Physiology 6 - Acid Base Flashcards

1
Q

What are hte major sources of H+?

A

Respiratory Acid (CO2+H2O -> Carbonic acid)

Metabolic Acid (Inorganic e.g. sulphuric acid from Amino acids or organic e.g. fatty acids/lactic acid)

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2
Q

What is the normal arterial pH?

A

7.4

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3
Q

What is the normal concentration of bicarbonate/

A

24mmoles/l

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4
Q

What are the major H+ buffer systems of the body?

A

1) Bicarbonate
2) Plasma proteins
3) Dibasic -> Monobasic phosphate (HPO4 {2-} + H{+} -> H2PO4{-} )
4) Intracellular buffers
5) Bone carbonate

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5
Q

Whats the consequence of using intracellular buffers?

A

H+ ions moved into the cells must either come with Cl- or be exchanged with K+ to maintain electrical equilibrium.
In acidosis this can cause Hyperkalemia –> Vfib & death

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6
Q

Whats the consequence of using bone carbonate as a buffer?

A

Occurs mainly in chronic renal failure when H+ can’t be excreted.
Causes bone wasting due to the chronic acid load

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7
Q

How much H+ do you take in a day?

A

50-100mmoles/day

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8
Q

BY what mechanisms do the kidneys regulate acid/base balance?

A

1) Reabsorption of Bicarbonate
2) Excretion of H+ as titratable acids
3) Excretion of H+ with ammonium

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9
Q

Explain the process of HCO3- reabsorption?

A

1) H+ ions actively secreted into proximal tubule (coupled to passive Na+ Reabsorption)
2) H+ & filtered bicarbonate form carbonic acid
3) dissociates to CO2/H2O which are then reabsorped
4) forms carbonic acid again in proximal tubule cell
5) dissociates to H+ & bicarbonate
6) bicarbonate is reabsorped and H+ secreted again for the same purpose

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10
Q

How is H+ excreted as a titrable acid?

A

Excess (Exceeding Tm) dibasic PO4{2-} ions reach distal tubule.
H+ secreted into distal tubule (coupled to passive Na+ reabsorption) and binds to dibasic phosphate
Making monobasic phosphate (HPO4{-})
Which is then excreted

This process is dependant on blood PaCO2

Also works with uric acid and creatinine

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11
Q

What else is produced when H+ ions are excreted as titratable acids?

A

New bicarbonate.
Blood CO2 is absorbed into distal tubule cells
+water –> Carbonic acid
Then dissociates to H+ (for secretion) and HCO3- (absorped into blood)

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12
Q

Whats different about ammonium excretion compared to other methods of regulating Acidity?

A

It is variably active.
Normally it excretes 30-50mmoles H+/day but during a chronic acid load the kidneys can synthesize new proteins over 4–5 days and up that to 250mmoles/day

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13
Q

How does ammonium excretion work in the distal tubule?

A

Ammonium (NH3) is lipid soluble but ammonia (NH4+) is not.
Distal Tubule:
1) Renal glutaminase deaminates amino acids producing NH3
2) NH3 moves into lumen, combines with H+ –> NH4+ and is excreted

The H+ ions are secreted from the distal tubule cells after being produced from blood CO2 (So this process is also reliant on PaCO2)

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14
Q

How does ammonium excretion work in the proximal tubule?

A

Almost the same as in the distal.

But H+ and NH3+ combine in the cell and are actively excreted using a NH4+/Na+ exchanger

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15
Q

What else is produced during ammonium excretion?

A

HCO3- is produced when you make H+ from blood CO2 to secrete. The bicarbonate is then reabsorped into the blood

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16
Q

Summary of renal regulation:

A

1) HCO3- reabsorption # No new HCO3- # No net excretion of H+ # Proximal tubule
2) H+ excretion as titrable acids # New HCO3- produced # Net loss of H+ as monobasic phosphate # Distal tubule
3) Ammonium excretion # New HCO3- # Net loss of H+ as NH4+ # Proximal and distal tubule

17
Q

Describe the blood gasses of Respiratory Acidosis?

A

High PaCO2 = Directly
High HCO3- = Kidney’s regulating pH
Slightly acidic pH

18
Q

What could cause respiratory alkalosis?

A

Acute- aspirin or high altitude

Chronic - Low PaO2 or high altitude

19
Q

Describe the bloods of respiratory alkalosis?

A

Low PaCO2 = directly
Low HCO3- = because less H+ means less secretion which means less HCO3- reabsorption/production
Slightly raised pH

20
Q

What can cause metabolic acidosis?

A

Excess H+ or loss of HCO3-:

1) Increased H+ production e.g. DKA
2) Decreasd H+ excretion e.g. renal failure
3) Decreased intestinal HCO3- reabsorption e.g. Diarrhoea

21
Q

Describe the bloods of metabolic acidosis?

A

Low PaCO2 = kussmauls respiration blows off CO2 to lower H+
Low HCO3- = Directly (either lost or used up buffering extra H+)
pH slightly low

22
Q

What can cause metabolic alkalosis?

A

H+ ion loss in vomit
Excess aldosterone –> Na+ reabsorption in exchange for H+ –> More H+ excretion and also less H+ available for HCO3- reasborption.
Excess HCO3- administration in the renally impaired
Massive blood transfusions (contain citrate for anticoagulation)

23
Q

Describe the bloods of metabolic alkalosis?

A

High PaCO2 = to raise acidity
High HCO3- = Directly
Slightly high pH

24
Q

What is the anion gap?

A

A measure of the difference between the principle cations (Na+/K+) and anions (Cl-/HCO3-).
Usually about 14-18mmoles/l more cations than anions.

25
Q

When is the anion gap a useful measurment?

A

In acidosis
It increases when bicarbonate is used up by lactic acidosis/DKA

It stays the same when HCO3- is lost in the gut as its compensated by extra Cl-

26
Q

Patient with pH = 7.32, [HCO-3]= 15 mM, PCO2 = 30mmHg (4kPa)
What Acid/base disturbance is this?

A

Metabolic acidosis

pH low = Acidosis
HCO3- & PaCO2 are low = metabolic acidosis

27
Q

Patient with pH = 7.32, [HCO-3]= 33 mM, PCO2 = 60mmHg (8kPa)

What acid/base disturbance is this?

A

pH low = Acidosis
PaCO2 high = Respiratory acidosis
High HCO3- = Chronic

Crhonic because more H+ means more HCO3- production and reabsorption.
In the acute form HCO3- would not be elevated

28
Q

Patient with pH = 7.45, [HCO-3] = 42 mM, PCO2 = 50mmHg (6.7kPa)

What they got?

A

high pH = alkalosis

High HCO3- & PaCO2 = metabolic

29
Q

pH = 7.45, [HCO-3]= 21 mM, PCO2 = 30mmHg (4kPa)

What they got?

A

high pH = alkalosis
Low PaCO2 = Respiratory
Normal HCO3- = acute (chronically it would adjust downward)

30
Q

Patient with pH = 7.31, PCO2 = 7.7.kPa, (58mmHg), [HCO3-] =36mmoles/l.
Which of the following is true:
1. It is likely that he has renal disease.
2. He may have an acute respiratory infection.
3. It is possible that he may have chronic bronchitis.
4. There will be a decrease in his excretion of ammonium ions.
5. His plasma potassium will be reduced.

A

3!!

1) He’s acidotic but his HCO3- is still raised so hes not losing to renal disease
2) Hes in respiratory acidosis, we know its not acute due to the high HCO3- so it not a resp infection
3) His High HCO3- indicates it a chronic respiratory acidosis as its compensating with more HCO3-
4) False it will increase
5) False it will go up as H+ is exchanged into cells for K+ in order to be buffered

31
Q

The following acid/base values were obtained:
pH = 7.25, [HCO3-] = 12mmoles/l, PCO2 = 3.3kPa (25mmHg)

Which of the following are true?

1) They are indicative of a respiratory acidosis
2) The reduction in Pco2 is a result of under-breathing
3) The subject has probably been taking bicarbonate of soda
4) It could be related to impaired renal function
5) The subject may have been vomiting very badly

A

4!! They’re in metabolic acidosis

1) Low HCO3- and PaCO2 indicates its metabolic
2) False, you hyperventilate in response to acidosis
3) Why would their bicarbonate be so low
4) True, thats where the HCO3- might be going
5) that would cause alkalosis (So a high pH)