Acid base imbalances

Question 1

Henderson Hasselbach Equation

Answer 1

pH = pK + log [HCO3]/alpha*pCO2

Question 2

What dose H+ secretion result in? in terms of HCO3

Answer 2

HCO3 reabsorption

Generation of new HCO3. only after after all filtered HCO3 has been reabsorbed

Question 3

Where does HCO3 reabsorption and H+ secretion occur?

Answer 3

In the proximal tubule and collecting duct

Question 4

How does H+ secretion in the proximal tubule occur?

Answer 4

In the cell: CO2+H2O –> HCO3- + H+

Na/H exchanger absorbs Na, pushes out H+ into the urine

H+ + HCO3 (freely filtered from glomerulus) –> H2O + CO2

The CO2 can diffuse back into the cell! This is the CO2 that we use in the first equation

Then that HCO3 from the first equation can go into the blood with the Na/HCO3 cotransporter

Net = Na reabsorbed, H+ excreted, bicarb reabsorbed into blood

Question 5

How does H+ secreiton occur in the collecting duct?

Answer 5

H2O + CO2 –> H+ + HCO3-

The H+ is pumped into the lumen with H+ ATPase

In the lumen, NH3 combines with the H+ to form NH4+, which stayis in the urine

The HCO3 from the first equation goes into the blood with a Cl:HCO3 exchanger

Net: reabsorb one HCO3, excrete one H+

Question 6

Metabolic acidosis: pH, primary, and compensation

Answer 6

pH<7.4

Primary: low HCO3

Compensation: low pCO2

Question 7

Respiratory acidosis: pH, primary, and compensation

Answer 7

pH < 7.4

Primary: high pCO2

Compensation: high HCO3

Question 8

Metabolic alkalosis: pH, primary, and compensation

Answer 8

pH >7.40

Primary: high HCO3

Compensation: high pCO2

Question 9

Respiratory alkalosis: pH, primary, and compensation

Answer 9

pH >7.40

Primary: low pCO2

Compensation: low HCO3

Question 10

What can cause metabolic acidosis?

Answer 10

Increased metabolic acid production: lactic or ketoacids

HCO3 losses: renal, non-renal (GI)

Renal failure

Acid ingestion

Question 11

Formula for net acid excretion

Answer 11

NH4 + Titratable acid - HCO3

Question 12

How does acid ingestion increase ammonia synthesis and excretion?

Answer 12

As you ingest more acid, your body makes and excretes more NH3

Up to a point!! It’s saturable

Question 13

Which type of renal disease decrease NH3 production?

Answer 13

In tubulo-interstitial diseases, where you have atrophic tubules; when you get <20% normal nephrons, the daily NH3 production is too low so they present as acidotic!

Not in glomerular diseases, where they have normal tubules

Question 14

What is the anion gap?

Answer 14

Na - (Cl+HCO3)

Question 15

What does a high anion gap mean?

Answer 15

That metabolic acidosis is due to the presence of some unmeasured anion

Question 16

What can cause high anion gap metabolic acidosis?

Answer 16

Lactic acidosis (lactate)

Diabetic ketoacidosis (beta-OH butyrate)

Renal failure

Toxins: salicylate (lactate, salicylate), ethanol (formate), ethylene glycol (oxalate)

Question 17

What can cause lactic acidosis?

Answer 17

Ischemia/hypoxia: ischemia, hypoxia due to pulm dz, severe anemia

With normal pO2: can be: severe exercise, malignancies, thiamine deficiency, severe liver dz

Drugs: metformin

D-lactic acidosis

Question 18

What causes diabetic ketoacidosis?

Answer 18

Insulin leads to increased glucose uptake into muscle but also increases lipogenesis

Low insuiln –> increased free fatty acid levels from lipolysis

Question 19

What are the 3 components of diabetic ketoacidosis?

Answer 19

Hyperglycemia (osmotic diuresis, volume depletion)

Metabolic acidosis

High anion gap (beta-OH butyrate, acetoacetate, somewhat elevated lactate levels)

Question 20

What can cause normal anion gap metabolic acidosis?

Answer 20

It’s going to be hypercholoremic

Can be due to non-renal HCO3 loss: diarrhea (bc increased Cl delivery to colon –> HCO3 secretion via Cl: HCO3 exchanger), uretero-sigmoidostomy

Renal HCO3 wasting

Question 21

What can cause proximal renal tubular acidosis?

Answer 21

Hereditary: cystinosis, hereditary fructose intolerance, CLC5 mutations, Lowe’s syndrome, Wilson’s dz, phosphorylase kinase deficiency, pyruvate carboxylase deficiency, CAII

Toxins: lead, mercury, cadmium, outdated tetracycline

Multiple myeloma

Renal transplant rejection

Hyperparathyroidism

Auto-immune dz: sjogren’s syndrome

Question 22

What can cause distal renal tubular acidosis

Answer 22

Mutations in: AE1, H+ ATPase, CAII, Mineralocerticoid receptor, epithelial Na channel

Toxins: amphotericin B, Li, toluene

Nephrocalcinosis

Sickle cell dz

Urinary obstruction

Autoimmune dz: sjogren’s syndrome

Question 23

What can cause type IV renal tubular acidosis?

Answer 23

Interstitial renal dz

Hyperkalemia

Hypo-reninemic hypoaldosteronism

Question 24

How can you get metabolic alkalosis?

Answer 24

Generation of excess HCO3: acid loss (vomiting, upper GI suction), HCO3 generation from metabolizable anions e.g. lactate, citrate, or beta-OH butyrate, HCO3 ingestion

Maintenance of excess HCO3: increased renal H+ secretion due to:

1. decreased filtration rate
2. volume depletion encourages proximal HCO3 reabsorption by high filtration fraction and AII stimulates Na/H exchanger
3. high aldosterone increases collecting duct H+ secretion and HCO3 generation

Question 25

How can you get high aldosterone levels that can contribute to the alkalosis?

Answer 25

1. primary hyperaldosteronism
2. secondary hyperaldosteronism: high renin, high ang II
   - volume depletion
   - diuretics
   - CHF
   - cirrhosis of the liver

Question 26

How do respiratory acid/base abnormalities cause changes in pH?

Answer 26

Primary event is change in rate of ventilation leading to a change in blood pCO2

CO2 diffuses into the cell changing the cell pH, which in turn changes the cell calcium

Increased Calcium causes exocytosis of H+ ATPase containing vesicles

Decreased calcium causes their endocytosis

Question 27

What can cause respiratory alkalosis?

Answer 27

Hyperventilation due to:

Hypoxia

Lung dz - pneumonia

Heard dz - pulm edema

Liver dz

Cerebral dz- encephalitis, meningitis

Drugs- aspirin

Hormones- progesterone

Question 28

What is the most common acid-base disorder?

Answer 28

Respiratory alkalosis

Question 29

What can cause respiratory acidosis?

Answer 29

Hypoventilation

Lung disease: emphysema, chronic bronchitis, asthma

Tracheal obstruction

CNS: coma, stroke, central hypoventilation with obesity

Generalized muscle weakness: ALS, myasthenia gravis

Drugs: morphine and opiates in general

Question 30

What is the effect of metabolic acidosis in renal failure?

Answer 30

Increases the progression of renal failure

Unknown mechanism

Correcting the acidosis reduces the rate of progression