Published Online
on March 23, 2006

A more recent version of this article appeared on May 1, 2006

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Submitted on November 3, 2005
Revised on January 12, 2006
Accepted on February 3, 2006

Brain Edema and Intracerebral Necrosis Caused by Transcranial Low-Frequency 20-kHz Ultrasound. A Safety Study in Rats

Felicitas Schneider MD; Tibo Gerriets MD; Maureen Walberer DVM; Clemens Mueller PhD; Roman Rolke MD; Bernhard M. Eicke MD; Juergen Bohl MD; Oliver Kempski MD; Manfred Kaps MD; Georg Bachmann MD; Marianne Dieterich MD; and Max Nedelmann MD^*

From the Department of Neurology (F.S., R.R., B.M.E., M.D., M.N.), Johannes Gutenberg-University, Mainz, Germany; Department of Neurology (T.G., M.W., M.K.), University Giessen, Germany; Department of Radiology - Experimental Neurology Research Group (T.G., M.W., C.M., G.B.), Kerkhoff Clinic Bad Nauheim, Germany; Department of Neuropathology (J.B.), Johannes Gutenberg-University, Mainz, Germany; and Institute for Neurosurgical Pathophysiology (O.K.), Johannes Gutenberg University, Mainz, Germany.

^* To whom correspondence should be addressed. E-mail: nedelmann{at}neurologie.klinik.uni-mainz.de.

Background and Purpose--Ultrasound-accelerated thrombolysis is a promising approach toward acute stroke treatment. In previous in vitro studies, we demonstrated enhanced thrombus destruction induced by 20-kHz ultrasound. However, little is known about biological interactions of low-frequency ultrasound with brain tissue. The aim of this in vivo MRI study was to assess safety aspects of transcranial low-frequency ultrasound in rats.

Methods--The cranium of 33 male Wistar rats was sonificated for 20 minutes (20-kHz continuous wave). Power output was varied between 0 and 2.6 W/cm². Tympanal and rectal temperature was monitored. Diffusion-weighted imaging and T2-weighted imaging was performed before and 4 hours, 24 hours, and 5 days after sonification. Apparent diffusion coefficients (ADCs) and T2 relaxation time (T2-RT) were measured in regions of interest in the cortex and the basal ganglia. The animals were euthanized for histological evaluation thereafter.

Results--Tympanal temperature increased significantly during insonation with 1.1 and 2.6 W/cm². ADCs decreased significantly at 0.5 and 1.1 W/cm², indicating cytotoxic edema. T2-RT increased significantly in the 0.5 and 1.1 W/cm² group, consistent with vasogenic edema. No changes were detectable in the low-power output group (0.2 W/cm²). After sonification with 2.6 W/cm², a significant loss of neurons could be detected on histopathology. Furthermore, 3 animals developed circumscript cortical lesions that could be identified as parenchymal necrosis.

Conclusion--Low-frequency ultrasound caused vasogenic and cytotoxic brain edema and intracerebral necrosis in a dose-dependent fashion. This study indicates therapeutic low-frequency ultrasound as being potentially harmful and underlines the necessity of careful evaluation in further animal models.

Key words: ultrasonography • thrombolysis • stroke

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