This disclosure relates to methods of managing cancer and tumor growth. In certain embodiments, this disclosure relates to methods of treating cancer comprising administering a combination of chemotherapy agents, wherein a first chemotherapy agent is capable of inhibiting oxidative phosphorylation of pyruvate and a second chemotherapy agent is capable of inhibiting glucose metabolism. In certain embodiments, the first and second chemotherapy agents are administered in combination with an additional chemotherapy agent.

This disclosure relates to methods of managing cancer and tumor growth. In certain embodiments, this disclosure relates to methods of treating cancer comprising administering a combination of chemotherapy agents, wherein a first chemotherapy agent is capable of inhibiting oxidative phosphorylation of pyruvate and a second chemotherapy agent is capable of inhibiting glucose metabolism. In certain embodiments, the first and second chemotherapy agents are administered in combination with an additional chemotherapy agent.

Disclosed are a HPPH lyophilized powder injection for injection and the preparation method thereof. The HPPH lyophilized powder injection contains HPPH, auxiliary solvents, solubilizing agents, excipients, and pH adjusting agents. The HPPH lyophilized powder injection is loose and has good resolubility, low moisture, and good stability.

Disclosed are a HPPH lyophilized powder injection for injection and the preparation method thereof. The HPPH lyophilized powder injection contains HPPH, auxiliary solvents, solubilizing agents, excipients, and pH adjusting agents. The HPPH lyophilized powder injection is loose and has good resolubility, low moisture, and good stability.

Provided herein is a method for reducing resistance in an individual having a drug resistant cancer, for example, a BRAF inhibitor resistant cancer. A Hippo signaling pathway inhibitor such as a Yes-associated protein 1 (YAP1) inhibitor, a Transcriptional Coactivator with PDZ-binding motif (TAZ) inhibitor, a Transcription enhancer domain (TEAD) inhibitor or a combination of these is administered. Also provided is a method of treating BRAF inhibitor resistance in an individual with a BRAF inhibitor resistant cancer, for example, malignant melanoma, with a Hippo signaling pathway inhibitor, such as Verteporfin, and a BRAF inhibitor.

Provided herein is a method for reducing resistance in an individual having a drug resistant cancer, for example, a BRAF inhibitor resistant cancer. A Hippo signaling pathway inhibitor such as a Yes-associated protein 1 (YAP1) inhibitor, a Transcriptional Coactivator with PDZ-binding motif (TAZ) inhibitor, a Transcription enhancer domain (TEAD) inhibitor or a combination of these is administered. Also provided is a method of treating BRAF inhibitor resistance in an individual with a BRAF inhibitor resistant cancer, for example, malignant melanoma, with a Hippo signaling pathway inhibitor, such as Verteporfin, and a BRAF inhibitor.

Provided herein is a method for reducing resistance in an individual having a drug resistant cancer, for example, a BRAF inhibitor resistant cancer. A Hippo signaling pathway inhibitor such as a Yes-associated protein 1 (YAP1) inhibitor, a Transcriptional Coactivator with PDZ-binding motif (TAZ) inhibitor, a Transcription enhancer domain (TEAD) inhibitor or a combination of these is administered. Also provided is a method of treating BRAF inhibitor resistance in an individual with a BRAF inhibitor resistant cancer, for example, malignant melanoma, with a Hippo signaling pathway inhibitor, such as Verteporfin, and a BRAF inhibitor.

Provided are a tumor proliferation inhibitor and a method for inhibiting tumor proliferation both of which can be applied to a minimally invasive cancer treatment using low-intensity pulsed ultrasound. The present invention provides a tumor proliferation inhibitor containing an ultrasound-sensitive substance and an acoustic cavitation phenomenon-enhancing substance, and provides a method for inhibiting tumor proliferation that can exhibit a tumor proliferation-inhibitory effect using the tumor proliferation inhibitor in combination with low-intensity pulsed ultrasound of a degree that is used in ultrasound diagnosis, and that can be applied to a minimally invasive cancer treatment using low-intensity pulsed ultrasound.

Provided are a tumor proliferation inhibitor and a method for inhibiting tumor proliferation both of which can be applied to a minimally invasive cancer treatment using low-intensity pulsed ultrasound. The present invention provides a tumor proliferation inhibitor containing an ultrasound-sensitive substance and an acoustic cavitation phenomenon-enhancing substance, and provides a method for inhibiting tumor proliferation that can exhibit a tumor proliferation-inhibitory effect using the tumor proliferation inhibitor in combination with low-intensity pulsed ultrasound of a degree that is used in ultrasound diagnosis, and that can be applied to a minimally invasive cancer treatment using low-intensity pulsed ultrasound.

It is intended to provide a therapeutic and/or diagnostic agent that can be used in photodynamic therapy (PDT) or photodynamic diagnosis (PDD) capable of utilizing infrared-spectrum light such as near-infrared light (NIR), infrared light, or far-infrared light, which attains a deep body penetration. The present invention provides a photodynamic therapeutic or diagnostic agent or a photodynamic therapeutic or diagnostic kit for cancer or infectious disease, comprising: a particle (e.g., a lanthanide particle) that emits upconversion luminescence by infrared-spectrum light such as near-infrared light having a wavelength of 0.7 μm to 2.5 μm; and a photosensitizer (e.g., porphyrin) or a 5-aminolevulinic acid group.