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Respiratory acidosis

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Anatomy and Physiology II

Definition

Respiratory acidosis is a condition characterized by an increase in carbon dioxide (CO2) levels in the blood, leading to a decrease in pH and causing the blood to become more acidic. This occurs when the lungs are unable to remove enough CO2 due to inadequate ventilation or respiratory dysfunction, resulting in an imbalance in the body's acid-base homeostasis. The kidneys play a vital role in compensating for this acidosis by adjusting bicarbonate levels and excreting hydrogen ions, ultimately working to restore pH balance.

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5 Must Know Facts For Your Next Test

  1. Respiratory acidosis can result from conditions such as chronic obstructive pulmonary disease (COPD), pneumonia, or any situation that impairs lung function.
  2. Acute respiratory acidosis can develop rapidly and may require immediate medical intervention to prevent severe complications.
  3. The body attempts to compensate for respiratory acidosis by increasing bicarbonate reabsorption in the kidneys, which takes time and may not completely correct the acid-base imbalance.
  4. Signs and symptoms of respiratory acidosis include confusion, lethargy, shortness of breath, and in severe cases, it can lead to respiratory failure.
  5. Monitoring arterial blood gases (ABG) is crucial in diagnosing respiratory acidosis, as it provides information about pH, CO2 levels, and oxygenation status.

Review Questions

  • How does respiratory acidosis develop and what are its common causes?
    • Respiratory acidosis develops when there is an accumulation of carbon dioxide (CO2) in the blood due to inadequate ventilation or impaired lung function. Common causes include chronic obstructive pulmonary disease (COPD), severe asthma attacks, pneumonia, or central nervous system depression that affects breathing. When CO2 levels rise, it leads to a decrease in blood pH, creating a more acidic environment.
  • Discuss how renal compensation mechanisms work in response to respiratory acidosis.
    • In response to respiratory acidosis, renal compensation mechanisms kick in to help restore acid-base balance. The kidneys increase the reabsorption of bicarbonate (HCO3-) from urine back into the bloodstream while also excreting hydrogen ions (H+) into the urine. This process gradually raises blood bicarbonate levels, helping to neutralize excess acidity and improve pH over time. However, this compensation takes hours to days and may not fully correct severe acidemia.
  • Evaluate the significance of monitoring arterial blood gases (ABG) in patients with respiratory acidosis and its implications for treatment.
    • Monitoring arterial blood gases (ABG) is essential for patients with respiratory acidosis as it provides critical information on their acid-base status, including pH and CO2 levels. ABG results help healthcare providers determine the severity of the acidosis and guide appropriate treatment decisions, such as adjusting ventilation support or addressing underlying causes. Early identification and accurate assessment through ABG can significantly improve patient outcomes by enabling timely interventions and preventing complications like respiratory failure.
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