Final- Perioperative Fluid Therapy (7/25/23)

Question 1

What percentage of total body weight is water?

Answer 1

• 60%

Elderly and Obese patients will have lower percent of water in the body.

Pediatrics will have HIGHER percent of water in the body (Table 47.1)

Question 2

What are the two main compartments fluid compartments?

Answer 2

• Intracellular Fluid (ICF) makes up two-thirds of total body water
• Extracellular Fluid (ECF) makes up one-third of total body water

Question 3

What are the different compartments of the ECF?

Answer 3

• Interstitial: lymphatics and protein-poor fluid around the cell.
• Intravascular: plasma volume
• Transcellular: GI Tract, Urin, CSF, Joint fluid, aqueous humor.

Question 4

What is diffusion?

Answer 4

• Solute particles moving or filling solvent volume
• High to Low concentration
• Speed is proportional to the distance square
• Can occur across permeable membranes
• Can relate to electrical gradients

Question 5

What are examples of the type of solutes that are in our body?

Answer 5

• Glucose
• Protein (Albumin)
• Electrolytes

Question 6

What is the primary extracellular cation?

Answer 6

• Sodium (Na+)

Question 7

What is the primary intracellular cation?

Answer 7

• Potassium (K+)

Question 8

What is osmosis?

Answer 8

• Semipermeable membrane that separates pure water from water with solute.
• Osmosis is just the movement of WATER
• Diffuses from low to high solute concentration

Question 9

What is osmotic pressure?

Answer 9

• Pressure that resists the movement of water through osmosis

Question 10

What is osmotic pressure affected by?

Answer 10

• Temperature
• Number of Molecules
• Volume

PV = nRT

Question 11

What is osmolarity?

Answer 11

• Number of osmotically active particles per L of solvent
• Higher osmolarity, higher “pulling power”

Question 12

Patient A has serum glucose of 600mg/dl

Patient B has serum glucose of 250mg/dl

Who has higher osmolarity?

Answer 12

• Patient A

Question 13

What is osmolality?

Answer 13

• Number of osmotically active particles per Kg of solvent

Question 14

What is normal osmolality?

Answer 14

• 280-290 mOsm

Question 15

What is oncotic pressure?

Answer 15

• The component of total osmotic pressure due to colloids

Question 16

List examples of colloids

Answer 16

• Albumin
• Globulins
• Fibrinogen

Question 17

What percentage of oncotic pressure is due to albumin?

Answer 17

• 65-75%

Question 18

What makes up our daily intake?

Answer 18

• Solids (750 mL)
• Liquids (1400 mL)
• Metabolism (350 mL)

Question 19

What makes up our daily output?

Answer 19

• Insensible Loss (1000 mL)
• GI loss (100 mL)
• Urine output (0.5-1 mL/kg/hr)

Question 20

Urine secretion accounts for ____-% of daily water loss.

Answer 20

• 60%

Question 21

What hormones regulate urine output?

Answer 21

• ADH
• ANP
• Aldosterone

Question 22

How does ADH regulate urine output?

Answer 22

• Renal H2O excretion in response to plasma tonicity

Question 23

How does ANP regulate urine output?

Answer 23

• ANP is activated by ↑ fluid volume
• ↑ Atrial Stretch = ↑ Renal Excretion

Question 24

How does Aldosterone regulate urine output?

Answer 24

• Regulates sodium and potassium levels
• Aldosterone is released if sodium and fluid volume decreases, causing sodium and water conservation.

Question 25

What are the sensors for fluid balance?

Answer 25

• Hypothalamic osmoreceptors
• Low-pressure baroreceptors (large veins and RA)
• High-pressure baroreceptors (carotid sinus and aortic arch)

Question 26

What is the trigger for fluid balance?

Answer 26

• Increased thirst or increase ADH

Question 27

What are the compensatory mechanisms for acute disturbances in circulating volume?

Answer 27

• Venoconstriction
• Mobilization of venous reservoir
• Autotransfusion from ISF to plasma
• Reduced urine production
• Maintenance of CO…tachycardia, increased inotropy

Question 28

Where is Renin released?

What does Renin do to angiotensinogen?

Answer 28

• Released from juxtaglomerular cells
• Cleaves angiotensinogen to make angiotensin I

Question 29

When ANG I → ANG II, what will this cause?

Answer 29

• Vasoconstriction and aldosterone release

Question 30

Where is aldosterone released from?

Answer 30

• Aldosterone is released from the adrenal cortex and causes salt and water retention

Question 31

In the absence of ongoing fluid loss, loss volume should be restored within ______- hours (range).

Answer 31

• 12-72 hours

Question 32

In the absence of ongoing fluid loss, RBC should be restored through erythropoiesis in ______ weeks (range).

Answer 32

• 4-8 weeks.

Question 33

What are the Electrolytes and Osmolarity of Normal Saline (0.9%)?

Answer 33

Na+: 154 mEq/L
Chloride: 154 mEq/L
Osmolarity: 308 mOsm/L

Question 34

What are the Electrolytes and Osmolarity of LR?

Answer 34

Na+: 130 mEq/L
K+: 4 mEq/L
Chloride: 109 mEq/L
Lactate: 28 mEq/L
Osmolarity: 274 mOsm/L

Question 35

What are the Electrolytes and Osmolarity of Plasmalyte?

Answer 35

Na+: 140 mEq/L
K+: 5 mEq/L
Cl-: 98 mEq/L
Acetate: 27 mEq/L
Osmolarity: 295 mOsm/L

Question 36

What are the Electrolytes and Osmolarity of Albumin 5%?

Answer 36

Na+: 145 +/- 15 mEq/L
K+: <2.5 mEq/L
Cl-: 100 mEq/L
Osmolarity: 330 mOsm/L

Question 37

What are the Electrolytes and Osmolarity of Hetastarch 6%?

Answer 37

Na+: 154 mEq/L
Cl-: 154 mEq/L
Osmolarity: 310 mOsm/L

Question 38

What are crystalloids?

Answer 38

• Solutions of electrolytes in water
• The are called balanced solutions (not really though, misnomer)
• LR is probably considered the most “balanced” crystalloid

Question 39

What are indications of using crystalloids?

Answer 39

• Replacement of free water and electrolytes
• Volume expansion

Question 40

With crystalloid administration and distribution throughout the EFC, what percentage will be in the intravascular space after 20 minutes?

What about after 30 minutes?

Answer 40

• 70% in the intravascular space after 20 minutes
• 50% in the intravascular space after 30 minutes

Question 41

What are the negative effects of crystalloids?

Answer 41

• Tissue Edema (Lungs, GI Tract, Soft Tissues)
• Hypercoagulability (Anticoagulant factors diluted)- micro emboli

Question 42

NS 0.9% is the most commonly fluid, but what are the negative consequence of this fluid?

Answer 42

• Dilutes Hct and Albumin
• Late onset of diuresis
• Increase AKI and dialysis in ICU patients
• Causes hyperchloremic metabolic acidosis if too much is given resulting in increase in chloride and potassium concentrations.

Question 43

What fluid will pull water out of the ICF to the ECF including the plasma? Furthermore, this fluid is used to treat HYPO-osmolar hyponatremia and treat increase ICP.

Answer 43

• Hypertonic Saline 3%
• Can be used to treat SEVERE TUR syndrome

Question 44

What is added to LR to act as a buffer?

Answer 44

• Lactate

Question 45

You want to avoid using this fluid for patients with liver insufficiency.

Answer 45

• LR
• Impair hepatic metabolism will have a hard time metabolism the lactate that is in LR.
• This can cause an increase build of lactate in the patient.

Question 46

Which fluid will excrete excess water faster than NS d/t the transient decrease in plasma tonicity which suppresses ADH secretion and allow diuresis?

Answer 46

• LR

Question 47

What happens to dextrose solution when the glucose is metabolized?

Answer 47

• Dextrose becomes a hypotonic solution
• Does not say in the vascular space
• Water moves freely between all compartments

Question 48

What fluid could be used for caloric intake in diabetic patients?

Answer 48

• Dextrose 10%
• Better options out there

Question 49

What are colloids?

Answer 49

• Large molecules of a homogeneous, non-crystalline substance that is dispersed in a second substance (usually a balanced crystalloid).
• Particles cannot be separated

Question 50

What are the two main types of colloids?

Answer 50

• Semisynthetic colloids (Starches)
• Human plasma derivatives (FFP, Albumin)

Question 51

How do colloids work?

Answer 51

• Colloids work by increasing colloid oncotic pressure (pulling force), which increases potential plasma volume expansion

Question 52

What are the negative effects of colloids?

Answer 52

• Causes hemodilution
• Decreases plasma viscosity
• Inhibit RBC aggregation
• Uncertain effect on immune and renal system (AKI)

Question 53

What colloid is derived from potatoes or corn (polymers of amylopectin)?

Answer 53

• Hydroxyethyl Starch

Question 54

The metabolism of hydroxyethyl starch is dependent on ______________.

Answer 54

• Molecular weight of molecules (small, medium, large)
• 70 to 80% of larger molecules are still in the intravascular space at 90 minutes.
• Plasma volume effect last longer

Question 55

What are the S/E of Hydroxyethyl Starch?

Answer 55

• Coagulopathy through dilution effects, leading to reduction in VWF, Factor VIII, Clot Strength.
• Renal Dysfunction

Question 56

The dextran is a highly branched polysaccharide produced by a bacteria called _______________.

Answer 56

• Leuconostoc Mesenteroides
• She probably won’t ask this question….

Question 57

Dextran have a plasma volume effect similar to that of starches, with a duration of _______ hours (range).

Answer 57

• 6-12 hours

Question 58

According to lecture, what is Dextran-40 used for?
Why?

Answer 58

• Microvascular Surgery
• Inhibits factor VIII, VWF, Platelet Aggregation prevent coagulation

Dextran-40 will coat the RBC and may interfere with cross-matching

Question 59

What are examples of human plasma derivative colloids?

Answer 59

• Albumin 5%
• FFP
• Immunoglobulin Solution

Question 60

Fluid alterations in the preoperative settings (long list, common sense).

Answer 60

• Na+ distribution disorder
• Dialysis requirement
• Chronic use of diuretics
• Dx of HTN
• Fasting
• Bowel Prep
• Acute Hemorrhage
• NVD, Suction
• 3rd spacing

Question 61

Fluid alterations in the intraoperative settings (alterations caused by CRNA).

Answer 61

• Vasodilation from anesthetics
• Sympathetic blockade (narcotics)
• Autoregulatory response
• Acute Hemorrhage
• Insensible Loss
• Inflammation related redistribution

Question 62

Assessment of Low Intravascular Volume

Answer 62

• Hypovolemia - ↑HR, ↓Pulse Pressure, ↓BP, ↓Cap Refill, 25% of volume must be lost
• Decreased Urine Output
• CVP
• Tissue Perfusion: Lactate, Mixed venous O2

Question 63

Assessment of High Intravascular Volume

Answer 63

• Increase capillary hydrostatic pressure
• Excess fluids in lungs, bowels, muscle
• Edema
• Reduced tissue oxygenation
• Poor wound healing
• Hypo/Hyper Coagulation

Question 64

What factors do you need to consider as a CRNA when assessing urine output for intravascular volume?

Answer 64

• Low UO can be d/t stress hormone release from anesthetic
• Low UO can be d/t low intravascular volume and inadequate perfusion to the kidney
• Low UO can be d/t the patient’s position, Steep Trendelenburg

Question 65

When would you use the “classic” fluid therapy?

Answer 65

• NPO Deficit
• Ongoing maintenance
• Anticipated surgical loss

Question 66

NPO Status for Clear Liquids

Answer 66

• 2 hours

Question 67

NPO Status for Breast Milk

Answer 67

• 4 hours

Question 68

NPO Status for Infant Formula

Answer 68

• 6 hours

Question 69

NPO Status for a Light Meal (scramble egg w/toast, coffee w/milk)

Answer 69

• 6 hours

Question 70

NPO Status for Meat/Fatty, Fried Food, Full Meal

Answer 70

• 8 hours

Question 71

Formula for Classic Fluid Therapy.

Answer 71

• 1st 10 kg = 4 mL/kg/hr
• 2nd 10kg = 2 mL/kg/hr
• Each kg over 20 kg = 1 mL/kg/hr

Question 72

Mr. Cartman’s Weight is 80 kg. Calculate Total NPO deficit using the classic fluid therapy.

Answer 72

Cartman is 80kg, using the 4-2-1 Rule.
4 mL/kg for 1st 10 kg = 40 mL
2 mL/kg for 2nd 10 kg= 20 mL
1 mL/kg for last 60 kg = 60 mL

120 mL/ hr x 8 hours = 960 mL deficit

Question 73

If Cartman’s fluid deficit is 960 mL and fluid maintenance is 120 mL/hour, what is the fluid plan for this patient?

Answer 73

Question 74

How much blood would the following hold when estimating blood loss in surgery:

Lap Sponge:
Raytech:
4x4 Gauze:

Answer 74

Lap Sponge (packs of 5): 100 mL
Raytech (pack of 10): 20 mL
4x4 Gauze: 10 mL

Question 75

What is the traditional crystalloid replacement ratio for a unit of blood loss preoperatively?

Answer 75

• 3L to 1 unit of blood loss

Question 76

How much fluid can be loss with a bowel prep?

Answer 76

• 2000 mL

Question 77

What is the fluid deficit for a fever?

Answer 77

• 10% fluid deficit for every 1 degree Celsius above 38C

Question 78

What are the different categories of evaporative/ redistribution losses?

Answer 78

• Minimal: 0-2 mL/kg/hr (robotics case)
• Moderate: 2-4 mL/kg/hr
• Severe: 4-8 mL/kg/hr (open belly)

Question 79

What is the Parkland Burn Formula?

Answer 79

• 4 mL x kg x TBSA% (whole number) = Fluids to replaced
• 1/2 over the first 8 hours
• 1/2 over the next 16 hours

Formula adjusted for obese patients.

Question 80

What is the percent body surface area of the entire head and neck?

Answer 80

• 9%

Question 81

What is the percent body surface area of the entire right arm?

Entire Left arm?

Answer 81

• 9%
• 9%

Question 82

What is the percent body surface area of the anterior trunk?

Posterior trunk?

Answer 82

• 18%
• 18%

Question 83

What is the percent body surface area of the entire right leg?

Entire left leg?

Answer 83

• 18%
• 18%

Question 84

What is the percent body surface area of the groin?

Answer 84

• 1%

Question 85

What fluid is used to replace burn patients?

Answer 85

• Lactated Ringers

Question 86

When is the Parkland Burn formula used?

Answer 86

• 20% of TBSA is burned
• 2nd and 3rd degree burns only

Question 87

If an 80kg patient has 20% of their TBSA burned, what would be the total fluid needed to be replaced in this patient?

Answer 87

• 4mL x kg x TBSA (%)
• 4 x 80 x 20 =6400 mL total
• 3200 mL replaced in the first 8 hours
• 3200 mL replaced in the next 16 hours

Question 88

For goal directed therapy, fluid administration is based on:

Answer 88

• CVP
• CO
• SV
• SVV

Patient will either be fluid responsive or unresponsive. If fluid responsive, a bolus will be administered. Fluid replacement is individualized.

Question 89

What have studies shown about the results of goal directed therapy?

Answer 89

• Less AKI
• Less Respiratory Failure
• Decrease Wound Infection
• Decrease Mortality

Question 90

What is the maintenance dose for goal directed therapy?

Answer 90

• 1-3 mL/kg/hr of crystalloid

Question 91

For goal directed therapy, a fluid challenge of ___________ mL will be used to increase SV.

Answer 91

• 250 mL

Question 92

What is used in goal directed therapy with blood loss or blood products?

Answer 92

• More likely to replace with colloid or blood products 1:1, rather crystalloids (3:1)

Question 93

What are the LIMITS to arterial waveform pressure monitoring (SVV Monitoring)?

Answer 93

• Low HR/RR
• Irregular rhythms
• Mechanical Ventilation w/ Low Vt
• Increased Abdominal Pressure
• Thorax Open
• Spontaneous Breathing

Any of these factors will result in an inaccurate reading on the monitor.

Question 94

What three factors does the arterial waveform pressure monitor take into account to calculate the Stroke Volume Variance?

Answer 94

• Systolic Pressure Variation: The difference between lowest systolic peak and highest systolic peak.
• Pulse Pressure Variation: The difference between the lowest diastolic pressure and the highest systolic pressure
• Stroke Volume Variation: The area under the “curve”

Question 95

What is normal Stroke Volume Variance (SVV)?

Answer 95

• 10-15%
• If above 15%, patient will be responsive to fluid (give fluid bolus)