Acid-base balance

Question 1

Acids and bases are

Answer 1

An acid is a compound that will donate a H+ ion to a solution
A base is a compound that will bind to H+ ions
Acidosis is when an animals blood pH is below the normal range
Alkalosis is when an animals blood pH is above the normal range

Question 2

What is buffering

Answer 2

Balancing acids and bases
The body’s ability to maintain pH between 7.35-7.45
It is critical to maintain pH within the normal range to ensure the function of cells and enzymes within the body

Question 3

3 ways the body buffers itself

Answer 3

Chemical buffering
Excretion of hydrogen and bicarbonate ions in urine
Adjustment of the resp rate

Question 4

When would you get an arterial sample

Answer 4

Elevate lung function

Question 5

When would you get venous samples

Answer 5

Metabolic function

Question 6

Why is pH important

Answer 6

Changes in pH affect enzyme and cell function → affect tissue and organ function including the brain and heart
May lead to death of patient
Presence of a change in body pH may also help us to determine the type of pathology that is occurring
Severe acidosis in a diabetic patient may indicate diabetic ketoacidosis
Lactic acidosis occurs with poor tissue perfusion

Question 7

Physiological buffering system

Answer 7

Carbonic acid is not stable and rapidly breaks down into bicarbonate and hydrogen ions
Summary: the amount of CO2 in the body varies a lot based on the resp rate. During cellular respiration, CO2 is produced and is rapidly converted to carbonic acid, which is rapidly converted to bicarbonate and hydrogen ions

Question 8

How is the carbonic acid equilibrium equation be affected

Answer 8

The body tries to regulate its own pH by adjusting the amount of CO2 in the body. This determines how much H+ is being produced. The concentration of H+ determines pH. The change in bicarbonate levels don’t have as significant of an effect on the body’s pH.
Take away message
The higher the level of CO2, the lower the bodys pH

Question 9

4 types of acid bace disturbances

Answer 9

Metabolic acidosis
Respiratory acidosis
Metabolic alkalosis
Respiratory alkalosis

Question 10

Metabolic acidosis is and causes

Answer 10

Blood pH is low <7.3
2 causes
Loss of bicarbonate (usually as diarrhea)
Normal ~25 mmol/L
Gain of organic acids
Ketoacids- diabetes mellitus
Uremic acids- severe kidney failure
Lactic acid- insufficient oxygen delivery to tissues
Organic acid toxicity- antifreeze poisoning, aspirin toxicity, alcohol poisoning

Question 11

What is base excess

Answer 11

Base excess (BE) is a measure of metabolic acidosis
Reported in mmol/L or mEq/L
It is the amount of a strong acid that would be required to bring the body’s pH of 1 L to 7.4
BE increases with a metabolic alkalosis and decreases with a metabolic acidosis
If the value is zero (+/-5), there is no metabolic acidosis
When value for base excess is less then -5 it is sometimes called a base deficit

Question 12

Metabolic acidosis and potassium is

Answer 12

In acidosis
Extracellular H+ is high
H+ can be exchanged for intracellular K+
This exchange may result in hyperkalemia
Cause bradycardia and death if severe enough
Correcting acidosis is an important component of treating hyperkalemia

Question 13

Metabolic acidosis and potassium clinical signs

Answer 13

Depression
Weakness
Recumbency
Alterations of cardio system
Death (pH<7)

Question 14

Metabolic acidosis and potassium treatment mild to moderate

Answer 14

Mild to moderate, pH 7.35-7.2
May rely on general therapy
Correct underlying problems
Fluids to improve tissue function
Allow body’s homeostatic mechanisms to correct pHMild or moderate cases may be treated with:
Oral electrolyte solutions
Polyionic IV electrolyte solutions
Solutions contain sodium bicarbonate OR sodium acetate, Lactate or propionate as alkalizing agents

Question 15

Metabolic acidosis and potassium treatment moderate to severe

Answer 15

Moderate to severe, pH <7.2
Generally corrected
Direct benefits
May promote excretion of toxic acids

Question 16

Severe metabolic acidosis is treated by

Answer 16

metabolic acidosis
Sodium bicarbonate IV
Na+ HCO3-
Bicarbonate requirement is calculated based on the severity of the acidosis

Question 17

Respiratory acidosis is and underlying causes

Answer 17

Low pH
Caused by accumulation of CO2
High CO2 drives production of carbonic acid
Underlying causes
Lung disease (asthma, pulmonary edema, lung neoplasia)
Too much anaesthetic gas
Changes in pCO2 indicate ventilation problems
Anaesthetic problems
Lung disease
High pCO2 is called hypercapnia

Question 18

Respiratory acidosis treatment

Answer 18

Anesthesia: what should you do if pCO2 is high
Check anaesthetic depth
Increased ventilation rate
Bagging patient
Reduce dead space
Ensure the mask/tube and bag size is appropriate for the patient
Diseased lung → improve lung function
Bronchodilators (asthma)
Diuretics (pulmonary edema)
Antibiotics
Anti inflammatories
May take time to resolve

Question 19

Metabolic alkalosis causes and treatment

Answer 19

High pH >7.45
High bicarbonate
Most common causes are:
Vomiting
Loss of HCl in the vomit
Upper GI obstruction
Pooling of HCl in the stomach
Iatrogenic
Treatment
Large volumes of 0.9% saline
Dilutes blood bicarbonate
As blood flows through the kidneys Cl- is reabsorbed from the urine and exchanged for bicarbonate which is secreted into the urine

Question 20

Respiratory alkalosis is and causes

Answer 20

High pH >7.45
Low pCO2
Caused by hyperventilation
Stress, anxiety
Excess manual ventilation during anaesthesia

Question 21

How to interpret blood gas analysis

Answer 21

Look at the pH first
-Acidotic or alkalotic
Look at the pCO2
-Increased → resp acidosis
-Decreased → resp alkalosis
Look at bicarbonate
-Decreased → metabolic acidosis
-Increased → metabolic alkalosis
Problem may be mixed for compensation

Question 22

Normal pH range

Answer 22

7.35-7.45