Abstract: Liposome preparation systems are provided. Aspects of the systems include a liposome collection container and a membrane holder. In embodiments, the liposome collection container has an open first end, a closed bottom, a wall, and an opening in the wall. The system can be operably connected to a vacuum source such that a vacuum force can be applied through the opening, thereby drawing liposomes through the porous membrane and producing a population of liposomes. Also provided are methods of producing liposomes, as well as apparatus and kits for performing the methods.

Abstract: Drug-loaded microbead compositions include microbeads of a water-swellable polymer material and a complex of a carrier and a therapeutic agent chemically bonded to the carrier. The complex is embedded in the polymer material. Methods for preparing the drug-loaded microbead compositions and embolization compositions include loading a therapeutic agent into a water-swellable polymer material to form microbeads, then removing water from the microbeads. Additional drug-loaded microbead compositions include microbeads of a biodegradable material, vesicular agents, a first therapeutic agent associated with the vesicular agents, and a second therapeutic agent different from the first therapeutic agent. The vesicular agents include a lipid bilayer surrounding a vesicular core. The second therapeutic agent is contained within the microbeads or associated with the microbeads through ionic or non-covalent interaction and may or may not be associated with the vesicular agents.

Abstract: Drug-loaded microbead compositions include microbeads of a biodegradable material and vesicular agents located within or associated with the biodegradable material of the microbeads. The vesicular agents include a lipid bilayer and comprise liposomes or ethosomes. The drug-loaded microbeads include a first therapeutic agent associated with the vesicular agents, and a second therapeutic agent different from the first therapeutic agent. The vesicular agents include a lipid bilayer surrounding a vesicular core. The second therapeutic agent is contained within the microbeads or associated with the microbeads through ionic or non-covalent interaction and may or may not be associated with the vesicular agents. Drug-loaded biodegradable microbead compositions include microbeads of biodegradable material and a therapeutic agent.

Abstract: Drug-loaded microbead compositions including a plurality of individual microbeads of a biodegradable material, a plurality of individual vesicular agents, a first therapeutic agent, and a second therapeutic agent different from the first therapeutic agent. The vesicular agents include at least one lipid bilayer surrounding a vesicular core. The first therapeutic agent is associated with the individual vesicular agents. For example, the first therapeutic agent may be contained within the individual vesicular agents or may be associated with the individual vesicular agents by ionic or non-covalent interaction. The second therapeutic agent is different from the first therapeutic agent and contained within the individual microbeads or associated with the individual microbeads through ionic or non-covalent interaction. The second therapeutic agent may or may not be associated with the individual vesicular agents.

Abstract: Methods of determining whether a sample includes an antibody that binds to a coronaviral antigen are provided. Aspects of the methods may include combining the sample, a mammalian cell displaying on a surface thereof an antigenic determinant of the coronaviral antigen that is specifically bound by the antibody, and a labeled secondary binding member that binds to the antibody to produce an assay composition; and flow cytometrically assaying the assay composition for the presence of a signal from the labeled secondary binding member to determine whether the sample includes the antibody. Also provided are methods of assessing a subject for an immune response to a coronaviral infection and methods of producing a mammalian cell displaying on a surface thereof an antigenic determinant of a coronaviral antigen. Also provided are systems, expression vectors, mammalian cells, and kits for practicing the subject methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods of quantitating extra-cellular vesicle surface markers are provided. Aspects of the methods include comparing: a mean fluorescence intensity of a surface marker of interest (surface marker MFI) of a labeled extra-cellular vesicle (EV) sample with a calibration plot obtained from a liposome calibration composition to quantitate the surface marker on extra-cellular vesicles of the EV sample. Also provided are compositions that find use in practicing embodiments of the invention.

Abstract: Drug-loaded microbead compositions include microbeads of a water-swellable polymer material and a complex of a carrier and a therapeutic agent chemically bonded to the carrier. The complex is embedded in the polymer material. Methods for preparing the drug-loaded microbead compositions and embolization compositions include loading a therapeutic agent into a water-swellable polymer material to form microbeads, then removing water from the microbeads. Additional drug-loaded microbead compositions include microbeads of a biodegradable material, vesicular agents, a first therapeutic agent associated with the vesicular agents, and a second therapeutic agent different from the first therapeutic agent. The vesicular agents include a lipid bilayer surrounding a vesicular core. The second therapeutic agent is contained within the microbeads or associated with the microbeads through ionic or non-covalent interaction and may or may not be associated with the vesicular agents.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Methods and devices for producing a population of liposomes are provided. Aspects of the methods include applying a centrifugal force to a suspension of liposomes in a manner sufficient to pass the liposomes through a porous membrane to produce a population of liposomes. Aspects of the invention further include devices, systems and kits useful for performing the methods.

Abstract: Chromophore compositions and methods of making and using the same are provided. Aspects of the chromophore compositions include a chromophore component having a chromophore, such as a fluorescent dye moiety, stably associated with a prosthetic group binding cavity of a metalloprotein. Also provided are methods of making, methods of use, systems and kits related to the subject fluorescent compositions.

Abstract: Chromophore compositions and methods of making and using the same are provided. Aspects of the chromophore compositions include a chromophore component having a chromophore, such as a fluorescent dye moiety, stably associated with a prosthetic group binding cavity of a metalloprotein. Also provided are methods of making, methods of use, systems and kits related to the subject fluorescent compositions.

Abstract: Chromophore compositions and methods of making and using the same are provided. Aspects of the chromophore compositions include a chromophore component having a chromophore, such as a fluorescent dye moiety, stably associated with a prosthetic group binding cavity of a metalloprotein. Also provided are methods of making, methods of use, systems and kits related to the subject fluorescent compositions.

Abstract: Chromophore compositions and methods of making and using the same are provided. Aspects of the chromophore compositions include a chromophore component having a chromophore, such as a fluorescent dye moiety, stably associated with a prosthetic group binding cavity of a metalloprotein. Also provided are methods of making, methods of use, systems and kits related to the subject fluorescent compositions.