Method for preparing a medical solution, comprising the steps of a) providing a solution comprising one or more acetylated or deacetylated amino sugar/sugars in at least one compartment of a container at a pH from 2.5 to 5.0, and b) terminal sterilization of said at least one compartment and the contents therein, is disclosed, as well as a solution used for preparing the medical solution, a container containing said solution, and use of said solution for the manufacture of a medicament for peritoneal dialysis.

The present disclosure provides methods for reducing bioburden on a tissue product, as well as the tissue products produced according to the disclosed methods. In particular, the disclosure relates to methods of electroporating tissue in the presence of one or more bactericides in order to reduce bioburden. The methods allow for reduced exposure to electrical energy and/or bactericide while reducing bioburden.

This invention provides a method of sterilising an S-nitrosothiol, for example S-nitrosoglutathione, without reduction of purity by more than about 5.0% through degradation. The invention allows sterile S-nitrosothiol or a sterile pharmaceutical pre-composition comprising S-nitrosothiol, wherein the S-nitrosothiol is in dry solid form, to be produced. The sterile pharmaceutical pre-composition is mixed with one or more diluents, excipients, carriers, additional active agents, or any combination thereof, for example sterile saline, to prepare a pharmaceutical composition of S-nitrosothiol for use.

The invention discloses a method for virus clearance of a cell culture medium, comprising the steps of: i) providing a bulk medium portion, comprising amino acids and glucose, and a first additive portion, comprising vitamins in aqueous solution; ii) subjecting the bulk medium portion to a high temperature short time treatment (HTST); iii) passing the first additive portion through a virus retentive filter or an ultrafilter; and iv) after steps ii) and iii), mixing the bulk medium portion with the first additive portion to obtain a cell culture medium.

A method of preparing a sterilized heart valve, the method comprising: compressing a compressible frame of a heart valve from an expanded configuration to a crimped configuration; the heart valve comprising the frame and a plurality of leaflets coupled to the frame; wherein each of the plurality of leaflets comprises a dry, unfixed, decellularized, antigen-free biological tissue that has been treated with a solution comprising a polyol or polyhydric alcohol; packaging the heart valve within a sealed packaging system while the heart valve is in the crimped configuration; and sterilizing the heart valve packaged within the sealed packaging system with one or more cycles of electron beam radiation.

Disclosed are methods for treating platelet compositions (e.g. platelet concentrates and/or platelet lysates) with electron beam radiation, where the compositions are in a frozen state during irradiation with the e-beam radiation. The methods can be conducted using e-beam radiation at doses effective to reduce the pathogen content of the compositions while retaining highly beneficial bioactivities of the compositions. Also disclosed are compositions preparable by the methods, and methods and compositions involving the use of the e-beam treated materials.

A container includes a first wall made of a polymeric material, a second wall made of a polymeric material, and a plurality of elongated baffles, spacers or seam lines formed between the first wall and the second wall to form a plurality of separate fluid flow paths. Each of the plurality of fluid flow paths are separated from the other fluid flow paths by at least one of the baffles, spacers or seam lines. Each of the plurality of fluid flow paths have a first end in fluid communication with an inlet and have a second end in fluid communication with an outlet.

The present disclosure relates to methods and systems for processing isolated mammalian tissue for use in surgical grafting, implantation, or transplantation procedures. The method employs electron beam sterilization, the collagen tissue is partially submerged in rHSA (Recombinant Human Serum Albumin), the tissue is stored in specially designed packaging, and the tissue is stored at ambient temperatures without requiring refrigeration. The terminal sterilization using electronic beams takes place in the special packaging. This inventive technology offers advantages including being biologically safe, maintaining tissue integrity while minimizing size, increasing scalability, increasing shelf life, increasing the amount of tissue usable for transplantation, and reducing of costs associated with processing and storing tissue for long periods of time.

The present disclosure is directed to a method of making a composition by combining a vehicle, e.g., a single phase vehicle, and an insoluble component comprising a beneficial agent, and sterilizing the composition using ionizing radiation prior to use, wherein the beneficial agent is stable following exposure to a sterilizing dose of ionizing radiation. Related compositions and methods are provided.

Methods are disclosed for conditioning a polymeric stent after sterilization, and/or after crimping and before packaging, such that the properties of the polymeric stent fall within a narrower range of values. The stent is exposed to a controlled temperature at or above ambient for a period of time after radiation sterilization and/or after crimping and before sterilization. As a result, the polymeric stent properties, particularly radial strength and number-average molecular weight of the polymer of the polymeric stent, fall within a narrower range.