Methods of expanding tumor infiltrating lymphocytes (TILs) using a potassium channel agonist, such as a K.sub.Ca3.1 (IK channel) agonist, and uses of such expanded TILs in the treatment of diseases such as cancer are disclosed herein.

Disclosed herein are novel compounds and methods for the treatment of acute organ injury, including injuries resulting from ischemic events. The compounds may be used to treat organ including the brain, heart, or kidney, which have injured as a result of events such as stroke, cardiac arrest, traumatic brain injury, hemorrhagic shock, or subarachnoid hemorrhage.

Disclosed herein are novel compounds and methods for the treatment of acute organ injury, including injuries resulting from ischemic events. The compounds may be used to treat organ including the brain, heart, or kidney, which have injured as a result of events such as stroke, cardiac arrest, traumatic brain injury, hemorrhagic shock, or subarachnoid hemorrhage.

Described herein are materials and methods for the treatment of neurodegenerative diseases by administering a combination of fenofibrate and kaempferol.

Described herein are materials and methods for the treatment of neurodegenerative diseases by administering a combination of fenofibrate and kaempferol.

The present disclosure features combinations of dopaminergic agents and analgesic agents useful for treating pain. In particular, the combinations feature a low ratio of dopaminergic agent to analgesic agent. The dopaminergic agent can be an agonist of the dopamine receptor D1-like family or the dopamine receptor D2-like family. Such combinations potentiate analgesia to 1) alleviate acute pain, 2) prevent the transition from acute pain to chronic pain, and 3) manage chronic pain.

The present disclosure features combinations of dopaminergic agents and analgesic agents useful for treating pain. In particular, the combinations feature a low ratio of dopaminergic agent to analgesic agent. The dopaminergic agent can be an agonist of the dopamine receptor D1-like family or the dopamine receptor D2-like family. Such combinations potentiate analgesia to 1) alleviate acute pain, 2) prevent the transition from acute pain to chronic pain, and 3) manage chronic pain.

Provided are novel crystalline forms of Lanifibranor (Referred to as “Compound I”) and preparation methods thereof, pharmaceutical compositions containing the crystalline forms, and uses of the crystalline forms for preparing pan-PPAR agonists drugs and drugs for treating NASH. Compared with prior arts, the provided crystalline forms of Compound I have one or more improved properties, which solve the problems of the prior art and is of great value to the optimization and development of the drugs.

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Disclosed herein are new antiviral compounds, together with pharmaceutical compositions that include one or more antiviral compounds, and methods of synthesizing the same. Also disclosed herein are methods of ameliorating and/or treating a paramyxovirus viral infection with one or more small molecule compounds. Examples of paramyxovirus infection include an infection caused by human respiratory syncytial virus (RSV).

Disclosed herein are new antiviral compounds, together with pharmaceutical compositions that include one or more antiviral compounds, and methods of synthesizing the same. Also disclosed herein are methods of ameliorating and/or treating a paramyxovirus viral infection with one or more small molecule compounds. Examples of paramyxovirus infection include an infection caused by human respiratory syncytial virus (RSV).