Probabilistic Anatomic Mapping of Cerebral Blood Flow Distribution of the Middle Cerebral Artery

Abstract Identical hemodynamic impedance and constant ratio of the fetal descending aorta and middle cerebral artery of uncomplicated pregnancies at term. Fetal aortic-cerebral Doppler resistance index ratio: An indicator of physiologic blood flow distribution. Objective To interpret the physiologic fetal arterial blood flow distribution by relating the vascular impedance of the fetal descending aorta (DA) and middle cerebral artery (MCA) and to establish the reference ranges for the aortic-cerebral Doppler resistance index ratio (ACRI). Study design Ninety-six patients with uncomplicated pregnancies were recruited for the cross-sectional assessment of the Doppler resistance index (RI) in the fetal DA and MCA between the 38rd and 40th weeks of gestation. The normal ranges of the ACRI were calculated. A cut-off value was designed to facilitate the clinical application of the ACRI. Results Between the 38th and 40th weeks of gestation in normal pregnancies the ACRI of healthy fetuses is constant, the overall mean is: 1.062 (+/– 0.087). A single cut-off value of 1.2 is recommended to assist separating normal and pathologic arterial blood flow patterns. Conclusion The normal ACRI reflects the identical vascular resistance of the descending aorta and the cerebral vessels, which maintains the physiologic fetal central arterial blood flow. Additional clinical studies are necessary to assess the diagnostic efficacy of the abnormal ACRI (>1.2) as a potentially useful marker of the centralized arterial circulation indicating the early stage of fetal hypoxemic jeopardy.

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Effect of Ketanserin on Global Cerebral Blood Flow and Middle Cerebral Artery Flow Velocity

Anesthesia & Analgesia ◽

10.1097/00000539-199501000-00011 ◽

1995 ◽

Vol 80 (1) ◽

pp. 64-70 ◽

Cited By ~ 1

Author(s):

Andreas Weyland ◽

Heidrun Stephan ◽

Frank Grune ◽

Wolfgang Weyland ◽

Hans Sonntag

Keyword(s):

Blood Flow ◽

Cerebral Blood Flow ◽

Middle Cerebral Artery ◽

Flow Velocity ◽

Cerebral Artery ◽

Global Cerebral Blood Flow ◽

Artery Flow

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Serial Measurement of Regional Cerebral Blood Flow in Patients with Middle Cerebral Artery Stem Occlusion

Neurologia medico-chirurgica ◽

10.2176/nmc.28.57 ◽

1988 ◽

Vol 28 (1) ◽

pp. 57-65

Author(s):

Hirotaka SUGIYAMA ◽

Haruyuki KANAYA ◽

Michihiro KIRIKAE ◽

Haruhiko HASEGAWA

Keyword(s):

Blood Flow ◽

Cerebral Blood Flow ◽

Middle Cerebral Artery ◽

Cerebral Artery ◽

Regional Cerebral Blood Flow ◽

Regional Cerebral Blood ◽

Serial Measurement

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Both remifentanil and nitrous oxide attenuate pain-induced increases in cerebral blood flow velocity of the middle cerebral artery

Inpharma Weekly ◽

10.2165/00128413-200313810-00034 ◽

2003 ◽

Vol &NA; (1381) ◽

pp. 15

Author(s):

&NA;

Keyword(s):

Blood Flow ◽

Nitrous Oxide ◽

Cerebral Blood Flow ◽

Middle Cerebral Artery ◽

Flow Velocity ◽

Cerebral Artery ◽

Blood Flow Velocity ◽

Cerebral Blood Flow Velocity

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Direct Cerebral Vasodilatory Effects of Sevoflurane and Isoflurane

Anesthesiology ◽

10.1097/00000542-199909000-00019 ◽

1999 ◽

Vol 91 (3) ◽

pp. 677-677 ◽

Cited By ~ 236

Author(s):

Basil F. Matta ◽

Karen J. Heath ◽

Kate Tipping ◽

Andrew C. Summors

Keyword(s):

Blood Pressure ◽

Blood Flow ◽

Cerebral Blood Flow ◽

Mean Arterial Pressure ◽

Arterial Pressure ◽

Middle Cerebral Artery ◽

Flow Velocity ◽

Cerebral Artery ◽

Blood Flow Velocity ◽

End Tidal

Background The effect of volatile anesthetics on cerebral blood flow depends on the balance between the indirect vasoconstrictive action secondary to flow-metabolism coupling and the agent's intrinsic vasodilatory action. This study compared the direct cerebral vasodilatory actions of 0.5 and 1.5 minimum alveolar concentration (MAC) sevoflurane and isoflurane during an propofol-induced isoelectric electroencephalogram. Methods Twenty patients aged 20-62 yr with American Society of Anesthesiologists physical status I or II requiring general anesthesia for routine spinal surgery were recruited. In addition to routine monitoring, a transcranial Doppler ultrasound was used to measure blood flow velocity in the middle cerebral artery, and an electroencephalograph to measure brain electrical activity. Anesthesia was induced with propofol 2.5 mg/kg, fentanyl 2 micro/g/kg, and atracurium 0.5 mg/kg, and a propofol infusion was used to achieve electroencephalographic isoelectricity. End-tidal carbon dioxide, blood pressure, and temperature were maintained constant throughout the study period. Cerebral blood flow velocity, mean blood pressure, and heart rate were recorded after 20 min of isoelectric encephalogram. Patients were then assigned to receive either age-adjusted 0.5 MAC (0.8-1%) or 1.5 MAC (2.4-3%) end-tidal sevoflurane; or age-adjusted 0.5 MAC (0.5-0.7%) or 1.5 MAC (1.5-2%) end-tidal isoflurane. After 15 min of unchanged end-tidal concentration, the variables were measured again. The concentration of the inhalational agent was increased or decreased as appropriate, and all measurements were repeated again. All measurements were performed before the start of surgery. An infusion of 0.01% phenylephrine was used as necessary to maintain mean arterial pressure at baseline levels. Results Although both agents increased blood flow velocity in the middle cerebral artery at 0.5 and 1.5 MAC, this increase was significantly less during sevoflurane anesthesia (4+/-3 and 17+/-3% at 0.5 and 1.5 MAC sevoflurane; 19+/-3 and 72+/-9% at 0.5 and 1.5 MAC isoflurane [mean +/- SD]; P<0.05). All patients required phenylephrine (100-300 microg) to maintain mean arterial pressure within 20% of baseline during 1.5 MAC anesthesia. Conclusions In common with other volatile anesthetic agents, sevoflurane has an intrinsic dose-dependent cerebral vasodilatory effect. However, this effect is less than that of isoflurane.

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