The present invention includes methods for treating a proliferative disorder by blocking both PDGFR and VEGFR signaling comprising a therapeutically effective amount of crenolanib or salt in combination with a VEGF/VEGFR inhibitor that is not axitinib wherein the crenolanib, VEGF/VEGFR inhibitor that is not axitinib are provided at least one of sequentially or concomitantly, in a subject for use in the treatment of the proliferative disorder, wherein the subject is a human subject.

The present invention includes methods for treating a proliferative disorder by blocking both PDGFR and VEGFR signaling comprising a therapeutically effective amount of crenolanib or salt in combination with a VEGF/VEGFR inhibitor that is not axitinib wherein the crenolanib, VEGF/VEGFR inhibitor that is not axitinib are provided at least one of sequentially or concomitantly, in a subject for use in the treatment of the proliferative disorder, wherein the subject is a human subject.

A room temperature injectable thermo-responsive hydrogel comprises a P407 poloxamer base hydrogel, chitosan, 2-Hydroxypropyl β-cyclodextrin and genipin. The chitosan and genipin form an interpenetrating scaffold within the hydrogel in which the chitosan is crosslinked with genipin. Chemotherapeutic drugs can be added to the hydrogel singly or in combination in effective amounts without any loss of thermo-responsiveness in the hydrogel. Therapeutic use of the thermo-responsive hydrogel in the intratumoural treatment of solid cancer is also described.

A room temperature injectable thermo-responsive hydrogel comprises a P407 poloxamer base hydrogel, chitosan, 2-Hydroxypropyl β-cyclodextrin and genipin. The chitosan and genipin form an interpenetrating scaffold within the hydrogel in which the chitosan is crosslinked with genipin. Chemotherapeutic drugs can be added to the hydrogel singly or in combination in effective amounts without any loss of thermo-responsiveness in the hydrogel. Therapeutic use of the thermo-responsive hydrogel in the intratumoural treatment of solid cancer is also described.

A room temperature injectable thermo-responsive hydrogel comprises a P407 poloxamer base hydrogel, chitosan, 2-Hydroxypropyl β-cyclodextrin and genipin. The chitosan and genipin form an interpenetrating scaffold within the hydrogel in which the chitosan is crosslinked with genipin. Chemotherapeutic drugs can be added to the hydrogel singly or in combination in effective amounts without any loss of thermo-responsiveness in the hydrogel. Therapeutic use of the thermo-responsive hydrogel in the intratumoural treatment of solid cancer is also described.

Methods of treating ovarian cancer are disclosed.

Methods of treating ovarian cancer are disclosed.

Methods of treating ovarian cancer are disclosed.

Provided are a glypican-3 (GPC3)-specific modified aptamer, and prevention or treatment of hepatoma using the same. The glypican-3-specific modified aptamer of the present invention specifically binds to glypican-3 to be internalized into hepatoma cells, and exhibits anticancer activity through an anticancer agent bound to the aptamer, and therefore, has a selective anticancer effect only for GPC3-expressing hepatoma cells without affecting normal hepatocytes.

Provided are a glypican-3 (GPC3)-specific modified aptamer, and prevention or treatment of hepatoma using the same. The glypican-3-specific modified aptamer of the present invention specifically binds to glypican-3 to be internalized into hepatoma cells, and exhibits anticancer activity through an anticancer agent bound to the aptamer, and therefore, has a selective anticancer effect only for GPC3-expressing hepatoma cells without affecting normal hepatocytes.