NCLIP

Metabolic Acidosis

3 min read

Metabolic Acidosis

Key Points

  • Metabolic acidosis is present when pH is below 7.35 with serum bicarbonate below 22 mEq/L.
  • This condition is never considered benign and signals an underlying process that must be identified.
  • Major etiologic groups include increased acid production, decreased acid excretion, acid ingestion, and bicarbonate loss.
  • Anion gap interpretation helps differentiate likely causes and guide urgent clinical response.

Pathophysiology

Metabolic acidosis develops when net acid load rises or bicarbonate buffering falls. The defining metabolic feature is reduced HCO3- concentration, which lowers blood pH and disrupts cellular enzyme function. As acidemia worsens, systemic complications become more likely and compensation demands increase.

The source text separates causes into acid overproduction, impaired excretion, exogenous acid ingestion, and renal or gastrointestinal bicarbonate loss. This framework is essential for bedside reasoning because treatment priority is correction of the underlying cause, not only the pH number.

Classification

  • Anion gap metabolic acidosis: Unmeasured anions are increased; anion gap greater than 12 mmol/L supports this pattern.
  • Nonanion gap metabolic acidosis: Primary process is bicarbonate loss, commonly from diarrhea or renal tubular dysfunction.
  • High-risk cause cues: Toxin/poison or medication ingestion must be considered in unexplained anion gap cases.

Nursing Assessment

NCLEX Focus

Prioritize identifying whether acidosis is anion gap or nonanion gap because this directly changes likely cause and urgency.

  • Confirm ABG acidemia pattern (pH < 7.35) and metabolic component (HCO3- < 22 mEq/L).
  • Trend anion-gap results and correlate with clinical history, including toxin or medication exposure risk.
  • Assess gastrointestinal losses such as persistent diarrhea and renal history consistent with bicarbonate wasting.
  • Monitor respiratory pattern for compensatory tachypnea and worsening fatigue.
  • Monitor ECG and electrolytes for associated shifts, especially possible hyperkalemia.

Nursing Interventions

  • Escalate severe or worsening acidemia promptly because untreated metabolic acidosis can deteriorate rapidly.
  • Support targeted diagnostic workup to identify root etiology rather than treating values in isolation.
  • Implement fluid, renal, and GI-directed interventions per identified cause and care plan.
  • Reassess serial blood gases and metabolic panels after interventions.
  • Educate patients about trigger conditions and when to seek urgent care.

Not a Benign State

Metabolic acidosis indicates significant pathology; delayed cause-focused treatment increases risk of instability.

Pharmacology

This source section emphasizes diagnostic differentiation and etiology-directed management rather than specific medication protocols.

Clinical Judgment Application

Clinical Scenario

A patient presents with pH below 7.35, HCO3- below 22 mEq/L, and rapid breathing without primary lung pathology.

Recognize Cues: Acidemia with low bicarbonate and compensatory tachypnea pattern. Analyze Cues: Primary metabolic acidosis is likely, with respiratory compensation. Prioritize Hypotheses: Determine whether the process is anion gap or bicarbonate-loss driven. Generate Solutions: Order/interpret anion gap, review ingestion history, and evaluate GI/renal losses. Take Action: Escalate immediately and initiate cause-directed treatment plan. Evaluate Outcomes: pH and bicarbonate trend toward normal as etiology is corrected.

Self-Check

  1. Which lab pattern confirms metabolic acidosis rather than respiratory acidosis?
  2. Why does anion gap categorization change bedside priority assessment?
  3. Which history cues raise concern for anion gap metabolic acidosis from ingestion?

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