Lecture 10: Fluid + Electrolytes Part 1

Question 1

How much of our body weight is composed of water?

Answer 1

50-60%
closer to 50 in women as they have more adipose tissue, closer to 60 in men

Question 2

What stuff other than water makes up our body?

Answer 2

Primarily proteins, followed by lipids, minerals, carbohydrates, and miscellaneous.

Question 3

How is the composition of weight broken down in a male vs a female?

Answer 3

A male has around 33% intracellular fluid, 21.5% interstitial fluid, 4.5% plasma, and 2% other.

In a female, 27% is intracellular, 18% interstitial fluid, 4.5% plasma, and 1.5% other.

Females have 50% of their body weight in solids, whereas males have 40%.

Question 4

How does our body water change as we age? (baby to adult)

Answer 4

For females, total body water, ICF, and ECF fluid all decrease. (they gain more adipose tissue in puberty)

For males, total body water and ECF decrease. ICF stays about the same.

Question 5

What two organs are barely made of water?

Answer 5

Skeleton (bone 22%)
Adipose tissue (10%)

Question 6

What two organs/things in our body are made almost entirely of water?

Answer 6

Blood (83%)
Kidneys (82.7%)

Question 7

How much of our total body water is intracellular fluid? what is intracellular fluid?

Answer 7

2/3 of our body water.
all fluid within body’s cells

Question 8

How is ECF broken down into its components?

Answer 8

25% is plasma, inside the blood vessels.
74-75% is interstitial fluid, outside of the body’s cells.
1% is transcellular compartment (third spacing!!), such as the CSF, joint spaces, GI/GU tracts and the 3 main body cavities (peritoneal, pleural, pericardial)

Question 9

how much of the body’s water is intracellular vs extracellular

Answer 9

intracellular 40% (~28 L)
extracellular 20% (~14% interstitial, 5% plasma, 1% trascellular

Question 10

What does a body fluid contain?

Answer 10

Electrolytes
- substances that dissociate in soltution to form charged particles (NaCl)

Ions
- charged particles formed by electrolyte dissociation (cations + anions)

Non-electrolytes
- particles that dont dissociate into ions (glucose, urea, ethanol)

Question 11

What is the predominant cation found in the ECF?

Answer 11

Sodium

Question 12

What is the predominant cation found in the ICF?

Answer 12

Potassium

Question 13

What is the predominant anion found in the ECF?

Answer 13

Chloride

Question 14

What is the predominant anion found in the ICF?

Answer 14

Hydrogen phosphate.

Question 15

What are the 3 primary cations found in the ICF?

Answer 15

Potassium, Sodium, Magnesium

Question 16

Define diffusion.

Answer 16

Movement of particles along a concentration gradient, from higher to lower conentration.

Question 17

Define osmosis.

Answer 17

Movement of water across a semipermeable membrane. (aka not all solutes can cross)

Question 18

Define osmotic pressure.

Answer 18

The pressure water creates as it moves across a semipermeable membrane.

Specifically, it is the hydrostatic pressure needed to counter the movement of water across the membrane.

Question 19

Define osmolality/osmolarity.

Answer 19

Osmolarity is # of solutes per L of solvent.
Osmolality is # of solutes per kg of solvent.

The greater the number, the greater the osmotic activity/pull, which draws water from one side of a membrane to another.

Question 20

What is plasma osmolality?

Answer 20

Posm

It is the ratio of plasma solutes to water.
Plasma solutes are mainly NaCl and sodium bicarb.

Normal: 275-290 Posm.
Walmart version: 2x serum sodium!!!!!

Note: Glucose and urea account for about 5% of osmotic pressure.

Question 21

What can cause rare changes in Posm?

Answer 21

Alcohol and acetones!

Question 22

What are plasma and ECF osmolality generally the same as?

Answer 22

ICF
Cell membranes are mostly permeable to water, so equilibrium is established.

Question 23

What is Urine osmolality?

Answer 23

of solutes per unit of water in urine.

Higher Uosm = concentrated urine.

Question 24

What is the effect of ADH on Uosm?

Answer 24

Increases it.
We secrete ADH when we need to retain water, so increased ADH would concentrate our urine, making the Uosm high. We would secrete ADH when our Posm is high, since we want more water to dilute our Posm.

High Posm => increased ADH => increased Uosm

Question 25

What is normal Uosm? How does it change if I am dehydrated?

Answer 25

500-800 mOsm/kg.

12-14 hrs of restricted fluid intake can increase it to 850.
Clinically dehydration can increase it to 1000.

Question 26

What happens to my urine specific gravity if I am dehydrated?

Answer 26

Increases, because my urine is more concentrated.

Question 27

Define tonicity.

Answer 27

Effect that the effective osmotic pressure of a solution has on the SIZE OF CELLS.

It is dependent on the membrane’s permeability to certain solutes.

Question 28

What is tonicity also known as?

Answer 28

Effective Plasma Osmolality.

Question 29

What are the receptors that monitor our Posm and where are they found?

Answer 29

Osmoreceptors, found in the hypothalamus and carotids.

Question 30

What are the 3 types of tonicity?

Answer 30

Isotonic = same osmolality as the ICF.
Hypotonic = decreased osmolality relative to the ICF.
Hypertonic = increased osmolality relative to the ICF.

Question 31

What happens to an RBC in a hypotonic solution?

Answer 31

It will swell up like a balloon.

Question 32

What happens to an RBC in a hypertonic solution?

Answer 32

It will shrivel up like a raisin.

Question 33

What are the 4 forces that affect the movement of water from the plasma to the interstitium?

Answer 33

Capillary filtration (hydrostatic) pressure.
Capillary colloidal osmotic pressure.
Interstitial hydrostatic pressure.
Tissue colloidal osmotic pressure.

Note:

Colloidal draws water into wherever it is, aka capillary colloidal would draw water INTO the capillary.

Hydrostatic pushes water OUT of wherever it is, aka capillary hydrostatic would push water OUT of the capillary.

Question 34

What happens if the pressure inside a vessel is greater than the interstitium?

Answer 34

It will exit the vessel.

Question 35

Define edema.

Answer 35

Palpable tissue swelling caused by expansion of interstitial fluid volume.

Question 36

What are the two types of edema in terms of palpation?

Answer 36

Pitting edema: fluid exceeds the absorptive capacity of the gel-based interstitial matrix. AKA when you press on someone, it makes a pit, rather than returning back to normal.

Non-pitting edema: Usually excess plasma proteins in interstitial tissue. Often seen in infection, trauma, lymph system abnormalities, and thyroid disease.

Question 37

What are the 4 primary pathophysiological phenomena that contribute to the development of edema?

Answer 37

Increased capillary filtration pressure (aka pushing fluid out of the capillaries). This results in increased intravascular volume and/or venous obstruction.

Decreased capillary colloidal osmotic pressure. (aka inability to keep fluid in the capillaries). This is due to increased loss or decreased protein production.

Increased capillary permeability.
Obstruction of lymph flow.

Question 38

What is the key difference in fluid composition of pitting edema vs non-pitting edema?

Answer 38

Pitting edema is mainly water.

Non-pitting is proteins, salts, and water.

Question 39

How much water does the average person need?

Answer 39

100 mL of water per 100 calories metabolized.

AKA about 2L of water for a 2k calorie diet.

Question 40

What does fever do to our thirst?

Answer 40

Increases it.

We get a higher metabolic and respiratory rate when we are feverish.

Question 41

What parts of our body cause us to lose water?

Answer 41

Kidneys 1500mL
Skin 600 mL
Lungs 300 mL
GI Tract 100 mL

Question 42

What causes us to gain water?

Answer 42

Drinking water 1600mL
Eating food 700 mL
Metabolic water 200 mL

Question 43

How does my cell maintain most sodium outside?

Answer 43

Na/K/ATPase pump to kick it out.

Question 44

Why is sodium so important?

Answer 44

Regulates ECF volume.

Contributes to excitability of tissues.

Helps with acid base balance as a part of sodium bicarb.

Question 45

What receptor monitors our effective circulating volume?

Answer 45

Baroreceptors, found in the heart and blood vessels.

Question 46

What regulates our water intake and water output?

Answer 46

Intake is through thirst, which is stimulated by increased ECF osmolality or decreased volume.

Output is through ADH, which is stimulated by increased ECF osmolality or decreased volume.
ADH will cause vasoconstriction and increased reabsorption of water at the collecting duct.

Question 47

What are polydipsia, hypodipsia, SIADH, and DI?

Answer 47

Polydipsia = very thirsty a lot
Hypodipsia = almost never thirsty

SIADH = syndrome of inappropriate ADH secretion, aka your body makes way too much ADH.
DI = diabetes inspidus, which makes you always thirsty and causes you to pee dilute urine a lot.

Question 48

What will our body do if it detects a drop in osmotic pressure or blood volume?

Answer 48

Increased:
Sympathetic NS output
RAAS activation
ADH secretion
Thirst

Decreased:
Atrial natriuretic peptide (ANP)

Question 49

What will our body do if it detects an increase of osmotic pressure or blood volume?

Answer 49

Decreased:
SNS output
RAAS deactivation
ADH
Thirst

Increased:
ANP

Question 50

What is the pathophys of an isotonic fluid deficit?

Answer 50

Decrease in overall ECF volume, with a PROPORTIONATE loss of water and sodium. No change in tonicity!!

Etiology:
Decreased fluid intake
Excessive fluid loss from GI, renal, or skin issues.
Excessive third spacing from edema or ascites.

Question 51

What happens if my body stays in an isotonic fluid deficit?

Answer 51

Decreased intravascular volume will lead to decreased capillary filtration pressure. This means stuff is not leaving the capillaries well, so exchange of stuff is impaired.

Question 52

How do I compensate for isotonic fluid loss?

Answer 52

Increased thirst
Decreased urine output.

Question 53

What kind of lab abnormalities do I see in isotonic fluid loss?

Answer 53

Increased Uosm.
Increased Urine specific gravity.
Increased hematocrit (aka RBCs per unit of water)

Question 54

How do I manage isotonic fluid loss?

Answer 54

Correct the underlying cause, give them NS.

Question 55

What is the pathophys of isotonic fluid excess?

Answer 55

Increased ECF volume.

Etiology: Decreased sodium and water elimination or increased intake.

Decreased elimination can be a result of CHF, liver failure, renal failure, or corticosteroids.

Increased intake can be from diet intakes, excess fluid replacements, or hypertonic fluids.

Question 56

What will my body do in isotonic fluid excess?

Answer 56

Lower secretion of ADH and aldosterone.
Move fluid out of capillaries.

Question 57

How is isotonic fluid excess present in lab findings?

Answer 57

Decreased Uosm
Decreased urine specific gravity
Decreased hematocrit.

Question 58

How do people with isotonic fluid excess compensate?

Answer 58

Drink less water and sometimes pee more.

Question 59

How is isotonic fluid excess managed?

Answer 59

Correction of underlying cause.

Diuretic therapy

Reduction of sodium and/or fluid intake.

Question 60

What are the two ways hyponatremia can occur? Hypernatremia?

Answer 60

Overhydration OR loss of sodium and water to below 135.

Dehydration or gain of sodium and water over 135.

Question 61

What do most causes of hyponatremia typically indicate?

Answer 61

Water imbalance and abnormal water handling.

Question 62

What happens to cells in hyponatremia?

Answer 62

Swelling!

Question 63

What is the first step in checking for hyponatremia?

Answer 63

Checking serum sodium.

Question 64

What can affect my calculation of Posm?

Answer 64

Glucose and BUN.

Question 65

What are the other steps for checking hyponatremia?

Answer 65

Check serum Osomlality.
Check overall volume status.

Question 66

How I check someone’s overall volume status?

Answer 66

Physical exam + Urine osmolality plus specific gravity to check the calculation.

Question 67

What is Uosm often used to measure approximately?

Answer 67

ADH function/acitivity.

Question 68

What can we add on to an Uosm test to get a better idea of?

Answer 68

We can add a urine sodium to get an idea of RAAS activity as well.

Question 69

What are the 3 types of hypotonic hyponatremia?

Answer 69

Euvolemic hyponatremia
Hypervolemic hyponatremia
Hypovolemic hyponatremia

Question 70

What is isotonic hyponatremia sometimes called?

Answer 70

Pseudohyponatremia

Question 71

What causes isotonic hyponatremia?

Answer 71

Extra molecules in blood, such as extra proteins from IVIG/multiple myeloma or high lipids (such as triglycerides)

Note:
No mention of a volume increase or low sodium, hence why it is isotonic.

Question 72

What causes hypertonic hyponatremia?

Answer 72

Osmotic shift of water from ICF to ECF.

Sodium in the bloodstream gets diluted, but tonicity stays the same because there is an extra molecule boosting the osmolality up, such as glucose or radiocontrast.

Note:
RBCs will shrivel up since water is leaving them, hence the hypertonic part.

Question 73

What causes hypovolemic hypotonic hyponatremia?

Answer 73

Water retention in excess to sodium.

AKA

Hypovolemic hypotonic hyponatremia (You lose water with sodium, but you’re losing MORE SODIUM than water)

If you’re losing only a little sodium to your urine, <10 mEq, then it is extrarenal salt loss.

If it is > 20 mEq, then it is renal salt loss.

Question 74

What causes hypervolemic hypotonic hyponatremia?

Answer 74

Water retention in excess to sodium.

AKA you have so much water diluting your sodium. You could still have above average sodium, but you have way above average water.

MCC: HF, liver disease, and kidney disease.

Question 75

What causes euvolemic hypotonic hyponatremia?

Answer 75

Water retention in excess to sodium.

It is often due to ADH, such as:
SIADH: body says hold onto water, get rid of sodium.

Hypothyroidism: Decreased CO causes increased ADH, bc the body thinks we need more blood.

Psychogenic polydipsia: We drink so much water at once that our sodium drops rapidly due to dilution.

Beer potomania: We can’t excrete water as well.

Note: Accounts for 60% of all hyponatremias.

Question 76

What determines the pathophys consequences of hyponatremia?

Answer 76

How quickly the Na concentration changes.

Question 77

How long does it usually take our body to adjust to hyponatremia?

Answer 77

Usually about 48 hours, as our osmoreceptors will stop water retention.

Question 78

What happens if too much fluid goes out of a cell too fast?

Answer 78

Osmotic demyelination syndrome/central pontine myelinolysis.

Question 79

Why do we need to treat hyponatremia slow?

Answer 79

People may be adjust to chronic hyponatremia, and correcting it too fast will cause fluid to leave cells, causing cell death.

Question 80

What happens to muscle cells in hyponatremia?

Answer 80

Swelling, leading to cramps and weakness.

Question 81

What lab abnormalities signify hyponatremia?

Answer 81

Serum sodium < 135 mEq

Note:
Osmolality and urine Na can vary greatly.

Question 82

What are the neuro symptoms of hyponatremia?

Answer 82

HA
Anxiety, depression, altered behavior
Confusion/AMS
Lethargy
Decreased DTRs
Seizures
Coma
Respiratory arrest
Death

Question 83

What are some of the miscellaneous symptoms of hyponatremia?

Answer 83

GI, such as N/V/D, anorexia
Malaise
Pulmonary edema (severe)
Fingerprint edema

Question 84

How do we manage hyponatremia if asymptomatic?

Answer 84

Management of underlying cause

Do not always fluid restrict.

If asymptomatic:
Diuresis to get rid of excess water, +/- salt tablet or hypertonic saline bolus (50 mL of 3% NS)

Question 85

How do we manage hyponatremia if symptomatic?

Answer 85

1 or more boluses of hypertonic solution (100 mL of 3%)

The goal: 4-6 mEq/L in the first few hours and then increase.

Loop diuretics (monitor K loss)

Question 86

How do we manage persistently hyponatremic patients?

Answer 86

Salt tablets
Fluid restriction (<800 mL/day)

Vasopressin (V2) Receptor antagonists:
Block ADH effect, no effect of Na/K excretion.

Meds are conivaptan and tolvaptan.
SE include thirst/polydipsia, polyuria, dry mouth, fatigue.
BLACK BOX WARNING: severe liver injury.

Monitor: LFTs, electrolytes, renal function.
Interactions with grapefruit juice, digoxin, and meds that can cause hyperkalemia.

Question 87

What is the pathophys of hypernatremia?

Answer 87

Serum Na > 145 mEq/L
This is because Na accounts for 90-95% of ECF osmolality.

High ECF osmolality is always almost indicative of high Na.

Question 88

What does normal Uosm mean in hypernatremia?

Answer 88

It means that the ability of the kidneys to conserve water is intact.

Question 89

What does low Uosm mean in hypernatremia?

Answer 89

It is a characteristic of DI.

Neurogenic means inadequate ADH release.
Nephrogenic means kidneys are insensitive to ADH.

Question 90

What generally causes hypernatremia?

Answer 90

A loss of body water or increased intake of sodium.

Body water loss often comes in the form of excess urination, GI tract, lungs, skin, or poor intake.

Increased sodium intake is generally via ingestion or infusion.

Overall, this causes hypertonicity, which shrinks cells and affects cell metabolism.

Question 91

What is euvolemic hypernatremia?

Answer 91

TBW is down.
Total body sodium is the same, but proportionately higher.

Caused by DI: excess urine formation, no response to ADH.

Question 92

What is hypervolemic hypernatremia?

Answer 92

Body gains excess sodium and retained water as a result, but not enough to dilute the sodium.

Caused by: excess NS, sodium bicarb, or excess salt tablets.
Primary aldosteronism.

Question 93

What is hypovolemic hypernatremia?

Answer 93

TBW and sodium are down.
Water is down faster than sodium.

Caused by:
Low urine sodium dt diarrhea or excess sweating.

High urine sodium dt loop diuretics or severe hyperglycemia.

Question 94

What are the lab abnormalities I would expect in hypernatremia?

Answer 94

Serum Na > 145 mEq/L
Increased serum osmolality
Normal/low urine osmolality
Urine specific gravity increased
Increased hematocrit and BUN

Question 95

What can cause increased ADH secretion?

Answer 95

thirst
polydipsia
oliguria/anuria

Question 96

What neuro symptoms would I expect to see in hypernatremia?

Answer 96

HA
Agitation, irritability, restlessness
Abnormal DTRs (usually depressed)
Delirium
Seizures
Coma
Death

Question 97

What are common symptoms of dehydration?

Answer 97

Hypotension
Weak, rapid, thready pulse,
Decreased skin turgor
Dry mucous membranes

Question 98

How do I manage hypernatremia?

Answer 98

Management of underlying cause.
Try to calculate free water deficit, giving free water fluids like 1/2 NS or D5W.

Question 99

How do I manage acute hypernatremia?

Answer 99

More rapid correction, needs to be adjusted in 24 hours to avoid CNS damage.

Question 100

How do I manage chronic hypernatremia?

Answer 100

Slowly, decrease 6-12 mEq/L per day.
Fast corrections will cause CNS edema.