A shielding bag gripping apparatus includes a first suction part extending in a first direction, a second suction part extending in the first direction and spaced apart from the first suction part in a second direction crossing the first direction, a first compression part below the first suction part, and a second compression part below the second suction part. The first suction part may include a first suction surface having a normal line parallel to the second direction, a first suction hole exposed by the first suction surface and a first placement hole vertically penetrating the first suction part, and the second suction part may include a second suction surface facing the first suction surface and a second suction hole exposed by the second suction surface.

A sterilization method includes irradiating flexible bags, in particular, bags of the type that can contain solutions of human plasma proteins for therapeutic use. The sterilization method includes electron beam irradiation. An in-line method for filling flexible bags of the type that can contain solutions of human plasma proteins for therapeutic use can use the sterilization method.

A prepackaged injectable pharmaceutical composition includes a sealed outer package made of a material having a low oxygen transmission rate and an inner package disposed within the sealed outer package. The inner package is configured to provide an indication that the inner package has been opened after being closed. A prefilled syringe is disposed within the inner package. The syringe includes a barrel comprising a polymeric material and a dose of the injectable pharmaceutical composition.

A prepackaged injectable pharmaceutical composition includes a sealed outer package made of a material having a low oxygen transmission rate and an inner package disposed within the sealed outer package. The inner package is configured to provide an indication that the inner package has been opened after being closed. A prefilled syringe is disposed within the inner package. The syringe includes a barrel comprising a polymeric material and a dose of the injectable pharmaceutical composition.

A system and method for conveying a sterilizing fluid to a filling machine includes a refilling tank for containing the sterilizing fluid and from which the sterilizing fluid is drawn, a spray tank fluidly connected to the refilling tank for receiving the sterilizing fluid from the refilling tank and conveying the sterilizing fluid to the filling machine, and a fluid line connecting the refilling tank to the spray tank. A vacuum generator is fluidly connected to the spray tank via a vacuum line and configured to generate a vacuum in the spray tank, such that the vacuum causes sterilizing fluid to be drawn from the refilling tank and into the spray tank.

Methods, apparatuses and systems for sealed dimpled film packages. A vacuum box having apertures, a dimpled bottom film sheet is placed on the base plate and an item to be packaged can be placed on the bottom dimpled film sheet. A top film sheet in a clamp frame is heated to a processing temperature and lowered towards the item and dimpled bottom film sheet. Vacuum suction causes sealing of the clamped top film sheet against the package from the base to the perimeter extending at an angle more than 5 degrees. The top film sheet is pulled down using the vacuum suction into contact with the dimpled film sheet from the base perimeter on the dimpled film sheet outward toward the perimeter of the dimpled film sheet forming a seal.

Method and system for storing and/or transporting temperature-sensitive materials. In one embodiment, the system is designed to keep a payload within a desired temperature range of +2° C. to +8° C. for an extended time in a warm ambient environment. The system includes a thermally insulated container and first and second phase-change materials, each of the phase-change materials having a different solid/liquid phase-change temperature. Both phase-change materials are preconditioned to a solid state for pack-out. The first phase-change material has a solid/liquid phase-change temperature that is within the desired temperature range and that is at or below a hibernation temperature of about +5° C. to +6° C. The second phase-change material has a solid/liquid phase-change temperature that is above the hibernation temperature. When placed in the warm ambient environment, both phase-change materials move towards melting; however, when subsequently placed in hibernation, the second phase-change material reverses the direction of its phase change, becoming recharged.

Method and system for storing and/or transporting temperature-sensitive materials. In one embodiment, the system is designed to keep a payload within a desired temperature range of +2° C. to +8° C. for an extended time in a warm ambient environment. The system includes a thermally insulated container and first and second phase-change materials, each of the phase-change materials having a different solid/liquid phase-change temperature. Both phase-change materials are preconditioned to a solid state for pack-out. The first phase-change material has a solid/liquid phase-change temperature that is within the desired temperature range and that is at or below a hibernation temperature of about +5° C. to +6° C. The second phase-change material has a solid/liquid phase-change temperature that is above the hibernation temperature. When placed in the warm ambient environment, both phase-change materials move towards melting; however, when subsequently placed in hibernation, the second phase-change material reverses the direction of its phase change, becoming recharged.

Provided are a building board package suitable to suppress generation of a gloss that could be caused as a result of pressing a coating film on the surface of a building board, and a method for manufacturing the building board package. A building board package X1 according to the present invention includes a first building board 10, and a packing sheet 20 stacked on top of the first building board 10. The first building board 10 has a first surface 11 on the packing sheet 20 side, and a second surface 12 opposite the first surface 11. The first surface 11 includes a first coating film surface 11A. The packing sheet 20 has a third surface 21 on the first building board 10 side, and a fourth surface 22 opposite the third surface 21. The third surface 21 is in contact with the first coating film surface 11A. An absolute value of a difference between a 60-degree gloss value of the first coating film surface 11A and a 60-degree gloss value of the third surface 21 is 3.0 or less, and an absolute value of a difference between an 85-degree gloss value of the first coating film surface 11A and an 85-degree gloss value of the third surface 21 is 3.0 or less. A method for manufacturing a building board package according to the present invention includes the step of stacking the first building board 10 and the packing sheet 20 on top of each other such that the first coating film surface 11A and the third surface 21 are in contact with each other.

Provided are a building board package suitable to suppress generation of a gloss that could be caused as a result of pressing a coating film on the surface of a building board, and a method for manufacturing the building board package. A building board package X1 according to the present invention includes a first building board 10, and a packing sheet 20 stacked on top of the first building board 10. The first building board 10 has a first surface 11 on the packing sheet 20 side, and a second surface 12 opposite the first surface 11. The first surface 11 includes a first coating film surface 11A. The packing sheet 20 has a third surface 21 on the first building board 10 side, and a fourth surface 22 opposite the third surface 21. The third surface 21 is in contact with the first coating film surface 11A. An absolute value of a difference between a 60-degree gloss value of the first coating film surface 11A and a 60-degree gloss value of the third surface 21 is 3.0 or less, and an absolute value of a difference between an 85-degree gloss value of the first coating film surface 11A and an 85-degree gloss value of the third surface 21 is 3.0 or less. A method for manufacturing a building board package according to the present invention includes the step of stacking the first building board 10 and the packing sheet 20 on top of each other such that the first coating film surface 11A and the third surface 21 are in contact with each other.