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Spread of blood in cerebrospinal fluid following craniotomy simulates spinal metastases (1993)

Cronqvist, S. ; Greitz, D. ; Maeder, P.

Springer

Neuroradiology 35 (1993), S. 592-595

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ISSN: 1432-1920

Keywords: Cerebrospinal fluid circulation ; Myelography ; Spinal metastases

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Postoperative myelography with water-soluble contrast media was performed in 36 children with a diagnosis of posterior cranial fossa tumour. The myelograms were normal in 15. In 5 an intramedullary tumour was present and 3 of these had in addition subarachnoid changes as evidence of tumour spread. The remaining 16 patient had subarachnoid changes of a different character, mainly located in the posterior thoracic region and similar to those seen after subarachnoid haemorrhage. It is suggested that they represent adhesions caused by blood from the operation. The blood is assumed to be distributed by the large cerebrospinal fluid pulsations to the cervical and thoracic regions. It is important to recognise and differentiate subarachnoid changes due to tumour and to postoperative adhesions to avoid unnecessary radiotherapy to the spinal cord.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00588402

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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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Changes in cross-sectional area in human exercising and non-exercising skeletal muscles (2000)

Nygren, A. T. ; Greitz, D. ; Kaijser, L.

Springer

European journal of applied physiology 81 (2000), S. 210-213

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ISSN: 1439-6327

Keywords: Key words Cross-sectional area ; Exercise ; Human ; Reflex sympathetic activity ; Skeletal muscle

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract This research was performed to study how the cross-sectional area (CSA) changes in the skeletal muscles of exercising (E-leg) and contralateral non-exercising (N-leg) legs and to evaluate to what extent changes in CSA mirror changes in blood flow or extravascular water displacement. Seven healthy volunteers performed plantar flexion exercise at three different exercise intensities for 10 min each. Six plantar flexions followed by a 2-s rest in between allowed repeated measurement of the blood flow to the lower limbs by duplex ultrasonography in the popliteal artery and CSA by magnetic resonance imaging. The CSA was measured using manual planimetry at rest and after 3 and 9 min of the exercise periods. The CSA increased in the E-leg by 4.5% and decreased in the N-leg by −2.4%, from rest to highest exercise intensity. Post-exercise imaging of the E-leg showed a bi-phasic recovery of CSA with a rapid phase followed by a slower phase while the blood flow very rapidly returned almost to basal. The time course of the post-exercise decrease indicated that about 50% of the increase in CSA at the highest exercise intensity might have been a result of extravascular water displacement and 50% of an increase in the vasculature volume related to the flow increase. The CSA reduction in N-leg seems to have been related to vasoconstriction, probably mainly of the capacitance vessels since blood flow was not reduced.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050032

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