Devices, methods and systems are provided for isolating extracellular matrix bodies. More particularly, this invention discloses devices, methods and systems for isolating extracellular matrix bodies from a biological sample for use in diagnosis and prognosis of a subject. A device may have restriction channels for isolating extracellular matrix bodies and uniform flow channels for precise pressure measurements.

To provide a transdermal drug delivery patch that can be suitably used for an immediate release application of a pharmaceutical with a comparatively low molecular weight. A transdermal drug delivery patch, provided with a matrix and at least one drug disposed within the matrix, wherein the matrix has a water holding capacity of 10 mg/cm.sup.2 or less, and the drug is a pharmaceutical having a molecular weight of 5000 or less.

This invention relates to a method for repair and reconstitution of invertebral discs in a subject which involves administration of STRO-1′ multipotent cells. The method of the invention is useful in the treatment of spinal conditions characterized by degeneration of the invertebral disc.

This invention relates to a method for repair and reconstitution of invertebral discs in a subject which involves administration of STRO-1′ multipotent cells. The method of the invention is useful in the treatment of spinal conditions characterized by degeneration of the invertebral disc.

Provided herein are oronasal formulations including a cannabinoid and N-L-alpha -asparty-L-phenylalamine 1-methyl ester (APM). Also provided are methods of using the formulations.

Concentrated, low-viscosity, low-volume liquid pharmaceutical formulations of polysaccharides and nucleic acids have been developed. Such formulations can be rapidly and conveniently administered by subcutaneous or intramuscular injection, rather than by lengthy intravenous infusion. These formulations include low-molecular-weight and/or high-molecular-weight polysaccharides and nucleic acids, and viscosity-lowering agents.

Concentrated, low-viscosity, low-volume liquid pharmaceutical formulations of polysaccharides and nucleic acids have been developed. Such formulations can be rapidly and conveniently administered by subcutaneous or intramuscular injection, rather than by lengthy intravenous infusion. These formulations include low-molecular-weight and/or high-molecular-weight polysaccharides and nucleic acids, and viscosity-lowering agents.

The present invention includes methods for preparing anticoagulant polysaccharides using several non-naturally occurring, engineered sulfotransferase enzymes that are designed to react with aryl sulfate compounds instead of the natural substrate, PAPS, to facilitate sulfo group transfer to polysaccharide sulfo group acceptors. Suitable aryl sulfate compounds include, but are not limited to, p-nitrophenyl sulfate or 4-nitrocatechol sulfate. Anticoagulant polysaccharides produced by methods of the present invention comprise N-, 3-O-, 6-O-sulfated glucosamine residues and 2-O sulfated hexuronic acid residues, have comparable anticoagulant activity compared to commercially-available anticoagulant polysaccharides, and can be utilized to form truncated anticoagulant polysaccharides having a reduced molecular weight.

The present invention includes methods for preparing anticoagulant polysaccharides using several non-naturally occurring, engineered sulfotransferase enzymes that are designed to react with aryl sulfate compounds instead of the natural substrate, PAPS, to facilitate sulfo group transfer to polysaccharide sulfo group acceptors. Suitable aryl sulfate compounds include, but are not limited to, p-nitrophenyl sulfate or 4-nitrocatechol sulfate. Anticoagulant polysaccharides produced by methods of the present invention comprise N-, 3-O-, 6-O-sulfated glucosamine residues and 2-O sulfated hexuronic acid residues, have comparable anticoagulant activity compared to commercially-available anticoagulant polysaccharides, and can be utilized to form truncated anticoagulant polysaccharides having a reduced molecular weight.

A method for producing at least one microneedle containing a vaccine for transdermal delivery of the vaccine to a patient includes preparing microparticles or nanoparticles of encapsulated vaccine by preparing a solution comprising a vaccine antigen and a biocompatible polymer matrix; and spray drying the solution to form the microparticles or nanoparticles. The method includes the further steps of preparing a film composition including at least one pre-polymer solution; preparing a suspension comprising the microparticles or nanoparticles and the film composition; loading the suspension into a 3D printer; printing, via the 3D printer, at least one microneedle made from the suspension; and, converting the pre-polymer solution into a cross-linked biopolymer by exposing the at least one microneedle to UV light. Also disclosed are microneedles containing a vaccine for transdermal delivery.