Provided are ergoline derivative containing medicaments disposed within a preassembled, prefilled, single-use delivery device, methods for administering a medicament using a preassembled, prefilled, single-use delivery device, and systems or kits that contain one or more preassembled, prefilled, single-use devices and user instructions, such as for treatment of a migraine or other headache.

Provided are ergoline derivative containing medicaments disposed within a preassembled, prefilled, single-use delivery device, methods for administering a medicament using a preassembled, prefilled, single-use delivery device, and systems or kits that contain one or more preassembled, prefilled, single-use devices and user instructions, such as for treatment of a migraine or other headache.

Analogs for CLR/RAMP receptor ligands are provided that have agonist, superagonist, antagonist or superantagonist activity. The analogs can be selective for one or more CLR/RAMP receptors, or can be pan-specific.

Disclosed are methods for treating headache, migraine and related symptoms by administering a long acting calcitonin gene related peptide (CGRP) antagonist and a short acting CGRP antagonist. Specifically, the disclosure provides a method for treating, preventing, alleviating, or reducing the frequency of occurrence of headache in a patient in need thereof, comprising administering to the patient: (a) a first calcitonin gene related peptide antagonist (CGRP antagonist) and (b) a second CGRP-antagonist, wherein the first CGRP antagonist is an antibody, and the second CGRP antagonist has a plasma half-life in humans of at most about 60 hours.

Disclosed are methods for treating headache, migraine and related symptoms by administering a long acting calcitonin gene related peptide (CGRP) antagonist and a short acting CGRP antagonist. Specifically, the disclosure provides a method for treating, preventing, alleviating, or reducing the frequency of occurrence of headache in a patient in need thereof, comprising administering to the patient: (a) a first calcitonin gene related peptide antagonist (CGRP antagonist) and (b) a second CGRP-antagonist, wherein the first CGRP antagonist is an antibody, and the second CGRP antagonist has a plasma half-life in humans of at most about 60 hours.

Disclosed herein are compositions comprising an NSAID such as meloxicam and/or rizatriptan in combination with a cyclodextrin and/or a carbonate or a bicarbonate. These compositions may be orally administered, for example, to improve the bioavailability or pharmacokinetics of the NSAID for the treatment of pain such as migraine, arthritis, and other conditions. Also disclosed herein are methods of treating pain, such as migraine, comprising administering meloxicam and rizatriptan to a human being suffering from pain, such as migraine. For migraine, these methods may be particularly useful when the meloxicam and rizatriptan are administered while the human being is suffering from an acute attack of migraine pain or migraine aura. In some embodiments, the combination of meloxicam and rizatriptan may be administered in a manner that results in a T.sub.max of meloxicam of 3 hours or less.

The present disclosure is related to the use of compositions and their use in reducing and treating pain.

In alternative embodiments, provided are methods for increasing levels of and/or upregulating the expression of ApoA-I Binding Protein (APOA1BP, AIBP, or AI-BP) to treat, ameliorate, prevent, reverse, decrease the severity or duration of: a neuropathic pain, including an inflammation-induced neuropathic pain, a nerve or CNS inflammation, a, a post nerve injury pain, a post-surgical pain, a chemotherapeutic-induced peripheral neuropathy (CIPN) (e.g., cisplatin-induced allodynia) a neurodegeneration or neurodegenerative disease or condition, a migraine, and/or a hyperalgesia. In alternative embodiments, provided are methods comprising administering formulations and pharmaceutical compositions comprising an APOA1BP polypeptide or protein that is a human or a mammalian APOA1BP, or an AIBP1 or an AIBP2, or a recombinant, peptidomimetic or a synthetic APOA1BP, or a bioisostere of an ApoA-I Binding Protein to treat, ameliorate prevent, reverse, decrease the severity of a neuropathic pain, a TLR4-mediated allodynia and/or a hyperalgesia.

In alternative embodiments, provided are methods for increasing levels of and/or upregulating the expression of ApoA-I Binding Protein (APOA1BP, AIBP, or AI-BP) to treat, ameliorate, prevent, reverse, decrease the severity or duration of: a neuropathic pain, including an inflammation-induced neuropathic pain, a nerve or CNS inflammation, a, a post nerve injury pain, a post-surgical pain, a chemotherapeutic-induced peripheral neuropathy (CIPN) (e.g., cisplatin-induced allodynia) a neurodegeneration or neurodegenerative disease or condition, a migraine, and/or a hyperalgesia. In alternative embodiments, provided are methods comprising administering formulations and pharmaceutical compositions comprising an APOA1BP polypeptide or protein that is a human or a mammalian APOA1BP, or an AIBP1 or an AIBP2, or a recombinant, peptidomimetic or a synthetic APOA1BP, or a bioisostere of an ApoA-I Binding Protein to treat, ameliorate prevent, reverse, decrease the severity of a neuropathic pain, a TLR4-mediated allodynia and/or a hyperalgesia.

The present disclosure pertains to the use of propofol prodrugs, pharmaceutically acceptable salts of propofol prodrugs, or mixtures thereof, to treat migraine.