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Targeted delivery of doxorubicin to the rat brain at therapeutic levels using MRI‐guided focused ultrasound
Author(s) -
Treat Lisa H.,
McDannold Nathan,
Vykhodtseva Natalia,
Zhang Yongzhi,
Tam Karen,
Hynynen Kullervo
Publication year - 2007
Publication title -
international journal of cancer
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.475
H-Index - 234
eISSN - 1097-0215
pISSN - 0020-7136
DOI - 10.1002/ijc.22732
Subject(s) - doxorubicin , microbubbles , medicine , chemotherapy , drug delivery , ultrasound , blood–brain barrier , central nervous system , magnetic resonance imaging , brain tumor , pharmacology , drug , pathology , radiology , chemistry , organic chemistry
The clinical application of chemotherapy to brain tumors has been severely limited because antitumor agents are typically unable to penetrate an intact blood‐brain barrier (BBB). Although doxorubicin (DOX) has been named as a strong candidate for chemotherapy of the central nervous system (CNS), the BBB often prevents cytotoxic levels from being achieved. In this study, we demonstrate a noninvasive method for the targeted delivery of DOX through the BBB, such that drug levels shown to be therapeutic in human tumors are achieved in the normal rat brain. Using MRI‐guided focused ultrasound with preformed microbubbles (Optison) to locally disrupt the BBB and systemic administration of DOX, we achieved DOX concentrations of 886 ± 327 ng/g tissue in the brain with minimal tissue effects. Tissue DOX concentrations of up to 5,366 ± 659 ng/g tissue were achieved with higher Optison doses, but with more significant tissue damage. In contrast, DOX accumulation in nontargeted contralateral brain tissue remained significantly lower for all paired samples ( p < 0.001). These results suggest that targeted delivery by focused ultrasound may render DOX chemotherapy a viable treatment option against CNS tumors, despite previous accessibility limitations. In addition, MRI signal enhancement in the sonicated region correlated strongly with tissue DOX concentration ( r = 0.87), suggesting that contrast‐enhanced MRI could perhaps indicate drug penetration during image‐guided interventions. Our technique using MRI‐guided focused ultrasound to achieve therapeutic levels of DOX in the brain offers a large step forward in the use of chemotherapy to treat patients with CNS malignancies. © 2007 Wiley‐Liss, Inc.

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