Susanna Lai scite author profile

We hypothesized that acute brain injury results in decreased heart rate (HR) variability and baroreflex sensitivity indicative of uncoupling of the autonomic and cardiovascular systems and that the degree of uncoupling should be proportional to the degree of neurological injury. We used HR and blood pressure (BP) power spectral analysis to measure neuroautonomic regulation of HR and BP and the transfer function magnitude (TF) between BP and HR as a measure of baroreflex modulation of HR. In 24 brain-injured patients [anoxic/ischemic injury ( n = 7), multiple trauma ( n = 6), head trauma ( n = 5), central nervous system infection ( n = 4), and intracranial hemorrhage ( n = 2)], neurological injury and survival was associated with low-frequency (0.01–0.15 Hz) HR and BP power and TF. Brain-dead patients showed decreased low-frequency HR power [0.51 ± 0.36 (SE) vs. 2.54 ± 0.14 beats/min2, P = 0.03] and TF [0.61 ± 0.16 (SE) vs. 1.29 ± 0.07 beats ⋅ min−1 ⋅ mmHg−1, P = 0.05] compared with non-brain-dead patients. We conclude that 1) severity of neurological injury and outcome are inversely associated with HR and BP variability and 2) there is direct evidence for cardiovascular and autonomic uncoupling in acute brain injury with complete uncoupling during brain death.

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Central Venous Catheterization

Graham¹,

Ozment²,

Tegtmeyer³

et al. 2007

N Engl J Med

134

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Lumbar Puncture

Ellenby

Tegtmeyer²,

Lai³

et al. 2006

N Engl J Med

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Uncoupling and Recoupling of Autonomic Regulation of the Heart Beat in Pediatric Septic Shock

Ellenby

McNames

Lai

et al. 2001

Shock

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Susanna Lai

Uncoupling of the autonomic and cardiovascular systems in acute brain injury

Central Venous Catheterization

Lumbar Puncture

Uncoupling and Recoupling of Autonomic Regulation of the Heart Beat in Pediatric Septic Shock

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