How do you determine respiratory alkalosis and metabolic acidosis?
Having determined if the patient is acidotic or alkalotic, check the HCO3– and the PaCO2 to classify the results as follows:
- Metabolic acidosis: patients who are acidotic and have a HCO3– <22 (base excess <–2);
- Respiratory acidosis: patients who are acidotic with a PaCO2 >6;
What is the difference between respiratory acidosis alkalosis and metabolic acidosis alkalosis?
Respiratory Alkalosis: hyperventilation, net loss of CO2 from the blood. Metabolic Acidosis: presence of excess acid in the blood (build-up of H+ from sources other than CO2), causes include ingestion of acid, production of ketoacids in uncontrolled diabetes and kidney failure.
What happens to respiratory rate during metabolic alkalosis?
A typical respiratory response to all types of metabolic alkalosis is hypoventilation leading to a pH correction towards normal. Increases in arterial blood pH depress respiratory centers. The resulting alveolar hypoventilation tends to elevate PaCO2 and restore arterial pH toward normal.
What is the respiratory response to metabolic acidosis?
Respiratory compensation (alkalosis): A primary metabolic acidosis stimulates peripheral chemoreceptors (which respond to low pH or high H+), causing hyperventilation and a decrease in pCO2 or a secondary respiratory alkalosis.
How can you distinguish between metabolic acidosis and respiratory acidosis?
People with metabolic acidosis often have nausea, vomiting, and fatigue and may breathe faster and deeper than normal. People with respiratory acidosis often have headache and confusion, and breathing may appear shallow, slow, or both. Tests on blood samples typically show pH below the normal range.
How do the lungs compensate during metabolic alkalosis?
Your body compensates for both alkalosis and acidosis mainly through your lungs. The lungs change the alkalinity of your blood by allowing more or less carbon dioxide to escape as you breathe.
What is the appropriate respiratory compensation for alkalosis?
magnitude: drop in HCO3- by 2 mmol/l for every 10mmHg decrease in pCO2 from the reference value of 40mmHg. limit: the lower limit of ‘compensation’ for this process is 18mmol/l – so bicarbonate levels below that in an acute respiratory alkalosis indicate a coexisting metabolic acidosis.
Why does respiratory rate increase with metabolic acidosis?
Metabolic Acidosis Increases Ventilatory Drive Acute metabolic acidosis decreases the pH of the arterial blood and strongly stimulates the peripheral chemoreceptors to increase ventilatory drive. The increased ventilatory drive results in decreased P a CO 2 and subsequent rise in plasma pH.
What is respiratory alkalosis and metabolic alkalosis?
Alkalosis is excessive blood alkalinity caused by an overabundance of bicarbonate in the blood or a loss of acid from the blood (metabolic alkalosis), or by a low level of carbon dioxide in the blood that results from rapid or deep breathing (respiratory alkalosis).