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(Stroke. 1997;28:1009-1014.)
© 1997 American Heart Association, Inc.

Articles

Application of Interhemispheric Index for Transcranial Doppler Sonography Velocity Measurements and Evaluation of Recording Time

Jesper Bay-Hansen, BM; Thomas Ravn, BM; Gitte Moos Knudsen, MDSc

From the Department of Neurology, University Hospital Rigs-hospitalet, Copenhagen, Denmark.

Correspondence to Jesper Bay-Hansen, Department of Neurology, N2082, Rigshospitalet, Blegdamsvej 9, 2100 Copenhagen, Denmark.

Background and Purpose To validate the reliability of transcranial Doppler sonography velocity measurements in clinical settings, assessment of the reproducibility of repeated bilateral simultaneous measurements and the optimal recording time is needed. Our hypothesis was that interhemispheric indices would prove more valid than the absolute velocity measurements usually applied. The potential interference between ultrasound beams in bilateral samplings also needs evaluation.

Methods Thirty healthy volunteers were studied at rest within hours or with a 2-month interval between measurements. Absolute blood flow velocities and side-to-side indices between velocities obtained in the middle cerebral arteries were measured over a 30-second period by two independent examiners. The correlation coefficient (r) and the coefficients of variation of the difference between either absolute velocities (CV) or indices (CV_i) were calculated. The beat-to-beat variation of the diastolic, systolic, and mean velocities was also recorded. For evaluation of ultrasound beam interference, measurements were performed with and without one probe unplugged.

Results In the interobserver study in which measurements were repeated within hours, r=.92, CV=8.8%, and CV_i=4.1%. In the intraobserver study in which measurements were repeated with a 2-month interval, r=.8, CV=13.0%, and CV_i=7.3%. A recording time of 30 seconds reduced CV_i to 2.6%, whereas for absolute velocities 5-second recordings produced an acceptable variation. There was no significant interference between bilaterally placed probes.

Conclusions The introduction of interhemispheric indices improves interobserver and intraobserver reproducibility by approximately 50%. We recommend use of the index in clinical settings in which unilateral velocity changes are expected. For measurement of an interhemispheric index, a recording time of 30 seconds is recommended, whereas 5-second measurement periods yield a sufficient estimate of absolute velocities.

Key Words: blood flow velocity • middle cerebral artery • observer variation • transcranial Doppler

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