Abstract: The present invention describes an integrated apparatus that enables identification of invasive tumor cells directly from a specimen. The methods using the apparatus can be used to prognose or predict the survivability of the cancer in a subject and the risk of recurrence of the cancer in the subject after treatment. The methods disclosed herein can be used to determine which chemotherapeutic or other therapies most strongly inhibit the tumor cells invasiveness as a form of personalized therapy.

Abstract: Disclosed are UAP inhibitors to inhibit glucose flux in the hexosamine biosynthetic pathway and methods of treating a disease using the inhibitors.

Abstract: The present invention describes an integrated apparatus that enables identification of invasive tumor cells directly from a specimen. The methods using the apparatus can be used to prognose or predict the survivability of the cancer in a subject and the risk of recurrence of the cancer in the subject after treatment. The methods disclosed herein can be used to determine which chemotherapeutic or other therapies most strongly inhibit the tumor cells invasiveness as a form of personalized therapy.

Abstract: The present invention provides compositions comprising Verteporfin and other anticancer compounds linked to a hydrophilic peptide through a degradable linker molecule to allow the anticancer compounds to penetrate tissues via in situ administration. The compounds of the present invention are useful for sensitizing tumor cells to radiotherapy, preventing recurrence of tumors after surgical resection and for treating remaining unremoved cancer cells at the site of the tumor.

Abstract: Disclosed are UAP inhibitors to inhibit glucose flux in the hexosamine biosynthetic pathway and methods of treating a disease using the inhibitors.

Abstract: Disclosed are UAP inhibitors to inhibit glucose flux in the hexosamine biosynthetic pathway and methods of treating a disease using the inhibitors.

Abstract: The present invention provides compositions comprising Verteporfin and other anticancer compounds linked to a hydrophilic peptide through a degradable linker molecule to allow the anticancer compounds to penetrate tissues via in situ administration. The compounds of the present invention are useful for sensitizing tumor cells to radiotherapy, preventing recurrence of tumors after surgical resection and for treating remaining unremoved cancer cells at the site of the tumor.

Abstract: The present invention describes an integrated apparatus that enables identification of invasive tumor cells directly from a specimen. The methods using the apparatus can be used to prognose or predict the survivability of the cancer in a subject and the risk of recurrence of the cancer in the subject after treatment. The methods disclosed herein can be used to determine which chemotherapeutic or other therapies most strongly inhibit the tumor cells invasiveness as a form of personalized therapy.

Abstract: The present invention provides compositions comprising Verteporfin and other anticancer compounds linked to a hydrophilic peptide through a degradable linker molecule to allow the anticancer compounds to penetrate tissues via in situ administration. The compounds of the present invention are useful for sensitizing tumor cells to radiotherapy, preventing recurrence of tumors after surgical resection and for treating remaining unremoved cancer cells at the site of the tumor.

Abstract: Disclosed are UAP inhibitors to inhibit glucose flux in the hexosamine biosynthetic pathway and methods of treating a disease using the inhibitors.

Abstract: This invention describes a quick-dissolving thin film strips comprising bioactive components encapsulated within pH-sensitive polymeric microparticles. The microparticles are embedded within the thin film and provide protection to components encapsulated within. The invention further describes methods to incorporate bioactive components encapsulated within pH-sensitive polymeric microparticles into a quick-dissolving thin film strip while maintaining the bioactivity of the contained therapeutic agents during thin film formation and microencapsulation.