacing”

Answer 8

This refers to an internal redistribution of fluids, especially during large thoracic or abdominal procedures. Intravascular fluid volume is depleted as inflamed tissue sequesters much fluid in the interstitial space. Replacement of this fluid is necessary to avoid organ hypoperfusion, especially in renal insufficiency.

Question 9

what are the advantages and disadvantages of crystalloids?

Answer 9

Advantages: safe, nontoxic, reaction free, and cheap.
Disadvantages: limited time in IV space, edema with large volumes.

Question 10

Solutions of inorganic and small organic molecules dissolved in water. The main solute is saline or glucose and the solution may be iso, hypo, or hypertonic.

Answer 10

crystalloid

Question 11

in terms of acid-base balance, what can NS and LR cause?

Answer 11

Saline solution –> Hyperchloremic metabolic acidosis

Lactated Ringer’s–> Metabolic alkalosis (lactate–> HCO3)

Question 12

what ion in which crystalloid limits its use when transfusing blood products?

Answer 12

Calcium in LR

Question 13

Why is NS used in neuro cases?

Answer 13

pulls fluid out of the tissue, making a clearer visual field for the surgeon

Question 14

Homogeneous noncrystalline substance consisting of large molecules dissolved in a solute. Most are dissolved in normal saline, but glucose, hypertonic saline, and LR have been used as well

Answer 14

Colloid

Question 15

advantages of colloids

Answer 15

Greater capacity to remain in the IV space (longer half life), more efficient for replacing a severe fluid deficit quickly, smaller infused volume.

Question 16

disadvantages of colloids

Answer 16

greater expense, coagulopathy, hypersensitivity reactions

Question 17

what is the difference between hextend and hespand?

Answer 17

Hextend = hetastarch in LR
Hespan = hetastarch in NS

Question 18

Albumin is purified from _________

Answer 18

human plasma

Question 19

______ can lead to a reduction in factor VIII and vWf, impairs plt function, and can prolong PTT.

Answer 19

hetastarch

Question 20

how does dextran 40 improve microcirculation blood flow?

Answer 20

by decreasing blood viscosity and is often used by vascular and plastic surgeons to maintain patency of anastamoses.

Question 21

_________ decreases platelet aggregation and adhesiveness.

Answer 21

dextran (mostly 70)

Question 22

what portion of colloids is distributed intracellularly and extracellularly?

Answer 22

100% extracellular

100% intravascular

Question 23

what is a mEq?

Answer 23

A milliequivalent is defined as 1/1000 of an equivalent of a chemical element, radical or compound. Its abbreviation is “mEq.” The equation used to calculate a milliequivalent is atomic weight (g) / (valence x 1000). The unit of measure for mEq is grams (g).

Question 24

what are some normal hematology lab values?

Answer 24

White Blood Cell Count (WBC)(cells/ml): 4,500-10,000
Red Blood Cell Count (RBC)(x 10 6): 4.0-5.5
Hemoglobin (Hgb)(g/dl): 12.0-16.5
Hematocrit (Hct)(%): 36-50
Mean Corpuscular Volume (MCV): 80-100
Platelet Count (plt): 100,000-450,000

Question 25

what are some normal plasma values for electrolytes?

Answer 25

Sodium (Na+)( mEq/L): 135-145
Potassium (K+)(mEq/L): 3.5-5.0
Chloride (Cl-)(mEq/L): 100-106
Calcium (Ca++)(mEq/L): 8.5-10
Bicarbonate (HCO3-) (mEq/L) 22-26
Magnesium (Mg++)(mEq/L): 1.5-2.5
Phosphate (PO4---)(mEq/L): 0.5-1.5
Sulfate (SO4--)(mEq/L): 0.3-0.6

Question 26

what are some normal values for coagulation studies?

Answer 26

Protime (PT)(Extrinsic pathway): 10-14 seconds

Partial Prothrombin Time (PTT)(Intrinsic pathway): 25-39 sec

International Normalized Ratio (INR): 0.8-1.2
INR= PT test/PT normal

Question 27

_______ is the key regulator of water balance in the body

Answer 27

Sodium

Question 28

_______ is the most abundant cation of the ECF and is critical in determining EC and IC osmolarity.

Answer 28

Sodium

Question 29

_______ is the most abundant anion of the ECF

Answer 29

chloride

Question 30

______ is the most abundant intracellular cation

Answer 30

potassium

Question 31

______ is the most abundant intracellular anion

Answer 31

phosphate

Question 32

what are two causes of hyponatremia?

Answer 32

1. True loss of sodium: from excess sweating, vomiting, diarrhea, burns, and the administration of diuretics.
2. Dilutional Hyponatremia: Due to an excess of TBW.

Question 33

what is the most common cause of hyponatremia?

Answer 33

dilutional hyponatremia from excess TBW= excess ADH release (stress, SNS activation, SIADH),TURP syndrome.

Question 34

what are the neurological signs and symptoms of hyponatremia?

Answer 34

N&V, visual disturbances, depressed consciousness, agitation, confusion, coma, seizures, muscle cramps, weakness, myoclonus.

Question 35

what effect (if any) does hyponatremia have on MAC?

Answer 35

decreases it

Question 36

Hypervolemic hyponatremia can cause _____,______, & _______

Answer 36

pulmonary edema, HTN, and heart failure

Question 37

at what concentrations do you see symptoms with hyponatremia?

Answer 37

< 123 mEq/L = cerebral edema

< 100 mEq/L = cardiac symptoms

Question 38

a typical surgical suction container holds what volume?

Answer 38

3 L

Question 39

what is the half life of a crystalloid?

Answer 39

30-60 mins

Question 40

what is the half life of a colloid?

Answer 40

albumin: 3-4Hrs
Dextran: 6-12Hrs
Hetastarch lasts the longest (up to 17 days)

Question 41

what is TURP syndrome?

Answer 41

too much fluid for scope –> hyponatremia & neuro damage

Question 42

how can hyponatremia be treated?

Answer 42

Water restriction or loop diuretic in the case of water overload (TURP syndrome).
Hypertonic saline in the case of severe hyponatremia with neurologic symptoms.
Correct Na deficits very SLOWLY!

Question 43

Why do we correct [Na] slowly?

Answer 43

Central pontine myelinolysis is a concentrated, frequently symmetric, noninflammatory demyelination within the central basis pontis

“…cellular edema, which is caused by fluctuating osmotic forces, results in compression of fiber tracts and induces demyelination. Prolonged hyponatremia followed by rapid sodium correction results in edema..”

Question 44

difficulty speaking due to neurologic damage of the neurons that control muscles of speech

Answer 44

dysarthria

Question 45

lack of muscle coordination

Answer 45

ataxia

Question 46

An increase in ECF [Na] (above 145 mEq/L) which may be accompanied by the presence of low, normal, or high total-body Na content.

Answer 46

hypernatremia

Question 47

signs and symptoms of hypernatremia

Answer 47

Intense thirst (unless malfunctioning thirst mechanism)
Lethargy, mental status changes --> coma and convulsions.
Shock, peripheral edema, myoclonus, ascites, muscle tremor, hyperactive reflexes, pleural effusion, expanded intravascular fluid volume

Question 48

how can hypernatremia be treated?

Answer 48

Treatment: diuretics and hypotonic crystalloids to restore normal osmolality and volume.
Slow correction

Question 49

what effect (if any) does hypernatremia have on MAC?

Answer 49

increases MAC

Question 50

4 factors that have a short term influence on K+ concentration?

Answer 50

1) insulin- causes more Na to enter the cell through Na+/H+ transporter. To maintain electroneutrality as H leaves, Potassium must be pumped into the cell.
2) pH
3) B2-adrenergic agonists, and HCO3 administration.
4) Hyperventilation can also decrease K (indirectly due to pH changes)

Question 51

2 factors that have a long term effect on K+ concentration

Answer 51

kidney and aldosterone

Question 52

how are acidemia and potassium concentration related?

Answer 52

In acidemia, the body will use potassium to decrease H ions by moving K out and H in. Therefore, acidemia potentiates hyperkalemia.

Question 53

signs and symptoms of hypokalemia

Answer 53

in the range of 2-2.5 mEq/L, hypokalemia can cause muscle weakness, arrythmias, and ECG changes

Question 54

. If potassium is below _____, treat with IV KCl.

Answer 54

2.6

Question 55

how must KCl be administered?

Answer 55

KCl must be diluted in NS (250 mL) and should not be infused faster than 10 mEq/hr in a peripheral IV, and 20 mEq/hr through a CVL. Monitor the EKG continuously.

Question 56

signs and symptoms of hyperkalemia

Answer 56

muscle weakness, 6-7 mEq/L-peaked T waves and long PR. Wide QRS, VF and asystole as approach 10-12 mEq/L

Question 57

how is hyperkalemia treated?

Answer 57

determined by presence of ECG changes. Stabilize heart with IV calcium. Redistribute potassium into cells by IV glucose and insulin, (amp D50 + 10 U Insulin- lowers levels within 10 min and lasts 4-6 hrs), Bicarb, hyperventilation

Dialysis, diuretics, B agonists, aldosterone agonists, kayexelate

Question 58

what is the relationship between aldosterone and K+?

Answer 58

Aldosterone increases Na+ reabsorption causing K+ to be excreted

Question 59

in the evolution of the EKG, which electrolyte disturbance creates a “U” wave after the T wave?

Answer 59

hypokalemia

Question 60

how does hyperkalemia affect the EKG?

Answer 60

peak T waves –> Wide QRS –> sine wave –> V fib

Question 61

what controls Calcium balance?

Answer 61

PTH and Calcitonin

Question 62

what are the three different forms of Calcium in the body?

Answer 62

Bound to protein (40%)
Ionized, physiologically active (50%)
Nonionized chelated with anions: Phosphate, Sulfate, Citrate (10%)

Question 63

low serum albumin has what effect on Calcium?

Answer 63

Low serum albumin affects only the level of total calcium, not ionized. Calcium levels must be adjusted for low albumin. If Albumin is low, then the adjusted calcium value is higher than the measured serum calcium value

Question 64

_____ calcium is what determines the biological effect

Answer 64

Ionized calcium

Question 65

what effect do PTH and calcitonin have on Ca+ balance?

Answer 65

PTH causes increased calcium reabsorption in the kidney and decreased excretion. It also causes bone resorption, therefore increasing calcium.

Calcitonin is produced in the thyroid gland, increases excretion of calcium in the kidneys acutely, but has little effect on chronic calcium homeostasis. (“tones” it down)

Question 66

during what procedure is it common to have to measure the Calcium every 30 mins

Answer 66

During a parathyroidectomy, often times you will need to measure the serum calcium level every 30 minutes or so as an indication of removal of the parathyroid glands. Once PTH stops being released with removal of the gland, the Calcium level will substantially drop.

Question 67

symptoms of hypocalcemia

Answer 67

mental status changes, tetany, laryngospasm, hypotension, dysrrhythmias. Chvostek’s sign, Trousseau’s sign. Tetany is due to hyperexcitable neurons caused by hypocalcemia.

Question 68

how is hypocalcemia treated?

Answer 68

calcium chloride or calcium gluconate

SLOWLY

Question 69

causes of hypercalcemia

Answer 69

Due to hyperparathyroidism most often, or an excess of Vitamin D, Renal failure, and paraneoplastic disorders (secondary to cancer).

Question 70

symptoms of hypercalcemia

Answer 70

Symptoms: Abdominal pain or discomfort
Bone pain and fractures
Decreased appetite
Difficulty concentrating, Excessive thirst & urination, Fatigue, Low back pain, Malaise or lethargy
Muscle twitching or weakness
Nausea and vomiting
Depression

Question 71

treatments for hypercalcemia

Answer 71

parathyroidectomy, diuretics, fluid replacement, dialysis, calcitonin type medications

Question 72

what are the metabolic functions of magnesium?

Answer 72

Inhibits ACH release
Activates 300 enzyme systems, including many involved in energy metabolism.
Essential for production/function of ATP.
Essential for DNA, RNA, and protein synthesis.
Regulates calcium access into the cell and the actions of calcium in the cell.
Natural physiological calcium antagonist

Question 73

which patients are commonly on a Mg regimen?

Answer 73

preeclamptic (acts as an anticonvulsant due to cerebral vasodilation)

Question 74

Mg is a cofactor of ___ uptake and is often used to treat what electrolyte imbalance?

Answer 74

Potassium
many times hypokalemia can not be fully corrected by administration of K + alone . Magnesium is required for adequate processing of K+, and if the patient’s magnesium is low, they will have refractory hypokalemia. Magnesium is a cofactor for potassium uptake.

Question 75

Magnesium is 18 times more concentrated in the ______ than in the plasma and acts as an anticoagulant and vessel dilator, which helps keep the _________ patent.

Answer 75

heart

coronary arteries

Question 76

how is Mg eliminated and why is that important?

Answer 76

IV Mag has 100% renal elimination. Magnesium also potentiates the NMB, as well as anesthetics, opioids, and hypnotics. AVOID in patients with heart block!!

Question 77

who is susceptible to hypomagnesemia?

Answer 77

Critical care patients, athletes, high metabolic states (pregnancy), diuretics/prolonged diarrhea, chronic alcoholics.

Question 78

signs and symptoms of hypomagnesemia

Answer 78

CNS irritability: seizures, hyperreflexia, muscle spasm, signs are similar to hypocalcemia.

Question 79

what are the symptoms of hypermagnesemia and how is it treated?

Answer 79

S&S: Decreased DTR’s, sedation, hypoventilation, bradycardia, hypotension, muscle weakness. EKG changes.
Treatment: Diuretics, fluid loading, dialysis

Question 80

how does Mg affect the EKG?

Answer 80

Hypomagnesemia is a cause of a polymorphic Vtach- Torsades de Pointes. It starts with a long QT interval.

Hypermagnesemia causes wide QRS, long P-R interval, hypotension, myocardial depression.

Question 81

how do you know what is normal/when to treat the PaO2 after a blood gas?

Answer 81

alveolar O2 equation or you can just estimate using paO2/fio2, which should be >400 mmHg. Hypoxemia is indicated by a ratio less than 300.

Question 82

what is base excess and what does it tell you?

Answer 82

Base Excess refers to the amount of proton needed to bring the blood pH back to 7.4. It is an indicator of the metabolic component of pH in the blood.

Question 83

what is the difference between CO2 and base excess?

Answer 83

While carbon dioxide defines the respiratory component of acid-base balance, base excess defines the metabolic component.

Question 84

what are the pH and PaCO2 values for respiratory acidosis?

Answer 84

pH < 7.35
PaCO2 > 45 mmHg

Increase the patient’s ventilation!

Question 85

what are the pH and PaCO2 values for respiratory alkalosis?

Answer 85

pH > 7.45
PaCO2 < 35 mmHg

Decrease the patients ventilation

Question 86

what are the pH and HCO3 values for metabolic acidosis?

Answer 86

pH < 7.35
HCO3_ < 22 mEq/L
BE > -2 mEq/L

HCO3 = temporary fix

Question 87

what are the pH and HCO3 values for metabolic alkalosis?

Answer 87

pH > 7.45

HCO3_ > 26 mEq/L

Question 88

how is metabolic acidosis treated?

Answer 88

HCO3- (mEq/L)=BE x kg x 0.3
Treat underlying cause: (Hypovolemia, DKA, Hypoxia, etc) Blood products, fluid, oxygen, insulin, respiratory compensation (hyperventilation).

Question 89

how is metabolic alkalosis treated?

Answer 89

Chloride administration, volume correction with NaCl, respiratory compensation (hypoventilation).
Treat underlying cause ( citrate toxicity, hypovolemia, vomiting/GI suction, diuretics)

Question 90

what electrolytes are in NS? What is its osmolarity?

Answer 90

Na+
Cl-

308 mOsm/L

Question 91

what electrolytes are in LR? What is its osmolarity?

Answer 91

Na+
Cl-
K+
Ca2+
Lactate

273 mOsm/L

Question 92

what electrolytes are in plasma-lyte? What is its osmolarity?

Answer 92

Na+
Cl-
K+
Mg2+
acetate
gluconate

294 mOsm/L

Question 93

what are the pH levels the following crystalloids…

D5W, 0.9 NS, LR, and Plasma-Lyte?

Answer 93

D5W = 5 pH
0.9 NS = 4.2 pH
LR = 6.5 pH
Plasma-Lyte = 7.4 pH

NOTE: all of the other crystalloids we’ve studied have a pH around 5 - 5.6 .