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Infratentorial brain maturation: a comparison of MRI at 0.5 and 1.5T (1996)

Hittmair, K. ; Kramer, J. ; Rand, T. ; [et al.]

Springer

Neuroradiology 38 (1996), S. 360-366

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ISSN: 1432-1920

Keywords: Infratentorial brain maturation ; Magnetic resonance imaging

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Our purpose was to establish parameters for normal infratentorial brain maturation at 0.5 and 1.5T and to evaluate the field strength criteria for the assessment of infratentorial brain maturation with MRI. We examined 27 children with normal psychomotor development (3 days to 24 months) with a 1.5T system and 22 (4 days to 29 months) with a 0.5T system; standard T2-weighted spin-echo sequences (TR/TE 2500/90 ms at 1.5T and TR/TE 2200/90 ms at 0.5T) were obtained. The signal intensity of infratentorial anatomical structures compared to their surroundings was classified as high, isointense or low by three neuroradiologists. For anatomical structures with age-related contrast changes, the time of these changes was determined statistically for the 0.5T and 1.5T system independently. The delineation of the structures without age-related contrast changes at the two field strengths was compared using a χ2 test. Age-related contrast changed were found in the same anatomical structures (“marker sites”) at 0.5 and 1.5T. Generally, these changes were apparent in larger structures (pons, middle cerebellar peduncles, medulla, cerebellar folia, red nuclei, cerebral peduncles), with only slight field-strength-dependent differences in the time of the contrast changes. Contrast changes from high to isointense signal were observed slightly earlier at 0.5T and changes from isointense to low signal slightly later at 0.5T. The delineation of the smaller anatomical structures was significantly better at 1.5T but these structures did not show age-related contrast changes. The differences in the assessment of infratentorial brain maturation between 0.5 and 1.5T can be attributed to a lower signal-to-noise ratio at lower magnetic field strengths. These differences do not complicate temporal classification of the stage of infratentorial brain maturation using the same “marker sites” and the same temporal criteria at 0.5 or 1.5T. However, higher field strengths are preferable for the assessment of smaller structures with physiological signal differences; this may imply better detection of small lesions at higher field strengths.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00596589

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Bolusoptimierte CT-Angiographie (1999)

Hittmair, K. ; Wunderbaldinger, P. ; Fleischmann, D.

Springer

Der Radiologe 39 (1999), S. 93-99

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ISSN: 1432-2102

Keywords: Schlüsselwörter CT Angiographie ; Kontrastmittelbolus ; Optimierung ; Computer ; Diskrete Fourier-Transformation ; Key words CT angiography ; Contrast bolus ; Optimization ; Computer ; Discrete Fourier transformation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Summary This paper compares different contrast injection techniques for optimizing vessel contrast in CT angiography (CTA). The optimal vessel contrast shall be defined as constant strong enhancement confined to the scanning interval. This ”plateau enhancement” guarantees high-quality CTA images and should therefore be approximated during every CTA examination by an appropriate contrast injection protocol. With well-established injection techniques such as the standard bolus technique (constant uniphasic contrast bolus for all patients) or adjustment of the scan delay, considerable individual differences in the arterial enhancement can be observed, and a nondiagnostic examination or an inefficient use of contrast agent might be the result in a particular patient. Therefore, two sophisticated mathematical models have recently been developed for analyzing the individual enhancement characteristics. These models can be exploited to predict the arterial enhancement for any given intravenous contrast bolus in any patient and to optimize the contrast bolus in order to approach the ideal ”plateau enhancement”. These techniques have to prove their effectiveness in larger clinical series.

Notes: Zusammenfassung Diese Arbeit stellt verschiedene Techniken der Kontrastmittelinjektion zur Optimierung der Gefäßdarstellung bei der CT-Angiographie (CTA) gegenüber. Einleitend wird als angestrebtes Ziel der Kontrastmittelgabe eine gleichbleibend hohe und auf die Zeit der CT-Messung beschränkte Gefäßkontrastierung definiert. Diese „Plateauanfärbung” garantiert hochqualitative CTA-Bilder bei minimalem Kontrastmittelverbrauch und soll deshalb bei jeder CTA-Untersuchung durch eine geeignete Art der Kontrastmittelgabe angestrebt werden. Bei etablierten Injektionstechniken wie der Standardbolustechnik (gleichbleibendes uniphasisches Injektionsprotokoll für alle Patienten) oder der Anpassung der CT-Verzögerung allerdings werden beträchtliche individuelle Unterschiede in der Gefäßanfärbung beobachtet, und das Resultat kann im Einzelfall eine unzureichende Untersuchungsqualität oder eine ineffiziente Kontrastmittelausnutzung sein. Es wurden deshalb kürzlich 2 mathematische Modelle zur Analyse der individuellen Anfärbecharakteristik entwickelt, welche die arterielle Anfärbung für einen gegebenen Kontrastmittelbolus beim jeweiligen Patienten vorhersagen können und so eine individuelle Bolusoptimierung im Hinblick auf die gewünschte Plateauanfärbung erlauben. Diese Techniken müssen allerdings noch ihre Effektivität in größeren klinischen Studien beweisen.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001170050483

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