The present invention relates, in some embodiments thereof, to systems, device and methods for establishing a contaminant-free fluid passageway between vessels. In some embodiments of the invention, the systems and devices of the invention include a first connection interface configured to be coupled to a first vessel, and a second connection interface configured to be coupled to a second vessel, the first and second connection interfaces configured to engage with each other and entrap contaminants, the first connection interface and the second connection interface, following the engagement, are configured to internally displace within the first vessel or the second vessel, while allowing for a contaminant-free fluid passageway and hermetically sealed engagement of the vessels.

The present invention relates, in some embodiments thereof, to systems, device and methods for establishing a contaminant-free fluid passageway between vessels. In some embodiments of the invention, the systems and devices of the invention include a first connection interface configured to be coupled to a first vessel, and a second connection interface configured to be coupled to a second vessel, the first and second connection interfaces configured to engage with each other and entrap contaminants, the first connection interface and the second connection interface, following the engagement, are configured to internally displace within the first vessel or the second vessel, while allowing for a contaminant-free fluid passageway and hermetically sealed engagement of the vessels.

The present invention relates, in some embodiments thereof, to systems, device and methods for establishing a contaminant-free fluid passageway between vessels. In some embodiments of the invention, the systems and devices of the invention include a first connection interface configured to be coupled to a first vessel, and a second connection interface configured to be coupled to a second vessel, the first and second connection interfaces configured to engage with each other and entrap contaminants, the first connection interface and the second connection interface, following the engagement, are configured to internally displace within the first vessel or the second vessel, while allowing for a contaminant-free fluid passageway and hermetically sealed engagement of the vessels.

The present invention relates, in some embodiments thereof, to systems, device and methods for establishing a contaminant-free fluid passageway between vessels. In some embodiments of the invention, the systems and devices of the invention include a first connection interface configured to be coupled to a first vessel, and a second connection interface configured to be coupled to a second vessel, the first and second connection interfaces configured to engage with each other and entrap contaminants, the first connection interface and the second connection interface, following the engagement, are configured to internally displace within the first vessel or the second vessel, while allowing for a contaminant-free fluid passageway and hermetically sealed engagement of the vessels.

The present invention relates, in some embodiments thereof, to systems, devices and methods allowing for an engagement of two or more vessels or devices in a decontaminated manner. In some embodiments of the invention, the systems and devices of the invention include a first connection interface attached to a first vessel and a second connection interface attached to a second vessel, wherein the first connection interface and the second connection interface are configured to allow for an engagement between the first vessel and the second vessel, and wherein the first and second connection interfaces are further configured to externally displace from the engagement between the first vessel and the second vessel while a hermetically sealed connection is maintained between the first vessel and the second vessel.

The present invention relates, in some embodiments thereof, to systems, devices and methods allowing for an engagement of two or more vessels or devices in a decontaminated manner. In some embodiments of the invention, the systems and devices of the invention include a first connection interface attached to a first vessel and a second connection interface attached to a second vessel, wherein the first connection interface and the second connection interface are configured to allow for an engagement between the first vessel and the second vessel, and wherein the first and second connection interfaces are further configured to externally displace from the engagement between the first vessel and the second vessel while a hermetically sealed connection is maintained between the first vessel and the second vessel.

The present invention relates, in some embodiments thereof, to systems, devices and methods allowing for an engagement of two or more vessels or devices in a decontaminated manner. In some embodiments of the invention, the systems and devices of the invention include a first connection interface attached to a first vessel and a second connection interface attached to a second vessel, wherein the first connection interface and the second connection interface are configured to allow for an engagement between the first vessel and the second vessel, and wherein the first and second connection interfaces are further configured to externally displace from the engagement between the first vessel and the second vessel while a hermetically sealed connection is maintained between the first vessel and the second vessel.

The present invention relates, in some embodiments thereof, to systems, devices and methods allowing for an engagement of two or more vessels or devices in a decontaminated manner. In some embodiments of the invention, the systems and devices of the invention include a first connection interface attached to a first vessel and a second connection interface attached to a second vessel, wherein the first connection interface and the second connection interface are configured to allow for an engagement between the first vessel and the second vessel, and wherein the first and second connection interfaces are further configured to externally displace from the engagement between the first vessel and the second vessel while a hermetically sealed connection is maintained between the first vessel and the second vessel.

A container (10) comprising a plurality of compartments (A, B, C) separated by compartment dividers (6), and an inlet connector (3) for receiving a liquid via a connection tube (2). The compartment dividers rupture when a sufficient pressure is applied by a liquid or gas introduced into the container (10) through the inlet connector (3). Some of the compartments comprise powder, which dissolves at the introduction of liquid into the container. A system, process and use in the field of dialysis are also disclosed.

A multi-cell container includes a bag of substantially flat shape made of flexible film, a partition wall as a separable seal welding opposite inner surfaces of the bag and dividing an inner space of the bag into a plurality of compartments and an inlet-outlet port located at a periphery of the bag so as to be opened to one of the plurality of compartments for introduction and/or discharge of liquid. The partition wall has a horizontal section extending in a direction along the bottom of the bag and a vertical section bent therefrom and extending to the topside of the bag. A first larger volume compartment is formed on one side of the partition wall adjacent the bag bottom and a second smaller volume compartment is formed on the other side of the partition wall. The inlet-outlet port is opened to the first chamber.