Literature DB >> 3670628

Magnetic resonance imaging of acute intracerebral hematomas: in vivo and in vitro studies.

A Matsumura1, T Nose, T Yamada, K Homma.   

Abstract

The mechanisms causing unclear differentiation of ICH in the acute phase by MRI are discussed. The increase of the hemoglobin concentration in the hematoma, caused by loss of the plasma component directly after onset, is one of the reasons for the shortening of relaxation times. The clotting system is also responsible for this shortening. Thus, the hematoma reaches the same intensity as the brain in the acute stage. Although knowledge from our animal experiments, in vivo as well as in vitro, cannot be directly transferred to the human, such experiments are useful for the understanding of the pathomechanism influencing MR imaging.

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Year:  1987        PMID: 3670628     DOI: 10.1007/bf01780595

Source DB:  PubMed          Journal:  Neurosurg Rev        ISSN: 0344-5607            Impact factor:   3.042


  16 in total

1.  Nuclear magnetic relaxation in blood.

Authors:  R A Brooks; J H Battocletti; A Sances; S J Larson; R L Bowman; V Kudravcev
Journal:  IEEE Trans Biomed Eng       Date:  1975-01       Impact factor: 4.538

2.  Sequential MR studies of intracerebral hematomas in monkeys.

Authors:  G Di Chiro; R A Brooks; M E Girton; T Caporale; D C Wright; A J Dwyer; M K Horne
Journal:  AJNR Am J Neuroradiol       Date:  1986 Mar-Apr       Impact factor: 3.825

3.  Acute subarachnoid hemorrhage: in vitro comparison of magnetic resonance and computed tomography.

Authors:  D W Chakeres; R N Bryan
Journal:  AJNR Am J Neuroradiol       Date:  1986 Mar-Apr       Impact factor: 3.825

4.  [Non-invasive measurements of biological informations using nuclear magnetic phenomenon-experimental study on accuracy of the technic].

Authors:  K Tanaka; F Sano; Z Abe
Journal:  Iyodenshi To Seitai Kogaku       Date:  1974-04

5.  A review of normal tissue hydrogen NMR relaxation times and relaxation mechanisms from 1-100 MHz: dependence on tissue type, NMR frequency, temperature, species, excision, and age.

Authors:  P A Bottomley; T H Foster; R E Argersinger; L M Pfeifer
Journal:  Med Phys       Date:  1984 Jul-Aug       Impact factor: 4.071

6.  Intracranial hematomas studied by MR imaging at 0.17 and 0.02 T.

Authors:  J T Sipponen; R E Sepponen; J I Tanttu; A Sivula
Journal:  J Comput Assist Tomogr       Date:  1985 Jul-Aug       Impact factor: 1.826

7.  Nuclear magnetic resonance (NMR) imaging of intracerebral hemorrhage in the acute and resolving phases.

Authors:  J T Sipponen; R E Sepponen; A Sivula
Journal:  J Comput Assist Tomogr       Date:  1983-12       Impact factor: 1.826

8.  Clinical NMR imaging of the brain: 140 cases.

Authors:  G M Bydder; R E Steiner; I R Young; A S Hall; D J Thomas; J Marshall; C A Pallis; N J Legg
Journal:  AJR Am J Roentgenol       Date:  1982-08       Impact factor: 3.959

9.  NMR imaging of intracranial hemorrhage.

Authors:  R L DeLaPaz; P F New; F S Buonanno; J P Kistler; R F Oot; B R Rosen; J M Taveras; T J Brady
Journal:  J Comput Assist Tomogr       Date:  1984-08       Impact factor: 1.826

10.  Natural history of experimental intracerebral hemorrhage: sonography, computed tomography and neuropathology.

Authors:  D R Enzmann; R H Britt; B E Lyons; J L Buxton; D A Wilson
Journal:  AJNR Am J Neuroradiol       Date:  1981 Nov-Dec       Impact factor: 3.825
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