Arterial blood gas (ABG) - Respiratory alkalosis: Nursing

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Arterial blood gas (ABG) - Respiratory alkalosis: Nursing

Exam 1

Exam 1

Arterial blood gas (ABG) - Overview: Nursing
Physiologic pH and buffers
Acid-base map and compensatory mechanisms
Respiratory acidosis
Arterial blood gas (ABG) - Respiratory acidosis: Nursing
Substance use disorder - Medications and illicit drugs: Nursing
Respiratory alkalosis
Arterial blood gas (ABG) - Respiratory alkalosis: Nursing
Metabolic acidosis
Arterial blood gas (ABG) - Metabolic acidosis: Nursing
Diabetic ketoacidosis (DKA): Nursing process (ADPIE)
Plasma anion gap
Case study - Diabetic ketoacidosis (DKA): Nursing
Metabolic alkalosis
Arterial blood gas (ABG) - Metabolic alkalosis: Nursing
Complete metabolic panel (CMP) - Potassium: Nursing
Potassium homeostasis
Complete metabolic panel (CMP) - Chloride: Nursing
Malabsorption syndromes: Pathology review
Malnutrition: Nursing
Nutrition - Parenteral: Nursing skills
Nutrition - Newborn: Nursing
Assessment - Nutrition: Nursing
Failure to thrive (FTT): Nursing
Histamine H2 antagonists: Nursing pharmacology
Proton pump inhibitors (PPIs): Nursing pharmacology
Antacids: Nursing pharmacology
Gastric mucosal protective agents: Nursing pharmacology
Peptic ulcer disease (PUD): Nursing process (ADPIE)
Gastroesophageal reflux disease (GERD): Nursing process (ADPIE)
Case study - Gastroesophageal reflux disease (GERD): Nursing
Geriatric considerations - Gastrointestinal: Nursing
Physiology of lactation: Nursing
Physiologic changes - Postpartum: Nursing
Oxygenation - Oxygen therapy: Nursing skills
Vital signs - Respirations: Nursing skills
Asthma: Nursing process (ADPIE)
Complete metabolic panel (CMP) - Calcium: Nursing
Bronchodilators: Nursing pharmacology
Corticosteroids - Inhaled: Nursing pharmacology
Respiratory stimulants: Nursing pharmacology
Beta-adrenergic blockers: Nursing pharmacology
Leukotriene modifiers: Nursing pharmacology
Mast cell stabilizers - Inhaled: Nursing pharmacology
Asthma: Information for patients and families (The Primary School)
Chronic obstructive pulmonary disease (COPD): Nursing process (ADPIE)
Emphysema
Chronic bronchitis
Pulmonary hypertension
Cor pulmonale
Bronchiolitis and respiratory syncytial virus (RSV): Nursing process (ADPIE)
Medications for respiratory syncytial virus (RSV): Nursing pharmacology
Esophageal atresia and tracheoesophageal fistula: Nursing
Esophageal atresia and tracheoesophageal fistula: Year of the Zebra
Case study - Impaired gas exchange: Nursing
Case study - Chronic obstructive pulmonary disease (COPD): Nursing
Case study - Pediatric asthma: Nursing

Notes

ARTERIAL BLOOD GAS (ABG) - RESPIRATORY ALKALOSIS

KEY POINTS
NOTES
PHYSIOLOGY
  • ABG measures acid-base balance and pressure of gases in arterial blood
  • Adult
    • pH 7.35-7.45
    • Bicarbonate (HCO3-) 21-28 mEq/L (21-28 mmol/L)
    • Carbon dioxide (PaCO2) 35-45 mmHg
    • Oxygen (PaO2) 80-100 mmHg
    • Oxygen (SaO2) > 95%

PATHOLOGY
  • Respiratory alkalosis
    • Hyperventilation
    • Too much CO2 blown off 
  • Compensation
    • Renal system

INTERPRETATION
  • pH
    • < 7.35: acidotic
    • > 7.45: alkalotic
  • HCO3- and PaCO2
    • ROME
      • Respiratory Opposite
      • Metabolic Equal

MANAGEMENT OF CARE
  • Goals of care
    • Identify and address underlying cause

Transcript

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Content Reviewers

Lisa Miklush, PhD, RNC, CNS,Gabrielle Proper, RN, BScN, MN

A 24-year-old female client arrives at the emergency department with a report of shortness of breath. She has a history of anxiety and was unable to pay for her medications this month. On assessment her lungs are clear, her heart rhythm is sinus tachycardia, and she is afebrile. Based on these findings, the health care provider suspects anxiety-induced hyperventilation so an arterial blood gas is ordered to assess for changes in the acid-base balance.

Alright, arterial blood gas, or ABG for short, is a test used to measure the acid-base components and pressure of gasses in the arterial blood. Normal ABG values for healthy adults are a pH ranging from 7.35 to 7.45, bicarbonate, or HCO3- ranging from 21 to 28 mEq/L; carbon dioxide or PaCO2 ranging from 35 to 45 mm Hg; PaO2 ranging from 80 to 100 mm Hg, and SaO2 should be more than 95%.

Now, respiratory alkalosis is a condition when increased pH is caused by hyperventilation due to central causes like head injury or by anxiety-induced hyperventilation; as well as pulmonary causes like pulmonary emboli; or iatrogenic causes like mechanical ventilation.

During hyperventilation, too much carbon dioxide, or CO2, is blown out by the lungs. Ultimately, more CO2 is removed from the body than what is created during normal cellular metabolism, leading to a hypocapnia, or low CO2.

Now, as the pH continues to increase and move out of the normal range, the body will attempt to correct the imbalance, a process called compensation. With respiratory alkalosis, the renal system is the main mode of compensation. The process begins when the kidneys decrease reabsorption of HCO3-, which decreases the pH. However, compensation can’t completely correct the pH imbalance, and it won’t fix the underlying cause of the pH imbalance.

Okay, to interpret an ABG, the first thing you’ll do is look at the pH. If it’s less than 7.35 your client is acidotic; and if it’s greater than 7.45 your client is alkalotic.

Once you know that you know whether your client is acidotic or alkalotic, you’ll look at the PaCO2 and HCO3- and compare it to the pH to determine if the acid-base imbalance is caused by a metabolic or a respiratory issue.

When an acid-base imbalance is primarily caused by a respiratory issue, the pH and PaCO2 will move in the opposite direction; so, as the pH increases, the PaCO2 decreases, and vice versa. On the other hand, when an acid-base imbalance is primarily caused by a metabolic issue, the pH and HCO3- will move in the same direction. So, as the pH increases, the HCO3- also increases, and vice versa.