A powder inhaler includes a casing having a mouthpiece and housing an inhalation channel connected to an opening of the mouthpiece, a container for storing a powdered medicament and placed in the casing, a cover engageable with the casing to close the mouthpiece. The cover includes a sealing element made of a material that is more deformable than a material of the mouthpiece such that, when the cover is engaged with the casing and closes the mouthpiece, a main portion of the sealing element is coupled to the opening to tight close the opening.

A drug product includes a multidose dry powder inhalation device. The device has a medicament chamber and a desiccant chamber adjacent to the medicament chamber, and a pharmaceutical composition therein. The pharmaceutical composition includes a pharmaceutically acceptable salt of tanimilast. The desiccant chamber is filled with molecular sieves.

A powder inhaler includes a casing having a mouthpiece, an inhalation channel, a container for a powdered medicament, and a metering device with a shuttle having a dosing recess. The shuttle is movable between a filling position, in which the dosing recess is in alignment with an opening of the container to be filled with a dose of the powdered medicament, and an inhalation position, in which the dosing recess is in alignment with the inhalation channel, for enabling inhalation of the dose of the powdered medicament contained in the dosing recess through the mouthpiece. A sealing device is operationally active at a coupling zone of the shuttle with the container when the shuttle is in the filling position, the coupling zone circumscribing the dosing recess and the opening.

A drug product includes a multidose dry powder inhalation device. The device has a medicament chamber and a desiccant chamber adjacent to the medicament chamber, and a pharmaceutical composition therein. The pharmaceutical composition includes a pharmaceutically acceptable salt of formoterol, optionally in combination with a pharmaceutically acceptable salt of glycopyrronium and/or beclomethasone dipropionate. The desiccant chamber is filled with molecular sieves.

A system for collecting an anaesthetic agent, having at least one anaesthetic gas scavenging system (AGSS) for receiving exhaust gas from a plurality of sources, the exhaust gas including the anaesthetic agent to be collected, each AGSS comprising at least one power source for providing suction of the exhaust gas from the plurality of sources under negative pressure, and a central collection system for receiving the exhaust gas, the central collection system comprising at least one collector for collecting the anaesthetic agent from the exhaust gas, wherein the at least one collector is configured to adsorb the anaesthetic agent from the exhaust gas. The central collection system may be configured to received the exhaust gases from the at least one AGSS, with the central collection system being located downstream of the at least one AGSS.

A device for processing a biological material is disclosed. The device includes a syringe barrel comprising beads, a filter positioned at a close end of the barrel, a plunger insertable into the barrel through an open end, and a needle. The plunger includes a paddle assembly that is configured to mix a biological material with the beads after the biological material has been harvested from a patient.

A system for collecting an anaesthetic agent, having at least one anaesthetic gas scavenging system (AGSS) for receiving exhaust gas from a plurality of sources, the exhaust gas including the anaesthetic agent to be collected, each AGSS comprising at least one power source for providing suction of the exhaust gas from the plurality of sources under negative pressure, and a central collection system for receiving the exhaust gas, the central collection system comprising at least one collector for collecting the anaesthetic agent from the exhaust gas, wherein the at least one collector is configured to adsorb the anaesthetic agent from the exhaust gas. The central collection system may be configured to received the exhaust gases from the at least one AGSS, with the central collection system being located downstream of the at least one AGSS.