Provided herein are methods and compositions for the delivery of at least two active, therapeutic, or pharmaceutical agents in an oil-in-water emulsion, wherein at least one agent is delivered in the hydrophobic phase of the emulsion and at least one agent is delivered in the aqueous phase of the emulsion.

Compounds and methods for use in detecting pregabalin in a sample suspected of containing pregabalin are disclosed. Pregabalin derivatives are described for producing pregabalin conjugates. A pregabalin-immunogenic carrier conjugate may be used as an immunogen for the preparation of an anti-pregabalin antibody. A pregabalin-detectable label conjugate may be used in a signal producing system in pregabalin assays.

The present invention relates to, in part, compositions comprising improved flagellin derived constructs and methods of using for vaccination, including adjuvants comprising flagellin-based agents.

This disclosure describes a fentanyl hapten, a fentanyl hapten-carrier conjugate, methods of making the fentanyl hapten and the fentanyl hapten-carrier conjugate, and methods of using the fentanyl hapten and the fentanyl hapten-carrier conjugate. The fentanyl hapten-carrier conjugate may be used, for example, as a prophylactic vaccine to counteract toxicity from exposure to fentanyl and its analogues. In some embodiments, the fentanyl hapten-carrier conjugate or a composition including the fentanyl hapten-carrier conjugate may be used in an anti-opioid vaccine.

The present disclosure is directed to isolated recombinant antibodies, or antigen-binding fragments thereof, that bind to fentanyl or fentanyl analogs. The novel antibodies or antigen-binding fragments thereof can be used to detect, diagnose, treat, and/or prevent opioid use disorder.

Described is the preparation of novel fentanyl haptens of Formula (1) through (6) and their use in the preparation of effective fentanyl vaccines.

The invention provides a novel fusion protein between flagellin (or portions thereof) and a polypeptide that can form a virus-like particle (VLP) (e.g., hepatitis b core (HBc) protein or portions thereof), where the fusion protein continues to form a VLP in an aqueous environment. The VLPs based on such fusion proteins (e.g., FH VLPs) provide a versatile, highly immunogenic, and safe vaccine carrier capable of displaying or associating a variety of vaccine antigens on VLP surface to elicit potent humoral and cellular immune responses.

This disclosure describes fentanyl haptens, a fentanyl hapten-carrier conjugate, methods of making the fentanyl hapten-carrier conjugate, and methods of using the fentanyl hapten-carrier conjugate including, for example, as a prophylactic vaccine to counteract toxicity from exposure to fentanyl, fentanyl derivatives, and fentanyl analogs. In some embodiments, the fentanyl hapten-carrier conjugate or a composition including the fentanyl hapten-carrier conjugate may be used in an anti-opioid vaccine.

The present invention is directed to virus-like particles (VLPs) preferably derived from Qbeta bacteriophage which are engineered to conjugate to derivatives of opioid drugs. The opioid drugs are conjugated at high density to the virus-like particles to achieve long-lasting and high titer antibodies to the drugs of interest. Methods of treatment are also described.

The present invention relates to novel 6-acetylmorphine analogs, and methods for their synthesis and use. Such analogs are designed to provide a convenient linkage chemistry for coupling under mild conditions to a suitable group on a target protein, polypeptide, solid phase or detectable label.