This invention concerns in general treatment of diseases and pathological conditions with anti-VEGF antibodies. More specifically, the invention concerns the treatment of human patients susceptible to or diagnosed with cancer using an anti-VEGF antibody, preferably in combination with one or more additional anti-tumor therapeutic agents.

The present invention discloses and claims compositions, methods of treatment, and kits which cause an increase in the time of survival in cancer patients, wherein the cancer: (i) overexpresses thioredoxin or glutaredoxin and/or (ii) exhibits evidence of thioredoxin- or glutaredoxin-mediated resistance to one or more chemotherapeutic interventions. The present invention also discloses and claims methods and kits for the administration of said compositions to properly treat cancer patients. Additionally, the present invention discloses and claims methods and kits for quantitatively determining the level of expression of thioredoxin or glutaredoxin in the cancer cells of a cancer patient, methods of using those determined levels in the initial diagnosis and/or planning of subsequent treatment methodologies for said cancer patient, as well as ascertaining the potential growth “aggressiveness” of the particular cancer and treatment responsiveness of the particular type of cancer. Further, the present invention discloses and claims novel pharmaceutical compositions, methods, and kits used for the treatment of patients with medical conditions and disease where there is the overexpression of thioredoxin and/or glutaredoxin, and wherein this overexpression is associated with deleterious physiological effects in the patients.

The present invention discloses and claims compositions, methods of treatment, and kits which cause an increase in the time of survival in cancer patients, wherein the cancer: (i) overexpresses thioredoxin or glutaredoxin and/or (ii) exhibits evidence of thioredoxin- or glutaredoxin-mediated resistance to one or more chemotherapeutic interventions. The present invention also discloses and claims methods and kits for the administration of said compositions to properly treat cancer patients. Additionally, the present invention discloses and claims methods and kits for quantitatively determining the level of expression of thioredoxin or glutaredoxin in the cancer cells of a cancer patient, methods of using those determined levels in the initial diagnosis and/or planning of subsequent treatment methodologies for said cancer patient, as well as ascertaining the potential growth “aggressiveness” of the particular cancer and treatment responsiveness of the particular type of cancer. Further, the present invention discloses and claims novel pharmaceutical compositions, methods, and kits used for the treatment of patients with medical conditions and disease where there is the overexpression of thioredoxin and/or glutaredoxin, and wherein this overexpression is associated with deleterious physiological effects in the patients.

The present invention discloses and claims compositions, methods of treatment, and kits which cause an increase in the time of survival in cancer patients, wherein the cancer: (i) overexpresses thioredoxin or glutaredoxin and/or (ii) exhibits evidence of thioredoxin- or glutaredoxin-mediated resistance to one or more chemotherapeutic interventions. The present invention also discloses and claims methods and kits for the administration of said compositions to properly treat cancer patients. Additionally, the present invention discloses and claims methods and kits for quantitatively determining the level of expression of thioredoxin or glutaredoxin in the cancer cells of a cancer patient, methods of using those determined levels in the initial diagnosis and/or planning of subsequent treatment methodologies for said cancer patient, as well as ascertaining the potential growth “aggressiveness” of the particular cancer and treatment responsiveness of the particular type of cancer. Further, the present invention discloses and claims novel pharmaceutical compositions, methods, and kits used for the treatment of patients with medical conditions and disease where there is the overexpression of thioredoxin and/or glutaredoxin, and wherein this overexpression is associated with deleterious physiological effects in the patients.

Described herein are methods of treating non-metastatic castrate-resistant prostate cancer with anti-androgens.

Described herein are methods of treating non-metastatic castrate-resistant prostate cancer with anti-androgens.

Embodiments of the disclosure include methods and compositions useful for treating cancer in an immunogenic manner so as to elicit local tumor regression, while priming systemic immunity. In one embodiment, there is expansion of tumor-specific immune cells through administration of fibroblasts, either natural or modified in an intratumoral and/or peritumoral manner. In other embodiments, manipulation of a local tumor microenvironment is achieved by injections of immune-modulating fibroblasts to facilitate expansion of immune effector cells, which are subsequently re-stimulated in the periphery by antigenic exposure. In another embodiment, agents are provided that allow for systemic derepression of immunity, while optionally augmenting ability of immune effector cells to expand and kill tumor cells.

Embodiments of the disclosure include methods and compositions useful for treating cancer in an immunogenic manner so as to elicit local tumor regression, while priming systemic immunity. In one embodiment, there is expansion of tumor-specific immune cells through administration of fibroblasts, either natural or modified in an intratumoral and/or peritumoral manner. In other embodiments, manipulation of a local tumor microenvironment is achieved by injections of immune-modulating fibroblasts to facilitate expansion of immune effector cells, which are subsequently re-stimulated in the periphery by antigenic exposure. In another embodiment, agents are provided that allow for systemic derepression of immunity, while optionally augmenting ability of immune effector cells to expand and kill tumor cells.

The present invention includes a method for detecting or predicting a disease or condition related to a ratio of luteinizing hormone to follicle-stimulating hormone (LH/FSH ratio) comprising: obtaining or having obtained a biological sample from a subject; and determining the LH/FSH ratio in the biological sample, wherein a decrease in the LH/FSH ratio when compared to an age-matched subject that does not have a disease or condition of LH/FSH is indicative of a current or future disease or condition of LH/FSH.

A transdermal absorption-type patch (10) includes: a support material (1) and an adhesive layer (2) laminated on the support material (1). The adhesive layer (2) includes: a solid composite material (2a), the solid composite material (2a) being an active ingredient with a molecular weight of 800 or greater enclosed by a surfactant; an oil phase; and an adhesive agent, the adhesive agent containing an acrylic elastomer. The content of the acrylic elastomer is 30% to 70% by mass based on the total mass of the acrylic elastomer and the oil phase. The composite material (2a) forms a solid-in-oil type particle dispersed in the oil phase.