Disclosed herein are pharmaceutical compositions, formulations, and dosage forms and their use in the treatment of a cancer. Also disclosed herein are methods of treating a cancer in a subject in need thereof.

A method for making a modified release composition, comprising: selecting a desired active agent and polymer matrix for formulating into a modified release composition; assessing degradation effect on release of the active agent from the composition including plotting polymer molecular weight (M.sub.wr) at onset of active agent release vs. active agent molecular weight (M.sub.wA); predicting performance of multiple potential formulations for the composition based on the degradation assessment and average polymer matrix initial molecular weight (M.sub.wo) to define a library of building blocks; determining the optimal ratio of the building blocks to satisfy a specified release profile; and making a modified release composition based on the optimal ratio determination.

In one aspect, the disclosure relates to relates to compositions, devices, and processes for drug delivery to an eye. The disclosed drug delivery compositions comprise a particle having a core component comprising a first polymer and a therapeutic agent, and a shell layer surrounding the core component comprising a second polymer. In a further aspect, the present disclosure relates to methods of treating an ophthalmological disease or disorder. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

Provided herein are methods of treating a peripheral nerve injury in a subject. The methods include administering to the subject at or near the site of the peripheral nerve injury an effective amount of a composition comprising an agent that promotes remyelination of the peripheral nerve. Also provided are methods of determining whether a peripheral nerve injury has a capacity for recovery. The methods include selecting a subject with a peripheral nerve injury, administering to the subject a first dose of a composition comprising and agent that promote remyelination and detecting after the first dose one or more characteristics of peripheral nerve recovery, the presence of one or more characteristics of peripheral nerve recovery indicating a peripheral nerve injury has a capacity for recovery and the absence of characteristics of peripheral nerve recovery indicating a peripheral nerve injury without a capacity for recovery.

The present invention provides a cannulation device for administering an active agent containing composition to the suprachoroidal space or supraciliary space. The invention provides methods of treatment of an ocular disease or condition accordingly. The invention also provides compositions for use in a method of treatment of an ocular disease or condition for delivery into the suprachoroidal space or supraciliary space.

A process can be used for preparing nano- or microparticles containing a carrier-polymer and a biologically active ingredient. The process is a solvent emulsion process involving an organic phase (OP) and an aqueous phase (AP) to form an emulsion. In the case of an oil-in-water emulsion (O/W), the organic phase (OP) contains the biologically active ingredient dissolved or dispersed therein. Alternatively, in the case of a water-in-oil emulsion (W.sub.1/O), the aqueous phase (AP) contains the biologically active ingredient dissolved or dispersed therein. The organic phase (OP) is saturated with the salt-containing aqueous phase (AP) and vice versa.

A method of treating, reducing, or alleviating a medical condition in a patient is disclosed herein. The method includes administering to a patient in need thereof a biocompatible drug comprising one or more antiviral medications together with one or more cell pathway inhibitors, the patient having at least one of a respiratory tract inflammatory disease, a central nervous system inflammatory disease, and vasculitis. The one or more antiviral medications preventing an attachment of viruses to cell walls, blocking a penetration of the viruses into cells, and/or inhibiting virus replication by damaging nucleic acids of the viruses. The one or more cell pathway inhibitors blocking an inflammatory response of inflamed tissue without inhibiting an immune response of the patient.

The present disclosure is directed to formulations, devices, kits, and methods for treating or preventing motor symptoms associated with Parkinson's disease by injection of a microsphere formulation of apomorphine free base or a pharmaceutically acceptable a salt thereof, wherein injection can be from a pre-filled injector.

A drug delivery system comprises a porous, self-healing biodegradable polymer matrix having a ionic, charged, biopolymer and a pH modifying species disposed within the pores. An ionic macromolecule having the opposite charge binds the biopolymer and forms a nonsoluble polyelectrolyte complex. The molecular weight of the biopolymer, the self healing polymer matrix, the concentration of pore forming agent and the concentration of the pH modifying species are selected for optimal binding and release of the macromolecule.

The present disclosure relates to, inter alia, improved methods for the treatment of solid tumors using embolic polymer microspheres, to embolic polymer microspheres that comprise a polymer and an inhibitor of the enzyme poly ADP ribose polymerase (PARP inhibitor) wherein the PARP inhibitor is held within the polymer microsphere and is elutable from the microsphere in aqueous media, and to methods of loading embolic polymer microspheres.