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Cerebrospinal fluid flow and production in patients with normal pressure hydrocephalus studied by MRI (1994)

Gideon, P. ; Ståhlberg, F. ; Thomsen, C. ; [et al.]

Springer

Neuroradiology 36 (1994), S. 210-215

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ISSN: 1432-1920

Keywords: Cerebrospinal fluid flow ; Cerebrospinal fluid production ; Magnetic resonance imaging ; Normal pressure hydrocephalus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract An interleaved velocity-sensitised fast low-angle shot pulse sequence was used to study cerebrospinal fluid (CSF) flow in the cerebral aqueduct, and supratentorial CSF production in 9 patients with normal pressure hydrocephalus (NPH) and 9 healthy volunteers. The peak aqueduct CSF flow, both caudal and rostral, was significantly increased in patients with NPH. No significant difference in the supratentorial CSF production rate was found between patients (mean 0.60+/−0.59 ml/min) and healthy volunteers (mean 0.68+/−0.31 ml/min). Our method may be useful for investigation and monitoring of patients with NPH before and after ventriculoperitoneal shunt operations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00588133

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MR diffusion imaging of human intracranial tumours (1997)

Krabbe, K. ; Gideon, P. ; Wagn, P. ; [et al.]

Springer

Neuroradiology 39 (1997), S. 483-489

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ISSN: 1432-1920

Keywords: Key words Brain ; magnetic resonance imaging ; Brain ; tumours ; Magnetic resonance imaging ; diffusion studies

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We used MRI for in vivo measurement of brain water self-diffusion in patients with intracranial tumours. The study included 28 patients (12 with high-grade and 3 with low-grade gliomas, 7 with metastases, 5 with meningiomas and 1 with a cerebral abscess). Apparent diffusion coefficients (ADC) were calculated in a single axial slice through the tumours; the sequence was sensitive to diffusion along the cephalocaudal axis. Our main finding was that ADC in contrast-enhancing areas within cerebral metastases was statistically significantly higher than ADC in contrast-enhancing areas in high-grade gliomas (P≤ 0.05). Furthermore, the ADC in oedema surrounding metastases were statistically significantly higher the ADC in oedema around high-grade gliomas (P≤ 0.02). The ADC in patients with meningiomas did not differ significantly from those seen with high-grade gliomas or cerebral metastases. The highest ADC were found within cystic or necrotic tumour areas. In one patient with a cerebral abscess, suspected of having a high-grade glioma, the ADC was similar to that in high-grade gliomas. The finding of higher ADC in cerebral metastases than in high-grade gliomas may be helpful in trying to distinguish between these tumours preoperatively; it suggests increased free extracellular and/or intracellular water fraction in cerebral metastases. The method seems to hold potential for further noninvasive characterisation of intracranial tumours.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002340050450

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Pulsatile brain movement and associated hydrodynamics studied by magnetic resonance phase imaging (1992)

Greitz, D. ; Wirestam, R. ; Franck, A. ; [et al.]

Springer

Neuroradiology 34 (1992), S. 370-380

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ISSN: 1432-1920

Keywords: Magnetic resonance imaging ; Brain motion ; Brain volume ; Arterial expansion ; Pulsation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Brain tissue movements were studied in axial, sagittal and coronal planes in 15 healthy volunteers, using a gated spin echo MRI sequence. All movements had characteristics different from those of perfusion and diffusion. The highest velocities occurred during systole in the basal ganglia (maximum 1.0 mm/s) and brain stem (maximum 1.5 mm/s). The movements were directed caudally, medially and posteriorly in the basal ganglia, and caudally-anteriorly in the pons. Caudad and anterior motion increased towards the foramen magnum and towards the midline. The resultant movement occurred in a funnelshaped fashion as if the brain were pulled by the spinal cord. This may be explained by venting of brain and cerebrospinal fluid (CSF) through the tentorial notch and foramen magnum. The intracranial volume is assumed to be always constant by the Monro-Kellie doctrine. The intracranial dynamics can be viewed as an interplay between the spatial requirements of four main components: arterial blood, capillary blood (brain volume), venous blood and CSF. These components could be characterized, and the expansion of the arteries and the brain differentiated, by applying the Monro-Kellie doctrine to every moment of the cardiac cycle. The arterial expansion causes a remoulding of the brain that enables its piston-like action. The arterial expansion creates the prerequisites for the expansion of the brain by venting CSF to the spinal canal. The expansion of the brain is, in turn, responsible for compression of the ventricular system and hence for the intraventricular flow of CSF.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00596493

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