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Cerebral autoregulation: Making sense of the nonsensical

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Presentation on theme: "Cerebral autoregulation: Making sense of the nonsensical"— Presentation transcript:

1 Cerebral autoregulation: Making sense of the nonsensical
Ken M. Brady, MD, Carlos M. Mery, MD, MPH  The Journal of Thoracic and Cardiovascular Surgery  Volume 154, Issue 3, Pages (September 2017) DOI: /j.jtcvs Copyright © 2017 The American Association for Thoracic Surgery Terms and Conditions

2 Figure 1 Quantification of cerebral autoregulation from spontaneous blood pressure oscillations in a piglet with hemorrhagic hypotension induced for 4 hours. A, This graph displays changes in arterial blood pressure (ABP), intracranial pressure (ICP), and cerebral oximetry (rSo2) during 30 minutes of normotension above the lower limit of autoregulation (intact cerebral autoregulation). Slow arterial blood pressure waves (changes across 2-5 minutes) are transmitted to the intracranial pressure and oximetry signals but with an inverted phase (negatively correlated). B, This graph demonstrates the same measurements during 30 minutes of hypotension, below the lower limit of autoregulation (impaired cerebral autoregulation). The slow arterial blood pressure waves are now transmitted without a phase shift (positively correlated). C, A criterion standard static autoregulation plot shows the cerebral blood flow (CBF) from the entire experiment, with arrows showing the position of intact autoregulation recording (A) and the impaired autoregulation recording (B). At steady state, cerebral blood flow is independent of arterial blood pressure above the lower limit of autoregulation and is correlated with arterial blood pressure below the lower limit of autoregulation. D, The table shows coherence (Coh.) and phase shift between arterial blood pressure and the output signals intracranial pressure and cerebral oximetry for panels (A) and (B). During both intact and impaired autoregulation, all signals are coherent. Above the lower limit of autoregulation (LLA), however, there is a phase shift between the arterial blood pressure and output signals. Below the lower limit of autoregulation, there is minimal phase shift between the arterial blood pressure and the output signals. Coherence was measured from the 30-minute segments shown, with a Hamming window that had 7 segments with 40% overlap in a frequency range of 0.003 Hz to 0.02 Hz. Phase was calculated with the same parameters. The Journal of Thoracic and Cardiovascular Surgery  , DOI: ( /j.jtcvs ) Copyright © 2017 The American Association for Thoracic Surgery Terms and Conditions

3 Intact (A) and impaired (B) cerebral autoregulation.
The Journal of Thoracic and Cardiovascular Surgery  , DOI: ( /j.jtcvs ) Copyright © 2017 The American Association for Thoracic Surgery Terms and Conditions

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