Abstract: A process for the preparation of beads including a biocompatible hydrophobic polymer, a perfluorocarbon, polyvinylalcohol and optionally a metal compound, including the steps of: adding the perfluorocarbon and optionally the metal compound to a solution of the biocompatible hydrophobic polymer in a polar solvent to provide a first liquid mixture, adding the first liquid mixture to an aqueous solution of a biocompatible surfactant including polyvinylalcohol under sonication to obtain a second liquid mixture, a) maintaining the sonication of the second liquid mixture while cooling, b) evaporating the polar solvent from the second liquid mixture to obtain a suspension of beads including the biocompatible hydrophobic polymer, the perfluorocarbon and optionally the metal compound, c) separating the beads from the suspension and preparing a water suspension of the beads and d) freeze-drying the water suspension to obtain the beads, wherein the addition of the first liquid mixture to the biocompatible surfactant in

Abstract: The present invention relates to contrast agent enhanced medical ultrasound imaging. In particular, the contrast agents provided are useful for cell imaging and cell therapy, as well as in vivo targeting, drug delivery and perfusion or vascular imaging applications. More specifically, it provides a particle comprising a fluorinated organic compound and a metal. Such particles may be advantageously employed in qualitative or quantitative imaging such as acoustic imaging including photoacoustic and ultrasound imaging, MRI imaging, such as 19F imaging, 1H imaging including T1 and T2 weighted imaging, SPECT, PET, scintigraphy, fluorescence imaging and optical coherence imaging and tomographic applications. This may then be employed in cell labeling, microscopy, histology or for imaging vasculature or perfusion in vivo and in vitro.

Abstract: A process for the preparation of beads including a biocompatible hydrophobic polymer, a perfluorocarbon, polyvinylalcohol and optionally a metal compound, including the steps of: adding the perfluorocarbon and optionally the metal compound to a solution of the biocompatible hydrophobic polymer in a polar solvent to provide a first liquid mixture, adding the first liquid mixture to an aqueous solution of a biocompatible surfactant including polyvinylalcohol under sonication to obtain a second liquid mixture, a) maintaining the sonication of the second liquid mixture while cooling, b) evaporating the polar solvent from the second liquid mixture to obtain a suspension of beads including the biocompatible hydrophobic polymer, the perfluorocarbon and optionally the metal compound, c) separating the beads from the suspension and preparing a water suspension of the beads and d) freeze-drying the water suspension to obtain the beads, wherein the addition of the first liquid mixture to the biocompatible surfactant in

Abstract: In the field of medical therapy, more in particular in the field of ablation therapy using ultrasound, such as high intensity focused ultrasound (HIFU), devices and methods are disclosed for enhancing the ablation effect of HIFU. More in particular, a polymeric particle is disclosed, including a polymer entrapping a liquid perfluorocarbon for use in high frequency ultrasound (HIFU) ablation therapy in a human or animal body, wherein the HIFU is focused in a focal region, wherein the ablation effect of the HIFU in the focal region is enhanced by administering the particles to the human or animal body, and the liquid perfluorocarbon does not undergo a phase change from liquid to gas during exposure to the HIFU.

Abstract: The present invention relates to contrast agent enhanced medical ultrasound imaging. In particular, the contrast agents provided are useful for cell imaging and cell therapy, as well as in vivo targeting, drug delivery and perfusion or vascular imaging applications. More specifically, it provides a particle comprising a fluorinated organic compound and a metal. Such particles may be advantageously employed in qualitative or quantitative imaging such as acoustic imaging including photoacoustic and ultra-sound imaging, MRI imaging, such as 19F imaging, 1H imaging including T1 and T2 weighted imaging, SPECT, PET, scintigraphy, fluorescence imaging and optical coherence imaging and tomographic applications. This may then be employed in cell labeling, microscopy, histology or for imaging vasculature or perfusion in vivo and in vitro.

Abstract: The invention relates to a method for providing an activated antigen-presenting cell or a composition that comprises at least one activated antigen-presenting cell, which method at last comprises the steps of providing a composition that comprises at least one antigen-presenting cell and contacting said composition with a vaccine. Suitably, the at least one dendritic cell is brought into a state in which it is capable of stimulating T-cells and/or a T-cell mediated response.

Abstract: The present invention relates to immunogenic peptides that can be used to elicit an immune response in a human or animal against a tumor, in particular against an immunogenic tumor. The peptides are derived from the G250 tumor antigen that is frequently expressed on immunogenic tumors, such as renal cell carcinoma. The particular peptides are selected for their capability to elicit both CD4+ and CD8+ T-cell responses against cells expressing the G250 antigen.