Oksana Opalevych scite author profile

To establish the accuracy of transcranial Doppler ultrasound (TCD) measures of middle cerebral artery (MCA) cerebral blood flow velocity (CBFV) as a surrogate of cerebral blood flow (CBF) during hypercapnia (HC) and hypocapnia (HO), we examined whether the cross-sectional area (CSA) of the MCA changed during HC or HO and whether TCD-based estimates of CBFV were equivalent to estimates from phase contrast (PC) magnetic resonance imaging. MCA CSA was measured from 3T magnetic resonance images during baseline, HO (hyperventilation at 30 breaths/min), and HC (6% carbon dioxide). PC and TCD measures of CBFV were measured during these protocols on separate days. CSA and TCD CBFV were used to calculate CBF. During HC, CSA increased from 5.6 ± 0.8 to 6.5 ± 1.0 mm(2) (P < 0.001, n = 13), while end-tidal carbon dioxide partial pressure (PETCO2) increased from 37 ± 3 to 46 ± 5 Torr (P < 0.001). During HO, CSA decreased from 5.8 ± 0.9 to 5.3 ± 0.9 mm(2) (P < 0.001, n = 15), while PetCO2 decreased from 36 ± 4 to 23 ± 3 Torr (P < 0.001). CBFVs during baseline, HO, and HC were compared between PC and TCD, and the intraclass correlation coefficient was 0.83 (P < 0.001). The relative increase from baseline was 18 ± 8% greater (P < 0.001) for CBF than TCD CBFV during HC, and the relative decrease of CBF during HO was 7 ± 4% greater than the change in TCD CBFV (P < 0.001). These findings challenge the assumption that the CSA of the MCA does not change over modest changes in PETCO2.

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Comparing cerebral blood flow velocity and cerebral blood flow measures between transcranial Doppler ultrasound and phase contrast magnetic resonance imaging during hypercapnia and hypocapnia (1183.2)

Coverdale

Gati

Opalevych

et al. 2014

The FASEB Journal

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To test the hypothesis that middle cerebral artery (MCA) diameter remains stable across physiologic stimuli, the cross‐sectional area (CSA) of the MCA was assessed using high‐field magnetic resonance imaging (MRI) (3T, T2 images) during hypercapnia (HC) and hypocapnia (HO). Estimates of cerebral blood flow velocity (CBV) collected with transcranial Doppler (TCD) ultrasound and phase contrast (PC) MRI were also compared with subsequent calculation of cerebrovascular reactivity (CVR). End‐tidal carbon dioxide (ETCO2) levels were manipulated through hyperventilation (30 breaths/min) and inhalation of 6% CO2 gas. The CSA increased from 5.5 ± 0.9 to 6.4 ± 1.2 mm2 (p<0.001; n=16) during HC and decreased from 5.7 ± 1.0 to 5.1 ± 0.8 mm2 (p<0.001; n=14) during HO. During HC CBV increased from 68 ± 9 to 85 ± 15 cm/s (p=0.003, n=7) measured with TCD and from 64 ± 10 to 85 ± 15 cm/s (p=0.002, n=7) measured with PC, while there was a decrease from 69 ± 8 to 55 ± 16 cm/s (p = 0.02, n=7) with TCD and from 61 ± 8 to 51 ± 8 cm/s (p = 0.02, n=7) during HO. Cerebrovascular reactivity during HC was 2.42 ± 3.98 cm/s/mmHg for TCD and 2.87 ± 1.63 cm/s/mmHg for PC (p = 0.70). Cerebrovascular reactivity during HO was ‐1.67 ± 1.37 cm/s/mmHg for TCD and ‐0.92 ± 1.17 cm/s/mmHg for PC (p = 0.11). Therefore, CSA of the MCA is not constant across this range of ETCO2. Further, TCD and PC provide similar estimates of absolute CBV and CVR during HO and HC. Grant Funding Source: Supported by the Canadian Institutes of Health Research

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Oksana Opalevych

Cerebral blood flow velocity underestimates cerebral blood flow during modest hypercapnia and hypocapnia

Comparing cerebral blood flow velocity and cerebral blood flow measures between transcranial Doppler ultrasound and phase contrast magnetic resonance imaging during hypercapnia and hypocapnia (1183.2)

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