Frequency and location of microbleeds in patients with primary intracerebral hemorrhage.

Background And Purpose: MRI is known to detect clinically silent microbleeds (MBs) in patients with primary intracerebral hemorrhage (pICH), but the frequency and diagnostic and clinical significance of this finding are still debated. Therefore, we investigated a consecutive series of pICH patients and analyzed the patterns of MB distribution in the context of clinical variables and location of the symptomatic hematoma.

Methods: The study population consisted of 109 patients with pICH.

Longitudinal change of white matter abnormalities.

A three year follow-up of 273 participants (mean age 60+/-6.1 years) of the Austrian Stroke Prevention Study provides first information on the rate, clinical predictors, and cognitive consequences of MRI white matter hyperintensity in elderly individuals without neuropsychiatric disease. Lesion progression was found in a total of 49 (17.

MRI cerebral white matter lesions and paraoxonase PON1 polymorphisms : three-year follow-up of the austrian stroke prevention study.

White matter lesions (WMLs) on magnetic resonance imaging (MRI) scans of older persons are thought to be caused by cerebral small-vessel disease. As they progress, these brain abnormalities frequently result in cognitive decline and gait disturbances, and their predictors are incompletely understood. Genetic risk factors have been implicated but remain undetermined so far.

Magnetic resonance imaging of cerebral microbleeds.

Magnetic resonance imaging of patients with primary intracerebral haemorrhage has drawn attention to focal areas of signal loss, which were suggested to indicate hemosiderin deposition from earlier bleeds. Correlative histopathologic data have recently confirmed this assumption and support a strong association between the occurrence of microbleeds and various types of small vessel disease, such as hypertensive lipofibrohyalinosis and cerebral amyloid angiopathy. Therefore, microbleeds that are detectable by magnetic resonance imaging could be viewed as markers for vessel wall disorders with a higher tendency for intracerebral bleeding.

[Indications of cerebral micro-hemorrhage in MRI. Comparative histological findings and possible clinical significance].

Increased use of gradient echo T2*-weighted gradient echo sequences in magnetic resonance imaging (MRI) of patients suffering from primary ICH called attention to foci of signal loss which were suggested to represent remnants of cerebral microbleeds. In a post mortem correlative MR and histopathological study we provide support for this notion. We found areas of signal loss on gradient echo T2*-weighted sequences in 7 out of 11 brains of patients who had died of intracerebral hematoma.