Sebastian Krüger's research while affiliated with University of Freiburg and other places

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Publications (1)

Figure 1. PET studies. Patient 1 showed small hypoperfused areas (biparietal, left temporal, left frontal and in the left caudate nucleus). Visually and by statistical comparison, there were no differences in the perfusion before and after ultrasound exposure. In patient 2, the hypo- perfusion was located in the right frontal area and in multiple areas of the left temporal lobe. There were also no changes after insonation. 
Figure 2. Cranial MRI after insonation. Sixty-two year-old man with small-vessel disease indicated by periventricular white matter lesions. Upper line: The FLAIR MRI immediately after insonation revealed a hyperintensity (arrows) in the right frontal and parietal area indicating a subarachnoid hemorrhage or extravasation of contrast agent. Cranial CT performed shortly afterward was normal. Lower line: Control MRI 12 hours later showed normalization of the hyperintense areas. T2* imaging gave no indication for subarachnoid hemorrhage. 
Blood-Brain Barrier Disruption By Low-Frequency Ultrasound
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July 2006

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84 Citations

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Thomas Els

A recent study showed a dramatic increase in cerebral hemorrhage comprising atypical locations with low-frequency ultrasound-mediated recombinant tissue plasminogen activator-thrombolysis in humans. Here, we provide a possible explanation for this phenomenon by a side effect observed in a study using the similar ultrasound device. The study was originally undertaken to investigate by transcranial Doppler sonography, positron emission tomography and perfusion MRI whether transcranial application of wide-field low-frequency ultrasound (300 kHz) improves cerebral hemodynamics in patients with cerebral small vessel disease. Showing no clear positive effect on cerebral hemodynamics in 4 patients and on cerebral perfusion (positron emission tomography) in 2 patients, the study has been terminated early because of a remarkable side effect in the first patient (a 62 year-old man) undergoing perfusion-MRI: detection of frontoparietal extravasation of Gadolinium contrast agent (applied during MRI perfusion imaging preinsonation) on MRI immediately postinsonation. Abnormal permeability of the human blood-brain barrier can be induced by wide-field low-frequency insonation. The observed excessive bleeding rate with low-frequency sonothrombolysis might thus be attributable to primary blood-brain barrier disruption by ultrasound.

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Citations (1)

... Thus, many chemical drugs and targeted drug delivery systems cannot reach glioma due to the BBB, substantially limiting the therapeutic effect of targeted drug delivery [8]. Previous studies have revealed that low-frequency ultrasound (LFU) irradiation at appropriate intensity levels can non-invasively, safely and reversibly open the BBB [9][10][11], rendering it possible for therapeutic drugs to reach brain tumors. ...

Reference:

Enhancing glioma-specific drug delivery through self-assembly of macrophage membrane and targeted polymer assisted by low-frequency ultrasound irradiation
Blood-Brain Barrier Disruption By Low-Frequency Ultrasound

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Sebastian Krüger

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Thomas Els