Authors
Eli Shapiro, Eric Scheier
Published in
Journal of intensive care medicine. Pages 8850666261469480. Jul 13, 2026. Epub Jul 13, 2026.
Abstract
ObjectiveTo describe sustained, large-amplitude, Mayer-like very-low-frequency (VLF) oscillations in invasive arterial blood pressure following drowning-associated lung injury in an adolescent.DesignSingle-patient case report.SettingPediatric intensive care unit at a tertiary medical center.PatientsA previously healthy 16-year-old male.InterventionsMechanical ventilation for severe hypoxemia and pulmonary hemorrhage; vasopressor support with epinephrine; aggressive fluid resuscitation; bronchoscopy after cessation of bleeding.Measurements and Main ResultsInvasive arterial blood pressure monitoring demonstrated rhythmic oscillations with a periodicity of ∼28 s (≈0.036 Hz; ≈2.1 cycles/min) and amplitudes of 30-40 mm Hg. The pattern was not phase-locked to cardiac or ventilatory cycles, persisted for ∼12 h, and resolved before extubation. Noninvasive cuff readings corroborated the pattern, and discontinuation of epinephrine, replacement of the arterial line, tubing, transducer, and monitor did not change the oscillations.ConclusionsSustained, large-amplitude Mayer-like oscillations were observed after a severe hypoxic event in the setting of drowning-associated lung injury. The pattern likely reflects intense autonomic activation, plausibly amplified by catecholamine exposure and blood loss. Recognition may prevent misclassification as artifact or arrhythmia and may indicate heightened autonomic drive at the bedside.
PMID:
42444117
Bibliographic data and abstract were imported from PubMed on 14 Jul 2026.
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