Bubble-assisted ultrasound: Application in immunotherapy and vaccination
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Publication date
2016-01-01
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taverne
Abstract
Bubble-assisted ultrasound is a versatile technology with great potential in immunotherapy and vaccination. This technology involves the exposure of immune cells (i.e., dendritic cells, lymphocytes) in-vitro or diseased tissues (i.e., brain, tumor) in-vivo to ultrasound treatment with gas bubbles. Bubble destruction leads to physical forces that induce the direct delivery of weakly permeant immuno-stimulatory molecules either into the cytoplasm of immune cells, or through the endothelial barrier of diseased tissues. Hence, therapeutic antibodies (i.e., antibody-based immunotherapy) and cytokine-encoding nucleic acids (i.e., cytokine gene therapy) can be successfully delivered into diseased tissues, thus improving immune responses. In addition, protein antigens, as well as antigen-encoding nucleic acids (pDNA, mRNA), can be delivered into dendritic cells (i.e., dendritic cell-based vaccines), thus leading to a long-lasting prophylactic or therapeutic immunization. This chapter focuses on the state-of-the-art of bubble-assisted ultrasound in the field of immunotherapy and vaccination.
Keywords
Bubble, Immunotherapy, Ultrasound, Vaccination, Taverne, General Biochemistry,Genetics and Molecular Biology, General Medicine, Journal Article, Review
Citation
Escoffre, JM, Deckers, R, Bos, C & Moonen, C 2016, 'Bubble-assisted ultrasound : Application in immunotherapy and vaccination', Advances in Experimental Medicine and Biology, vol. 880, pp. 243-261. https://doi.org/10.1007/978-3-319-22536-4_14