Transcranial doppler waveform differences in hyperemic and nonhyperemic patients after severe head injury

Although increased cerebral blood flow velocity is readily measured by transcranial doppler ultrasonography (TCD), the causes of the velocity elevation may differ. After severe head injury, increased blood flow velocity can develop both in patients with global hyperemia (suggestive of vasodilation)...

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Veröffentlicht in:	Surgical neurology 1992-12, Vol.38 (6), p.433-436
Hauptverfasser:	Chan, Kwan-Hon, Dearden, N.Mark, Miller, J.Douglas, Midgley, Susan, Piper, Ian R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adolescent Adult Blood Flow Velocity Cerebral blood flow velocity Cerebrovascular Circulation Child Craniocerebral Trauma - complications Craniocerebral Trauma - diagnostic imaging Craniocerebral Trauma - physiopathology Diagnosis, Differential Female Head injury Humans Hyperemia - diagnostic imaging Hyperemia - etiology Hyperemia - physiopathology Male Transcranial doppler ultrasound Ultrasonography - methods
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container_end_page	436
container_issue	6
container_start_page	433
container_title	Surgical neurology
container_volume	38
creator	Chan, Kwan-Hon Dearden, N.Mark Miller, J.Douglas Midgley, Susan Piper, Ian R.
description	Although increased cerebral blood flow velocity is readily measured by transcranial doppler ultrasonography (TCD), the causes of the velocity elevation may differ. After severe head injury, increased blood flow velocity can develop both in patients with global hyperemia (suggestive of vasodilation) and in those without hyperemia (suggestive of vasospasm). The present study attempts to determine whether TCD can differentiate these two mechanisms of velocity increase. Fourteen severely brain-injured patients who developed increased middle cerebral artery blood flow velocity (time-averaged mean velocity > 100 cm/s) were studied. Eight cases were nonhyperemic and six were hyperemic as defined by arterial-jugular venous oxygen content differences of more than 4 mL/dL and less than 4 mL/dL, respectively. The TCD waveform of all eight nonhyperemic cases showed a diastolic notch, which was absent in all six hyperemic patients ( p = 0.00066). TCD waveform profile appears to provide a noninvasive means of differentiating at the bedside the two causes of increased flow velocity. If associated with raised intracranial pressure, these require different treatment.
doi_str_mv	10.1016/0090-3019(92)90111-Y
format	Article
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After severe head injury, increased blood flow velocity can develop both in patients with global hyperemia (suggestive of vasodilation) and in those without hyperemia (suggestive of vasospasm). The present study attempts to determine whether TCD can differentiate these two mechanisms of velocity increase. Fourteen severely brain-injured patients who developed increased middle cerebral artery blood flow velocity (time-averaged mean velocity > 100 cm/s) were studied. Eight cases were nonhyperemic and six were hyperemic as defined by arterial-jugular venous oxygen content differences of more than 4 mL/dL and less than 4 mL/dL, respectively. The TCD waveform of all eight nonhyperemic cases showed a diastolic notch, which was absent in all six hyperemic patients ( p = 0.00066). TCD waveform profile appears to provide a noninvasive means of differentiating at the bedside the two causes of increased flow velocity. 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After severe head injury, increased blood flow velocity can develop both in patients with global hyperemia (suggestive of vasodilation) and in those without hyperemia (suggestive of vasospasm). The present study attempts to determine whether TCD can differentiate these two mechanisms of velocity increase. Fourteen severely brain-injured patients who developed increased middle cerebral artery blood flow velocity (time-averaged mean velocity > 100 cm/s) were studied. Eight cases were nonhyperemic and six were hyperemic as defined by arterial-jugular venous oxygen content differences of more than 4 mL/dL and less than 4 mL/dL, respectively. The TCD waveform of all eight nonhyperemic cases showed a diastolic notch, which was absent in all six hyperemic patients ( p = 0.00066). TCD waveform profile appears to provide a noninvasive means of differentiating at the bedside the two causes of increased flow velocity. 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After severe head injury, increased blood flow velocity can develop both in patients with global hyperemia (suggestive of vasodilation) and in those without hyperemia (suggestive of vasospasm). The present study attempts to determine whether TCD can differentiate these two mechanisms of velocity increase. Fourteen severely brain-injured patients who developed increased middle cerebral artery blood flow velocity (time-averaged mean velocity > 100 cm/s) were studied. Eight cases were nonhyperemic and six were hyperemic as defined by arterial-jugular venous oxygen content differences of more than 4 mL/dL and less than 4 mL/dL, respectively. The TCD waveform of all eight nonhyperemic cases showed a diastolic notch, which was absent in all six hyperemic patients ( p = 0.00066). TCD waveform profile appears to provide a noninvasive means of differentiating at the bedside the two causes of increased flow velocity. 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subjects	Adolescent Adult Blood Flow Velocity Cerebral blood flow velocity Cerebrovascular Circulation Child Craniocerebral Trauma - complications Craniocerebral Trauma - diagnostic imaging Craniocerebral Trauma - physiopathology Diagnosis, Differential Female Head injury Humans Hyperemia - diagnostic imaging Hyperemia - etiology Hyperemia - physiopathology Male Transcranial doppler ultrasound Ultrasonography - methods
title	Transcranial doppler waveform differences in hyperemic and nonhyperemic patients after severe head injury
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