Arterial Blood Gases Flashcards

1
Q

What is PO2?

A

the partial pressure of oxygen: This variable indicates how much oxygen is dissolved in the arterial blood, and if it is particularly low it can suggest inadequate gas exchange in the lungs

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2
Q

What is PCO2?

A

the partial pressure of carbon dioxide: This variable indicates how much CO2 is dissolved in arterial blood, and if it is particularly high it can suggest inadequate gas exchange in the lungs

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3
Q

What is pH?

A

the ‘power of hydrogen’: This variable describes the acidity, neutrality or alkalinity of the blood. The pH of arterial blood is finely tuned and small deviations can affect oxygen transport and delivery

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4
Q

What is HCO3?

A

plasma bicarbonate: This variable describes the concentration of bicarbonate dissolved in arterial blood. If plasma bicarbonate is higher or lower than normal, this could be evidence of gas exchange imbalance

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5
Q

What is base excess (BE)?

A

This variable describes the concentration of bases (predominantly bicarbonate) compared with the ‘expected concentration’. An exact match is 0, an excess of base is positive and a base deficit is negative

More digestible way of presenting bicarbonate

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6
Q

What is the PO2 when blood is first pumped into the systemic systems?

A

Oxygen enters RBCs
Oxygenated blood is pumped into systemic system
At start as PO2 greater than 10 kPa

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7
Q

What is the PO2 when blood is in the venous system?

A

Between 4-5.3 kPa

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8
Q

What is pulmonary transit time?

A

How long the RBCs are close enough to the respiratory exchange system to exchange gases

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9
Q

What is a point of care test?

A

Analyser very close to the patient

Not sent of to the blood

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10
Q

How do you convert a proton concentration to pH?

A

𝑝𝐻= - 𝑙𝑜g 10 [𝐻^+]

As proton concentration increases, pH decreases

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11
Q

The body produces a signifcant amount of acid how much is respiratory and how much is metabollic?

A

99% is Respiratory

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12
Q

What is CO2 flux?

A

Measures CO2 before and after the tissues

e.g. for every decilitre of blood that passes through, 4ml of CO2 is produced

200ml per minute of CO2 produced in an average adult male

300L of acid and cleared by the lung in a day

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13
Q

What was the conc

A

Blood has an enormous buffering capacity that can react almost immediately to imbalances

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14
Q

What is corrective compensation?

A

Changes in ventilation can stimulate a RAPID compensatory response to change CO2 elimination and therefore alter pH

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15
Q

What is different between corrective compensation in the lungs and in the kidney?

A

Changes in HCO3- and H+ retention/secretion in the kidneys can stimulate a SLOW compensatory response to increase/decrease pH

RAPID in the lungs

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16
Q

What is the difference between alkalemia and alkalosis?

A

Ends in -osis describes circumstances that lead to change-in the direction it is describing

An acidosis will need an alkalosis to correct
An alkalosis will need an acidosis to correct

17
Q

What is acidosis?

A

Anything that causes the pH to fall

18
Q

What is the procedure of interpretation for ABG?

A

Type of imbalance?
Acidosis (or acidaemia) / Alkalosis (or alkalaemia) / Normal

Aetiology of imbalance?
Respiratory (acidosis or alkalaemia) / Metabolic (acidosis oralkalosis) / Mixed (respiratory and metabolic) / Normal

Any homeostatic compensation?
Uncompensated / Partially compensated / Fully compensated

Oxygenation?
Hypoxaemia / Normoxaemia / Hyperoxaemia

19
Q

What are the steps in reporting an ABG?

A
  1. Assess pH
  2. Assess the PCO2
  3. Assess the BE
  4. Assess the PO2
  5. Evaluate the acid-base status
  6. Evaluate the oxygenation