A sterilization method for a medical rubber part in which non-elution characteristics can be maintained even after sterilization with gamma ray. The sterilization method for a medical rubber part can include irradiating, with gamma ray, a packaging article for a medical rubber part made from an elastomer that contains a polyethylene, the packaging article accommodating a plurality of the medical rubber parts.

The invention relates to a thermoplastic composition comprising A) aromatic polycarbonate, B) 0.1 to 5 wt.-% one or more polyether polyols and C) 0.01 to 0.30 wt.-% 3,3′-thiodipropionic acid. The invention also relates to medical technology products or parts of medical technology products consisting of such compositions as well as to a process for sterilization of such moulded parts by means of irradiation. The polycarbonate compositions according to the invention show significantly less yellowing after irradiation than known compositions and still have good mechanical properties.

A method of making a ready-to-use catheter assembly is provided, which can be immediately used by a patient. The ready-to-use catheter assembly ensures that the catheter does not suffer from a loss of quality during its shelf life and a wetting medium are provided. The method comprises: placing a catheter with an inactivated hydrophilic outer surface at least along its insertable length and a wetting medium in a catheter package; treating the catheter package with the catheter and the wetting medium with electro-magnetic and/or particle radiation while at least initially the hydrophilic outer surface at least along the insertable length of the catheter remains inactivated; and activating the hydrophilic outer surface at least along the insertable length of the catheter with the wetting medium during and/or after the radiation treatment and wherein the wetting medium decreases in viscosity when submitted to electro-magnetic and/or particle radiation.

A barrier layer and corresponding method of making provide anti-inflammatory, non-inflammatory, and anti-adhesion functionality for a medical device implantable in a patient. The barrier layer can be combined with a medical device structure to provide anti-adhesion characteristics, in addition to improved healing, non-inflammatory, and anti-inflammatory response. The barrier layer is generally formed of a naturally occurring oil, or an oil composition formed in part of a naturally occurring oil, that is at least partially cured forming a cross-linked gel. In addition, the oil composition can include a therapeutic agent component, such as a drug or other bioactive agent.

An electron beam sterilization unit for processing food packaging material, the unit having a frame; at least one electron beam emitter fitted to the frame, along the path of the material for processing, and having a flange for connection to the frame; and a locking device, which is fitted to the frame, and has thrust devices for exerting a lock force on the flange in a given first direction, and for locking the emitter, with respect to the frame, in a given work position, and actuating devices for activating the thrust devices and which are defined by toggle devices.

Method for producing a sterilized foam web, wherein the method comprising the steps of preparing a wet foam (1),feeding the wet foam (1) to a head box (2, 11),distributing the wet foam by the head box (2, 11),treating the wet foam (1) with electron beam radiation (3a, 3b, 3c) to immobilize and sterilize the wet foam (1),receiving the electron beam treated foam on a moving wire (4) to form a foam web (6, 13), pressing and the foam web (6, 13),and drying the foam web (6, 13).

An aseptic filling machine capable of performing molding and filling at the same time that has a compact facility size, requires a reduced initial investment, requires a reduced running cost because of its simplified process, and ensures an aseptic condition with reliability, and an aseptic filling method therefor. An aseptic filling machine includes a pre-heating sterilizing portion that sterilizes a preform, a heating portion that heats the sterilized preform, a molding and filling portion that fills the heated preform with a sterilized content under high pressure, thereby molding the preform into a bottle and at the same time filling the preform with the content, and a sealing portion that seals the bottle filled with the content. Before the aseptic filling machine starts operating, each portion is sterilized. During operation of the aseptic filling machine, aseptic air is supplied to each portion to maintain the aseptic condition.

A malleable demineralized bone composition consists of cortical bone made from a first portion and a second portion. The first portion and second portion of cortical bone is made from cut pieces freeze dried then ground into particles and demineralized then freeze-dried. A volume of the second portion is placed in a solution of sterile water to create a mixture, the water volume being seven times the volume of the second portion, the mixture is autoclaved under heat and pressure to form a gelatin, and the first portion is mixed with the gelatin to form a malleable putty or paste.

An electron beam sterilization device (1) for thin-walled containers (C) is fitted with an input (40) or output unit (60) provided with a swivelling body to bring a set of containers (C) from the outside environment into the sterilization chamber or vice versa, avoiding radioactive emissions from the sterilization chamber.

A sterilization device has a rod-like body which is capable of being introduced through an aperture into an interior space of containers and which acts upon an inner wall of the containers with radiation. A lifting cam produces a movement in a longitudinal direction, of the containers between the containers and the sterilization device in such a way that the containers are capable of being guided over the rod-like body. A movement device is provided which is capable of producing a relative movement in the longitudinal direction of the containers between the rod-like body and the lifting cam and of altering a relative distance between the lifting cam and the rod-like body.