Acid-Base Balance - PowerPoint PPT Presentation

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Acid-Base Balance

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James Howard Acid-Base Balance [H+] maintained at 35-45 nmol/L pH 7.35 7.45 120nmol or – PowerPoint PPT presentation

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Title: Acid-Base Balance


1
Acid-Base Balance
  • James Howard

2
Acid-Base Balance
  • H maintained at 35-45 nmol/L
  • pH 7.35 7.45
  • gt 120nmol or lt20nmol incompatible with life
  • Affecting
  • Enzyme activity
  • Hydrogen ion transporters (N.B K)
  • Osmolality

K
Cell
H
3
Acid Production
  • Fixed (non-volatile) acids
  • Mainly from oxidation of amino acids
  • 60 mmol/day ? 4 mmol/L
  • Respiratory (volatile) acids
  • Carbonic acid (H2CO3)
  • In a state of equilibrium with CO2

4
Balance
  • Usually acid excretion acid production, through
  • Buffering Practically instantaneous
  • Respiratory control Minutes
  • Renal response Days/weeks
  • (The liver)

Cliché
5
Buffering
  • Dogs infused with 14mmol/L H
  • Rise of 36 nmol/L observed
  • Huge buffering capacity
  • Base excess acid required to blood pH to 7.4
  • Bicarbonate mainly responsible in ECF
  • HCO3- H ? CO2 H2O
  • Catalysed by Carbonic anhydrase
  • Amongst fastest enzymes in nature
  • Also plasma proteins, phosphates, Hgb

6
But...
  • Buffering relies on a steady supply of base
  • Buffering system cannot handle changes in several
    variables
  • pKa of the bicarbonate system is 6.1
  • Fortunately, the body is not a closed system!

7
In a Nutshell
  • (CO2 H2O ? H2CO3 ? H HCO3- )
  • CO2 H2O ? H HCO3-

Buffering
Controlled by lungs
Controlled by kidneys
8
Respiratory Control
  • ?pCO2 ? ?pH
  • Rapid good circulation CO2 lipid soluble
  • Typically pCO2 drives respiratory control via pH
  • 1A physiology with CO2 absorber
  • CSF has little buffering capacity
  • BBB impermeable to protein, H, HCO3-
  • CO2 diffuses across BBB proportional ?pH
  • Chemoreceptors input to medullar respiratory
    centre
  • N.B Roles of peripheral chemoreceptors

9
Gratuitous Schematic
Ventrolateral medulla
H HCO3-
CO2
CSF
CO2
HCO3-
H
Albumin
Blood
CO2
HCO3-
H
Albumin
10
But...
  • We can buffer changes in pH
  • We can blow CO2 off to reduce H
  • At the expense of HCO3-
  • But what if
  • ?pCO2 respiratory acidosis
  • ? H - metabolic acidosis
  • AND how do we (re)generate our HCO3-?

11
Renal Regulation
  • So many different hypotheses, Ill go with
  • We form ammonium (NH4) and bicarbonate
  • We reabsorb them both
  • We secrete what we dont want

12
Renal Regulation
  1. Glutamine ? NH4 HCO3-
  2. Reabsorption of HCO3-
  3. Reabsorption of NH4
  4. Secretion of NH4

13
The Liver
  • Produces 20 of daily CO2 (? HCO3- H)
  • Protons can be consumed bicarbonate formed
  • Metabolism of organic anions (citrate, lactate,
    ketones etc.)
  • Key in lactic acidosis etc.
  • Bases can be eliminated in the urea cycle
  • 2NH4 2HCO3- ? H2N-CO-NH2 3H2O CO2
  • Inhibited by ?pH
  • Produces plasma proteins, important for buffering

14
In a Nutshell
  • (CO2 H2O ? H2CO3 ? H HCO3- )
  • CO2 H2O ? H HCO3-

Buffering
Controlled by lungs
Controlled by kidneys
The Liver
15
Miss AM
  • 20 y/o female
  • Admitted with a crushed chest
  • High H pCO2
  • Bicarbonate not increased

ABG H PCO2 HCO3- PO2
Result 63 nmol/L 10.1 kPa 29 mmol/L 6.4 kPa
(Reference) (35-45) (4.6 - 6.0) (21 28) (10.5 13.5)
16
Mr. X
  • 28 y/o male
  • 1/7 Hx of severe vomiting (non-bilous)
  • Self-medicating chronic dyspepsia
  • Severely dehydrated shallow respiration

17
ABG H PCO2 HCO3- PO2
Result 28 nmol/L 7.2 kPa 43 mmol/L 13 kPa
(Reference) (35-45) (4.6 - 6.0) (21 28) (10.5 13.5)
Serum Na K Cl- HCO3- Urea Creat.
Result 146 mmol/L 2.8 mmol/L 83 mmol/L 41 mmol/L 31 mmol/L 126 µmol/L
(Ref.) (135 - 145) (3.5 5.0) (95 - 105) (21 28) (2.5 8.0) (40 - 130)
Urine showed ?Na, ?K, pH 5
  • Diagnosis?
  • Low H, high bicarb
  • Raised pCO2
  • Uraemia, but normal creatinine
  • Hypokalaemia, 3 causes
  • Hypernatraemia
  • Classical paradoxical acid urine

H
Cell
K
18
Summary
  • 4 key players in acid-base balance, problems in
    any
  • Ventilatory failure
  • Renal failure
  • Metabolic lactic acidosis, diabetic
    ketoacidosis
  • Look at the H to see if acidotic/alkalotic
  • Look at bicarb/pCO2 to see if metabolic or
    acidotic
  • Look at other electrolytes
  • Hyperalosteronism, H/K, uraemia etc.
  • The history is key!
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