Test 2- Electrolytes

Question 1

What is the major extracellular fluid ion?

Answer 1

Sodium. It is actively eliminated from cells via sodium pump. Major
influence on osmolalilty.

Question 2

How is sodium regulated?

Answer 2

Through adequate intake (especially herbivores), renal tubular absorption via aldosterone, intestinal absorption, osmoreceptors that secrete ADH indirectly influence serum sodium concentration.

Question 3

Sodium metabolism and plasma volume?

Answer 3

There is a balance between intake and losses. Urine, GIT, sweat all
affect plasma volume.

Question 4

What are the 2 sodium balance regulated and interdependent systems:

Answer 4

Osmoreceptors in hypothalamus sense increased osmolalitly and secrete ADH
• Stretch receptors sense volume changes

Question 5

What stimulates ADH?

Answer 5

ADH responds to increase osmolality and decrease in plasma volume. Acts on collecting ducts to maximize water reabsorption.

Question 6

How are sodium and the RAAS related?

Answer 6

The RAAS is the main regulator of sodium balance. Sodium
reabsorbed in distal tubule.
• Aldosterone secreted in response to angiotensin, hyperkalemia and ACTH. Aldosterone conserves sodium and secretes potassium

Question 7

What are causes of hyponatremia?

Answer 7

Loss of sodium in the GI, renal, cutaneous, 3rd spacing
• Shifts- plasma hyperosmolality (not due to sodium)
• Increase extracellular water- edematous states, CHF, cirrhosis,
nephrotic syndrome.
• Decrease intake (herbivores)

Question 8

What is the most common cause of hyponatremia?

Answer 8

Excess sodium loss. - Hypovolemia
• GIT- vomiting, diarrhea, saliva.
• Renal loss- hypoadrenocorticsism (addisons), (decrease
aldosterone- increase in potassium), ketonuria, prolonged diuresis.
• Cutaneous- sweating, burns
• 3rd spacing – sequestration of fluid (fluid in plasma moves into 3rd
space and plasma sodium decreases (peritonitis, ascites,
uroabdomen, chylothroax, Gi sequestration)

Question 9

what is a fluid shift?

Answer 9

Osmotic shift form the ICF to the ECF. Common cause is hyperglycemia- for ever 100mg/dl increase in glucose there is approximately 2 mEq decrease in sodium. Mannitol can cause this as well

Question 10

What are causes of increased extracellular water therefore leading to hyponatremia?

Answer 10

Primary polydipsia (psychogenic water drinking), excessive administration of sodium poor IVF, occasionally seen w/ edematous conditions; nephrotic syndrome, severe chronic hepatic or renal failure, congestive heart failure, psychogenic polydyspsia

Question 11

What is cause of hyponatremia especially in herbivores (ruminants)?

Answer 11

Decreased intake- give a salt lick

Question 12

What are consequences of hyponatremia if other osmotically active substances are not increased? (such as glucose, urea for example)

Answer 12

Hyposmolality, cellular edema (cellular overhydration)- If sodium level in blood lower than in the cell then you have water moving into the cell and the cells rupture

Question 13

what are the 2 usual cause of hypernatremia?

Answer 13

Usually due to dehydration. Inadequate water intake (lack of
water supply, inability to drink, defective thirst mechanism) or pure water loss (panting/high fever/high stress, diabetes insipidis)

Question 14

What is a less common source of hypernatremia?

Answer 14

Excess Sodium intake or retention- ingestion/ IV administration,
increased alodsteron(VERY RARE)

Question 15

what is a major extracellular fluid anion that is important in transport of electrolytes and water that is involved in acid base metabolism?

Answer 15

Chloride.

Question 16

What do you need to look at when evaluating chloride?

Answer 16

First look at sodium. Then look at Tc02

Question 17

What if you have changes in NA and Cl and they are proportional?

Answer 17

Consider differentials that pertain to abnormalities in sodium(hypernatremia causes and hyponatremia cuases- remember Na and Cl move together)

Question 18

What if you have changes in Na and Cl that are not proportional?

Answer 18

Consider acid base balance (Cl concentrations greater than

Na concentrations)

Question 19

How is chloride regulated?

Answer 19

Based on electrochemical gradients. Corresponds to the active
transport of sodium.

Question 20

What interferes w/ chloride transport?

Answer 20

Furosemide and Gi enterotoxins.Chloride is usually regulated secondary to sodium. Usually parallels sodium concentration.

Question 21

What are causes of hypochloremia?

Answer 21

Generally parallels losses of sodium. All causes of decrease

sodium are causes of decrease chloride

Question 22

What is the most common cause when chloride loss exceeds sodium loss?

Answer 22

Hypochloremic metabolic alkalosis- usually through gastric
secretions not resorbed by the small intestine: monogastric-
severe vomiting and ruminants- abomasal disorder, high Gi
obstructions
• Also sweating in horses.

Question 23

What is selective chloride loss?

Answer 23

When chloride loss exceeds sodium loss. (sever vomiting inruminaints. Leading to hypocholoremic metabolic alkalosis

Question 24

What is the equation for calculated corrected chloride?

Answer 24

Cl- corrected = Cl measured x Na (mean normal)/ Na (measured)
o If corrected Cl is still below the reference interval, a selective loss of chloride is suspected.
• Normally hydrogen and chloride are secreted into the stomach and sodium and bicarb are put into the plasma. Sodium and bicarb reunite w/ Chloride and hydrogen in the duodenum (not the case w/ a duodenum obstruction so it can lead to a hypochloremic metabolic alkalsosis net gain of bicarb as pH increases. Net loss of chloride

Question 25

what is paradoxical aciduria w/ selective chloride loss?

Answer 25

Volume depletion, chloride depletion. (kidney resorbed sodium to
correct dehydration b/c of the vomiting occurring and resorbs bicarb instead of chloride (electroneutrality) resulting in an exacerbated alkalosis (more bicarb). But to keep electrical neutral- the bicarb is absorbed rather than the chloride. So becomes even more alkalemic and aciduric.

Question 26

Is hyperchloremia common?

Answer 26

No, uncommon. It normally is a result of paralleled increase in
sodium (same causes of hypernatremia.
• Hyperchloremic metabolic acidosis (GIT loss of bicarb, proximal and distal renal tubular acidosis.
• Alkalemic/ bicarb excess- bicarb excreted in the distal nephron. Generates H+ and Cl follows H+ into plasma (maintain electroneutraliitiy)

Question 27

POTASSIUM:

Answer 27

• a major intracellular cation that is associated w/ IC osmotic pressure and IC fluid volume. Critical in resting membrane potentials, carbohydrate metabolism and electron transport.

Question 28

What are clinical signs of abnormal serum k+ concentrations?

Answer 28

Cardiac dysfunction- can be life threatening, and skeletal muscle dysfunction

Question 29

How is potassium regulated?

Answer 29

Adequate intake, renal excretion (promoted by aldosterone, K+
exchanged for sodium), sweat, Gi Loss

Question 30

What are causes of hyperkalemia?

Answer 30

• Failure of renal excretion- most common.
• Redistribution- inorganic acidosis, insulin deficiency, muscle
trauma: rhabdomyolysis, massive hemolysis
• Increase intake- parenteral administration of potassium

Question 31

Most common cause of hyperkalemia

Answer 31

Hyperkalemia- renal failure of excretion. Most common cause of hyperkalemia

Question 32

What are causes of failure of renal excretion?

Answer 32

Oliguria/anuria, urethral obstruction, ruptured urinary bladder, hypoadrenocrticism (decreased aldosterone), drugs that decrease K+ excretion- spironolactone

Question 33

How is hypoadrenocorticism associated w/ hyperkalemia?

Answer 33

Decreased aldosterone associated w/ K+ retention and sodium loss.
• A low Na:K ratio =

Question 34

What are examples of redistribution that cause hyperkalemia?

Answer 34

Inorganic acidosis, insulin deficiency, severe muscle trauma (rhabdomyolysis, seizures)
• Redistribution is a major mechanism behind hyperkalemia. In an acidosis. H and K balance maintains electroneutralitiy
between ICf and ECF. When increase in proton, the cells will take up proton and then to maintain electroneutrality puts potassium int the ECF.

Question 35

What do you have to be concerned about w/ giving high K+ IV fluids?

Answer 35

Hyperkalemia- increased potassium

Question 36

Hyperkalemia- increased potassium

Answer 36

• Generally in vitro not in vivo. ! EDTA tubes
• Marked thrombocytosis: leakage of intracellular potassium
• Hemolysis: K + released from RBC
Separate the serum quickly- horses, pigs, most cattle, some sheep. Akitas, some Japanese dog breeds. Mice rats, monkeys ! these animals have high intracelluarl potassium concentrations.

Question 37

what does hypokalemia usually indicate?

Answer 37

• Marked depletion of cellular potassium.
• Decreased intake or low K+ IV fluids
• Loss (alimentary- vomiting, diarrhea, abomasal disorders
• Renal- diuresis, Cushing’s, renal failure in cats
• Horse sweat
• Redistribution- alkalemia, insulin injection

Question 38

what are consequences of hypokalemia?

Answer 38

If K+ concentration is

Question 39

What occurs w/ potassium during diarrhea?

Answer 39

Potassium and bicarb loss via the GIT track leads to an acidosis and protons enters the cells and potassium leaves the cells- may bask the hypokalemia actually present so serum K levels can be normal! potassium supplementation may be indicated despite normal serum potassium

Question 40

How can an alkalosis cause hypokalemia? (redistribution hypokalemia)

Answer 40

Increase in bicarb outside cell yields proton to move outside of the
cell and to keep elecrtoneutrality potassium will move back into the
cell yielding a hypokalemic state.

Question 41

How does insulin cause a redistribution hypokalemia?

Answer 41

Insulin spike (glucose bolus or exciement or injected insuil) puts potassium in the cell and puts proton out in the cell

Question 42

what is fractional excretion of electrolytes?

Answer 42

Relates to fractional excretion of creatinine. Expressed as a
percentage. Shows kidney involvement in electrolyte losses.
Normal Fractional excretion suggests non renal cause for
electrolyte loss such as diarrhea

Question 43

What does water balance depend on?

Answer 43

Adequate intake, renal and GI function, losses in sweat and

respiration, neural control

Question 44

What is osmolality?osmolarity?

Answer 44

osmolalility= [solute] per kg of solvent (mOsm/kg)- 1 osmole of solute added to 1 kg (1L) of water
• osmolarity= [solute] per liter of solution (mOsm/L) 1 osmole of solute placed in a beaker and water is added to make the 1 L.
• osmolality does not equal osmolarity.

Question 45

What is an effective osmole?

Answer 45

Osmotically active- molecule/ion that can cause water to move toward it. In serum, effective osmoles are sodium, chloride, bicarb, proteins, glucose, ethylene glycol

Question 46

How is serum osmolality measured?

Answer 46

By freezing point depression –dogs- normal 300 mOsm/kg. cat 310 mOsm/kg
• Osmolarity be estimated from a calculation
o Osmolality = 2[Na] + [BUN]/2.8 + [glucose]/18

Question 47

What is the osmole gap?

Answer 47

Osmole gap= measured osmolality- calculated osmolality

Question 48

What does an increased osmole gap indicates?

Answer 48

An increase in an osmotically active molecule in blood; that is not measured on the serum biochemical profile
• Ex- toxins! ethylene glycol, methanol, paraldehyde. Mannitol or radiographic contrast medium
o If the osmole gap is less than or eequal to 30 ! normal
o If osmole gap is greater than 30! there is an unaccounted
osmole

Question 49

What if there is no difference between claclated osmolarity and measured
osmolality but there is an increased in measured osmolality?

Answer 49

Normal osmole gap w/ increased measured osmolality there is increased sodium or markedly increased urea or glucose.

Question 50

What is there is no difference between clacluated osmolality and measured
osmolality but there is no decrease in measured osmolality?

Answer 50

Normal osmole gap w/ decreaed measured osmolality - there is a decrease in sodium concentration even a marked decrease in UN or glucose can only cause a minor decrease in osmoaltiy

Question 51

What if there IS a difference between calculated and measured osmolality w/
an increase in measured osmolality?

Answer 51

There is increase in the osmole gap and signifies the presence of unmeasured osmole (ex ethylene glycol
Remember- hydration status is indicative of the vascular blood volume.

Question 52

What does low body water or high plasma osmolality lead to?

Answer 52

Leads to increase thirst and decrease renal water excretion

Question 53

What does excess body water or low plasma osmolality lead to ?

Answer 53

Leads to increase renal water excretion
Water balance—hydration! blood volume. Water follows solute concentration gradients. Proximal tubule, intracellular fluid versus extracellular fluid

Question 54

Blood volume is influenced by movements of electrolytes wand water – how?

Answer 54

• Increae or decrease intake, losses, retention, shifts (ICF in or out to
ECF)
• Regulated by sensing of plasma osmoalilty, blood pressure
Sodium is a major constituent of plasma osmolality (ECF) and is actively controlled. Increase in sodium leads to increase ECF, decreased sodium leads to decrease ECF.
Potassium is a major in ICF but plasma sodlium is influenced by potassium. If total body potassium decreases than sodium will move into cells to maintain electroneutralitiy

Question 55

What does hyperosmolaltiy and hyposomolatity due to the hypothalamic osmoreceptors?

Answer 55

Hyper- stimulates thirst and release ADH (ADH directly rleaed by influenced of sodium cocnetration in blood and blood volume- therefore hyperosmolality and hypovolemai)
• Hypoosmolality- decreased water intake and increased renal water loss

Question 56

What stimulates release of aldosterone?

Answer 56

Plasma volume, hyperkalemia, angiotensin II, ACTH, acts on
collecting ducts (Na resorption, exchanged for K+ or H+)

Question 57

What is ANF?

Answer 57

Atrial natriuretic factor. It is released when there is increase increase central venous blood pressure causing loss of sodium in urine and diuresis, or vasodilation. It inhibits aldosterone release.
• Increased osmolality stimulates thirst centers

Question 58

What laboratory evidence demonstrate dehydration?

Answer 58

Polycythemia/erythrocytosis; increased plasma proteins (panhyperproteinemia), increased USG, dehydration can be hypertonic, isotonic, hypotonic (water loss, electrolyte loss)

Question 59

What do you need to look at when evaluating hydration?

Answer 59

Clinical signs, body weight, PCV/TP, USG, BUN, creatinine (serial evals may be important)

Question 60

What is hypertonic dehydration?

Answer 60

When sodim an chlrodie are both elevated (water loss exceeds electrolyte loss)
o Diabetes insipidius, diabetes mellitus, osmotic diuretics, osmotic diarrhea, water deprivation

Question 61

What is isotonic dehydration?

Answer 61

When sodium and chloride are w/in the reference interval. Water loss is equivalent to electrolyte loss
o Causes- renal dz, diarrhea

Question 62

What is hypotonic dehydration?

Answer 62

Look at sodium and chlrodie- both decreased- hypotonic dehydration. Electrolyte loss is greater than water loss! causes: secretory diarrhea, vomiting (Na, Cl, K w/ our w/ot bicarb), 3rd space loss, heat stress and sweating in horses (often Cl- losses are greater than sodium losses)

Question 63

What are problems associated w/ hypotonic dehydration?

Answer 63

Fluid shifts from vasculature into cells. Vascular volume decreases further and cells swell- cerebral edema (occurs when sodium is

Question 64

What are causes of overhydration and what are the consequences?

Answer 64

IV fluid administration in renal failure. If inadequate renal water elimination. May cause cardiovascular overload, pulmonary edema, generalized edema