Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia.

Ulrike Wedegärtner; Mikhail Tchirikov; Sebastian Schäfer; Andrew N Priest; Michael Walther; Gerhard Adam; Prof. Dr. Schröder

Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia.

Standard

Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia. / Wedegärtner, Ulrike; Tchirikov, Mikhail; Schäfer, Sebastian; Priest, Andrew N; Walther, Michael; Adam, Gerhard; Schröder, Prof. Dr.

In: RADIOLOGY, Vol. 237, No. 3, 3, 2005, p. 919-926.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Wedegärtner, U, Tchirikov, M, Schäfer, S, Priest, AN, Walther, M, Adam, G & Schröder, PD 2005, 'Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia.', RADIOLOGY, vol. 237, no. 3, 3, pp. 919-926. <http://www.ncbi.nlm.nih.gov/pubmed/16304112?dopt=Citation>

APA

Wedegärtner, U., Tchirikov, M., Schäfer, S., Priest, A. N., Walther, M., Adam, G., & Schröder, P. D. (2005). Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia. RADIOLOGY, 237(3), 919-926. [3]. http://www.ncbi.nlm.nih.gov/pubmed/16304112?dopt=Citation

Vancouver

Wedegärtner U, Tchirikov M, Schäfer S, Priest AN, Walther M, Adam G et al. Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia. RADIOLOGY. 2005;237(3):919-926. 3.

Bibtex

@article{30e3c63d9b2d40cb8bb2e7dfda0eaed5,

title = "Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia.",

abstract = "PURPOSE: To quantify the dependence of the signal intensity (SI) at blood oxygen level-dependent (BOLD) magnetic resonance (MR) imaging of fetal sheep brains on maternal oxygen saturation and to investigate the influence of positions of regions of interest (ROIs). MATERIALS AND METHODS: All experimental protocols were reviewed and approved by the local authorities on animal protection. The brains of singleton fetuses of five anesthetized sheep were subjected to rapid sequences (single-shot echo-planar imaging) of BOLD measurements with a 3-T MR imaging unit. Maternal oxygen saturation and heart rate were recorded continuously. After a normoxic phase, hypoxia was induced by reducing the oxygen in a ventilated gas mixture. ROIs were placed in the cerebrum at a reference level and in the cerebellum. Normalized BOLD SI values were calculated from the mean values of steady-state BOLD SIs at the control (SI(c)) and hypoxic (SI(h)) plateaus as follows: normalized BOLD SI = (SI(h)/ SI(c)) x 100. Normalized BOLD SI values were correlated with maternal oxygen saturation, and linear regression (slope) analysis was performed. Additionally, ROIs were varied in section level and position. Differences in normalized BOLD SI values for ROI placements were calculated by using analysis of variance. A t test was performed to evaluate differences. RESULTS: Mean maternal oxygen saturation (as the percentage of oxygen in the blood) was 88% (95% confidence interval [CI]: 80%, 96%) in the control period. During hypoxia, it was reduced to 62% (95% CI: 50%, 75%), while fetal normalized BOLD SI decreased to 64% (95% CI: 44%, 85%) in the cerebrum and 56% (95% CI: 32%, 80%) in the cerebellum. Correlations between normalized BOLD SI values and maternal oxygen saturation were as follows: r2 = 0.84 and slope = 1.27 (95% CI: 1.17, 1.36) in the cerebrum and r2 = 0.83 and slope = 1.54 (95% CI: 1.44, 1.63) in the cerebellum. Normalized BOLD SI was 4% lower in the section above the reference level. Variations in normalized BOLD SI for different ROI positions ranged between 0% and 12%. CONCLUSION: The depletion of oxygen supply is reflected by decreases in fetal brain BOLD SIs that are more distinct in the cerebellum than in the cerebrum. Normalized BOLD SI is influenced only slightly by ROI position.",

author = "Ulrike Wedeg{\"a}rtner and Mikhail Tchirikov and Sebastian Sch{\"a}fer and Priest, {Andrew N} and Michael Walther and Gerhard Adam and Schr{\"o}der, {Prof. Dr.}",

year = "2005",

language = "Deutsch",

volume = "237",

pages = "919--926",

journal = "RADIOLOGY",

issn = "0033-8419",

publisher = "Radiological Society of North America Inc.",

number = "3",

}

RIS

TY - JOUR

T1 - Fetal sheep brains: findings at functional blood oxygen level-dependent 3-T MR imaging--relationship to maternal oxygen saturation during hypoxia.

AU - Wedegärtner, Ulrike

AU - Tchirikov, Mikhail

AU - Schäfer, Sebastian

AU - Priest, Andrew N

AU - Walther, Michael

AU - Adam, Gerhard

AU - Schröder, Prof. Dr.

PY - 2005

Y1 - 2005

N2 - PURPOSE: To quantify the dependence of the signal intensity (SI) at blood oxygen level-dependent (BOLD) magnetic resonance (MR) imaging of fetal sheep brains on maternal oxygen saturation and to investigate the influence of positions of regions of interest (ROIs). MATERIALS AND METHODS: All experimental protocols were reviewed and approved by the local authorities on animal protection. The brains of singleton fetuses of five anesthetized sheep were subjected to rapid sequences (single-shot echo-planar imaging) of BOLD measurements with a 3-T MR imaging unit. Maternal oxygen saturation and heart rate were recorded continuously. After a normoxic phase, hypoxia was induced by reducing the oxygen in a ventilated gas mixture. ROIs were placed in the cerebrum at a reference level and in the cerebellum. Normalized BOLD SI values were calculated from the mean values of steady-state BOLD SIs at the control (SI(c)) and hypoxic (SI(h)) plateaus as follows: normalized BOLD SI = (SI(h)/ SI(c)) x 100. Normalized BOLD SI values were correlated with maternal oxygen saturation, and linear regression (slope) analysis was performed. Additionally, ROIs were varied in section level and position. Differences in normalized BOLD SI values for ROI placements were calculated by using analysis of variance. A t test was performed to evaluate differences. RESULTS: Mean maternal oxygen saturation (as the percentage of oxygen in the blood) was 88% (95% confidence interval [CI]: 80%, 96%) in the control period. During hypoxia, it was reduced to 62% (95% CI: 50%, 75%), while fetal normalized BOLD SI decreased to 64% (95% CI: 44%, 85%) in the cerebrum and 56% (95% CI: 32%, 80%) in the cerebellum. Correlations between normalized BOLD SI values and maternal oxygen saturation were as follows: r2 = 0.84 and slope = 1.27 (95% CI: 1.17, 1.36) in the cerebrum and r2 = 0.83 and slope = 1.54 (95% CI: 1.44, 1.63) in the cerebellum. Normalized BOLD SI was 4% lower in the section above the reference level. Variations in normalized BOLD SI for different ROI positions ranged between 0% and 12%. CONCLUSION: The depletion of oxygen supply is reflected by decreases in fetal brain BOLD SIs that are more distinct in the cerebellum than in the cerebrum. Normalized BOLD SI is influenced only slightly by ROI position.

AB - PURPOSE: To quantify the dependence of the signal intensity (SI) at blood oxygen level-dependent (BOLD) magnetic resonance (MR) imaging of fetal sheep brains on maternal oxygen saturation and to investigate the influence of positions of regions of interest (ROIs). MATERIALS AND METHODS: All experimental protocols were reviewed and approved by the local authorities on animal protection. The brains of singleton fetuses of five anesthetized sheep were subjected to rapid sequences (single-shot echo-planar imaging) of BOLD measurements with a 3-T MR imaging unit. Maternal oxygen saturation and heart rate were recorded continuously. After a normoxic phase, hypoxia was induced by reducing the oxygen in a ventilated gas mixture. ROIs were placed in the cerebrum at a reference level and in the cerebellum. Normalized BOLD SI values were calculated from the mean values of steady-state BOLD SIs at the control (SI(c)) and hypoxic (SI(h)) plateaus as follows: normalized BOLD SI = (SI(h)/ SI(c)) x 100. Normalized BOLD SI values were correlated with maternal oxygen saturation, and linear regression (slope) analysis was performed. Additionally, ROIs were varied in section level and position. Differences in normalized BOLD SI values for ROI placements were calculated by using analysis of variance. A t test was performed to evaluate differences. RESULTS: Mean maternal oxygen saturation (as the percentage of oxygen in the blood) was 88% (95% confidence interval [CI]: 80%, 96%) in the control period. During hypoxia, it was reduced to 62% (95% CI: 50%, 75%), while fetal normalized BOLD SI decreased to 64% (95% CI: 44%, 85%) in the cerebrum and 56% (95% CI: 32%, 80%) in the cerebellum. Correlations between normalized BOLD SI values and maternal oxygen saturation were as follows: r2 = 0.84 and slope = 1.27 (95% CI: 1.17, 1.36) in the cerebrum and r2 = 0.83 and slope = 1.54 (95% CI: 1.44, 1.63) in the cerebellum. Normalized BOLD SI was 4% lower in the section above the reference level. Variations in normalized BOLD SI for different ROI positions ranged between 0% and 12%. CONCLUSION: The depletion of oxygen supply is reflected by decreases in fetal brain BOLD SIs that are more distinct in the cerebellum than in the cerebrum. Normalized BOLD SI is influenced only slightly by ROI position.

M3 - SCORING: Zeitschriftenaufsatz

VL - 237

SP - 919

EP - 926

JO - RADIOLOGY

JF - RADIOLOGY

SN - 0033-8419

IS - 3

M1 - 3

ER -