Disclosed herein are methods relating to manufacturing an embolizing agent precursor. Manufacture of the embolizing agent precursor may involve mixing a first component contained within a first container with a second component contained within a second container, the first component including a plurality of negatively charged gaseous components and a first stabilizer, the second component comprising a plurality of positively charged oil components, a second stabilizer, and a cationic surfactant. Further steps may include mixing the first component with the second component such that the first and second component are held together as a single agglomerated entity.

The present invention relates to the field of ultrasound-mediated therapeutic treatments in combination with gas-filled microvesicles. It relates in particular to enhancing the efficacy of a combined therapeutic treatment of gas-filled microvesicles and ultrasound, by reducing the vasospasm effect caused by said therapeutic treatment.

Disclosed herein are compositions and methods for an embolizing agent precursor. The embolizing agent precursor may include a gaseous component and a first stabilizer to stabilize the gaseous component, the first stabilizer may include a a polymer, and wherein a gas portion of the gaseous component is selected from the group consisting of sulphur hexafluoride and C3-6 perfluorocarbons. The embolizing agent precursor may further include an oil component which comprises a C1-7 hydrocarbon, a second stabilizer to stabilize the oil component, and a vaporous component configured to enlarge the gaseous component.

Disclosed are means of enhancing therapeutic effects of fibroblast administration through utilization of extracorporeal shock waves. In one embodiment, enhancement of intravenously administered fibroblast therapeutic activity is accomplished by introducing extracorporeal shock waves to the patient in need of therapy. In one specific embodiment, enhancement of the ability of fibroblasts administered intravenously to treat a condition is accomplished by exposure of areas areas affected by the condition to extracorporeal shock waves. In another specific embodiment, the invention provides transfection of IL-12 and/or IL-23 into fibroblasts to augment regenerative activity, including neuroregenerative and anticancer activity. In further embodiments the invention provides augmentation of regenerative activity by induction of T regulatory cells utilizing IL-35 transfection, wherein said T regulatory cells provide an optimized environment for stimulation of regenerative activity.

The present disclosure relates to, inter alia, a method for treating a tumor by intratumorally delivering an effective amount of a composition comprising an expression vector that comprises a first nucleotide sequence encoding a secretable vaccine protein, and a second nucleotide sequence encoding a T cell costimulatory fusion protein.

Provided are a method for preparing liposomes comprising ultrasound reactive microbubbles for drug delivery, comprising (a) a step of producing ultrasound reactive microbubbles comprising an inert gas therein and having a first shell formed on the outer surface thereof, followed by forming a uniform size distribution of the ultrasound reactive microbubbles through an extruder; and (b) a step of producing liposomes comprising the ultrasound reactive microbubbles distributed in a uniform size and a medicament therein and having a second shell formed on the outer surface thereof, followed by forming a uniform size distribution of the liposomes through an extruder; and a liposome using same.

Disclosed herein are polynucleotides having a plurality of thymine nucleotides and an endonuclease recognition site inserted therein, methods of engineering the polynucleotides having a plurality of thymine nucleotides and an endonuclease recognition site inserted therein, and methods of enhancing transcription, translation, and increasing stability of a polynucleotide.

The invention provides polymeric particles comprising a matrix of a biocompatible polymer and polyethylene imine, said matrix having incorporated therein an anionic or hydrophobic sonosensitiser and, optionally, an immunomodulatory agent and/or an imaging agent. Such particles find use in methods of sonodynamic therapy, in particular in methods of combined sonodynamic therapy and immunotherapy, for example in the treatment of cancer, metastasis or micrometastasis derived from cancer. The invention is particularly suitable for the treatment of deep-sited, hard to treat tumours such as pancreatic cancer.

The present invention provides compositions comprising energy (e.g., light) absorbing submicron particles (e.g., nanoparticles comprising a silica core and a gold shell) and methods for delivering such particles via topical application. This delivery is facilitated by application of mechanical agitation (e.g. massage), acoustic vibration in the range of 10 Hz-20 kHz, ultrasound, alternating suction and pressure, and microjets.

The present invention relates to miRNA inhibitors for use for the treatment of leiomyoma. In particular, it refers to an inhibitor of one or more miRNAs selected from the group consisting of miR-148a-3p, miR-199a-5p and miR-33b-3p for use in the treatment of uterine leiomyoma. Said inhibitor is preferably an LNA-based oligonucleotide. Pharmaceutical compositions comprising said inhibitor for use for the treatment of uterine leiomyoma are also within the invention.