Metabolic Acid-Base Disorders

Question 1

DiBartola

Answer 1

Chapter 10 Metabolic Acid-Base Disorders

Question 2

How may a metabolic acidosis occur?

Answer 2

loss ofHCO3
Addition of fixed acid
Or failure of renal excretion of fixed acid.

Question 3

What are common causes of bicarb loss?

Answer 3

gastrointestinal tract (e.g., small bowel diarrhea),
Kidneys
(e.g., carbonic anhydrase inhibitors, proximal renal tubular acidosis)

Question 4

What are examples of addition of fixed acids?

Answer 4

lactate, ethylene glycol, ketones, ureamia

Question 5

What stimulates a respiratory response after an acute acid load

Answer 5

peripheral and central chemoreceptors increasing alveolar ventilation

Question 6

Do dogs and cats have similar resp comp regarding metabolic acidosis?

Answer 6

No, evidence is limited but suggests cats do not compensate to the same extent

Question 7

Chronic metabolic acidosis reduces HCO3 by two mechanisms - what are they?

Answer 7

Direct effect of buffering and
A reduction in renal HCO3 reabsorption that accompanies secondary hyperventilation.

Question 8

How do kidneys respond to an acute acid load?

Answer 8

Mainly augmenting NH4 excretion (cats may not do this we don’t know) and resorbing HCO3.

Question 9

What are the detrimental consequences of a metabolic acidosis

Answer 9

decreased cardiac output,
decreased arterial blood pressure, and decreased hepatic and renal blood flow
Decreased myocardial contractility.
Predisposition to arrhythmias

Question 10

How does acidosis affect the oxyhaemoglobin dissociation curve?

Answer 10

shifts right, –> enhancing O2
release from hemoglobin, but this effect is offset by a decrease in red cell 2,3-diphosphoglycerate, after 6 to 8 hours of acidosis and shifts the curve
back to the left

Question 11

How does acidosis affect K+ conc

Answer 11

Increases plasma conc if due to an organic acid –> due to transcellular shift

Question 12

How does acidosis affect Ca2+?

Answer 12

Should increase iCal due to a reduction of albumin binding sites resulting in more free Ca

Question 13

How is renal tubular acidosis characterised?

Answer 13

hyperchloremic metabolic acidosis caused by either decreased HCO3 reabsorption (proximal RTA) or defective acid excretion (distal RTA)

Question 14

What is the hallmark of distal RTA

Answer 14

Increased urine pH
(>6.0) in the presence of acidosis

Question 15

How may a Dx of RTA be diagnosed?

Answer 15

ammonium chloride tolerance test - admin PO ammonium chloride and continually measure urine pH

Question 16

Why is proximal RTA usually thought of as ‘self limited’

Answer 16

As HCO3 is unable to be resorbed proximally - it can be in the distal tubules and usually allows bicarb to be maintained at a new slightly lower setpoint

Question 17

What other resorption abnormalities usually accompany proximal RTA?

Answer 17

glucose,
phosphate, sodium, potassium, uric acid, and amino acids

Question 18

How is proximal RTA Dx?

Answer 18

acid urine pH (<5.5 to 6.0) in the presence of
hyperchloremic metabolic acidosis and a normal GFR but an when HCO3 increased to normal –> increased urine pH (>6.0) and increased urinary fractional excretion of HCO3 (>15%)

Question 19

What breed is predisposed to fanconi?

Answer 19

Basenji

Question 20

What co-morbidity may be associated with RTA

Answer 20

copper hepatopathy - RTA resolved with copper chelation.

Question 21

Why do infused amino acids result in metabolic acidosis?

Answer 21

Due to resulting H+ and NH+ as it is converted to urea in the liver

Question 22

Disorders associated with an increased anion gap

Answer 22

Pg 260

Question 23

What is the process of ethylene glycol metabolism

Answer 23

ehtylene glycol –> glycoaldehyde (in the presens of alcohol dehydrogenase) –> glycolic acid –> glyocylic acid –> oxalate and a-hydroxy-b-ketoadipate

Question 24

What aspect of ethylene glycol metabolism is primarily responsible for metabolic acidosis?

Answer 24

Glycolic acid

Question 25

What causes renal damage?

Answer 25

glycoaldehyde, glycolic acid, and glyoxylic acids, and calcium oxalate crystals

Question 26

What are some clinpath features of ethylene glycol

Answer 26

azotemia, isosthenuria, hypocalcemia, hyperphosphatemia,
and hyperglycemia. Calcium oxalate dihydrate and monohydrate (more specific) on UA

Question 27

why is ethanol use?

Answer 27

Alcohol dehydrogenase has greater affinity for ethanol than EG.

Question 28

Why does salicyate intoxication result in metabolic acidosis

Answer 28

Uncouples ox-phos in mitochondria –> results in build up of lactate, ketones, and others

Question 29

What products are detected in urine ketone strip?

Answer 29

Acetoacetate and acetone

OMG
(This problem can be overcome by adding a few drops of hydrogen peroxide to urine, which nonenzymatically converts b-hydroxybutyrate to acetoacetate.)

Question 30

How may volume status affect the anion gap of a presenting patient with DKA?

Answer 30

Patients with severe volume depletion have an
increased anion gap because of retention of ketoanions, whereas those without volume depletion have hyperchloremia as a result of increased urinary excretion of the sodium and potassium salts of ketoanions and retention of chloride

Question 31

What results in an increased anion gap metabolic acidosis in renal disease

Answer 31

retention of phosphates, sulfates and organic anions - this usually only happens when GFR reduces to 10-20%

Question 32

Whats the difference between type A and Type B lactic acidosis

Answer 32

Type A (hypoxic) - mitochondrial function is normal but O2 delivery to tissues is inadequate
Type B (non-hypoxic) - there is adequate O2 delivery to tissues but defective mitochondrial oxidative function and abnormal carbohydrate metabolism.

Question 33

How long you wait before judging the effect of administered bicarb?

Answer 33

at least 30 mins

Question 34

What is the main goal in treating a metabolic acidosis?

Answer 34

Recognition and treatment of the cause

Question 35

What is the aim of bicarb therapy?

Answer 35

To increase pH to 7.2 to ameliorate the consequences of acidosis

Question 36

Why are bicarb dosing guidelines difficult to create

Answer 36

Bc compensatory CO2 will change with admin. Vd changes with time –> 15min to ECF and 2-4 hrs to bone and intracellular

Question 37

What are the complications of bicarb admin?

Answer 37

• volume overload caused by administered sodium,
• tetany resulting from decreased serum ionized calcium concentration caused by increased binding of calcium to plasma
  proteins,
• decreased O2 delivery to tissues because of increased affinity of hemoglobin for O2,
• paradoxical CNS acidosis as hyperventilation abates and CO2 diffuses into CSF,
• late development of alkalosis as metabolism of
  organic anions (e.g., ketoanions, lactate)
• hypokalemia as potassium ions enter and H+ ions exit intracellular fluid in response to alkalinization of ECF

Question 38

Metabolic Alkalosis

Answer 38

Pg 271

Question 39

How may a metabolic alkalosis be caused?

Answer 39

loss of chloride rich
fluid from the body via either the gastrointestinal
tract or kidneys or by chronic administration of alkali.

Most cases of metabolic alkalosis in small animal
practice are caused either by vomiting of stomach
contents or by administration of diuretics.

Question 40

What are the two types of metabolic alkalosis

Answer 40

Chloride responsive (due to volume depletion - very common) and chloride non-responsive

Question 41

What is the adaptive respiratory response to metabolic alkalosis

Answer 41

alveolar hypoventilation. 0.55-0.7mmHg increase per 1mEq/L increase in HCO3

Question 42

As renal HCO3 excretion of bicarb is rapid, why may a metabolic alkalosis persist?

Answer 42

Metabolic alkalosis persists
only if renal excretion of HCO3
is impaired.

if GFR is decreased (i.e., decreased filtered load
of HCO3

), a continued high rate of alkali administration,
or some stimulus for the kidneys to retain sodium
in the presence of a relative chloride deficit.

Question 43

What are the clinical signs associated with metabolic alkalosis?

Answer 43

underlying disease
Seizures reported in humans
hypokalaemia, hypocalcemia

Question 44

Why may an increased anion gap occur in metabolic alkalosis

Answer 44

increased numbers of negative charges
on proteins and partially the result of the increase in
plasma protein concentration that occurs as a consequence
of ECFV depletion

Question 45

Why may diuretics cause a metabolic alkalosis

Answer 45

disproportional loss of chloride.
Also result in sodium loss –> sodium avidity in the tubules –> more H+ and K+ excreted

Question 46

What two conditions may result in chloride resistant metabolic alkalosis

Answer 46

Hyperaldosteronism, and hyperadrenocortisism