A surgical access device includes a housing, a tubular member extending from the housing, a valve disposed on the housing, and a tip member at a distal end of the tubular member. The housing includes a seal and the tubular member includes a plurality of lumens extending therethrough. The valve is fluidly coupled with a first lumen of the plurality of lumens and the tip member includes a first port that is aligned and fluidly coupled with the first lumen of the plurality of lumens. The first port is configured to direct a fluid towards a predetermined location.

A surgical access device includes a housing, a tubular member extending from the housing, a valve disposed on the housing, and a tip member at a distal end of the tubular member. The housing includes a seal and the tubular member includes a plurality of lumens extending therethrough. The valve is fluidly coupled with a first lumen of the plurality of lumens and the tip member includes a first port that is aligned and fluidly coupled with the first lumen of the plurality of lumens. The first port is configured to direct a fluid towards a predetermined location.

Disclosed is a transport system for handling a plurality of different types of containers for medical equipment in a sterile processing department, the system comprises: a plurality of containers of a first type and a plurality of containers of a second type; conveyor stations for the plurality of containers, the conveyor stations being configured to transport the first type of containers and/or the second type of containers relative to the conveyor station; and a transport tray for supporting the first type of containers and the second type of containers, the transport tray having a set of securing elements configured to releasably secure the first type of containers to the transport tray and the second type of containers to the transport tray. The conveyor station is configured to transport the first type of containers and/or the second type of containers secured to the transport tray.

A face mask having mechanical, chemical, and electrostatic barriers to the movement of a material into and out of a face mask are described herein. Various examples of the face mask described herein use electrostatic charges to capture and, in some examples, inactivate viruses, germs, fungi, or bacteria (or other material). The use of a biocidal agent combined with electrostatic charges provides an additional measure for capturing and inactivating at least a portion of pathogen(ic) microorganisms.

A portable sports rack and delivery system including an elongate rack enclosure, and a method of use thereof are provided. The elongate rack enclosure defines a storage space for accommodating balls stacked one above the other. A delivery opening, disposed at a first end of the elongate rack enclosure, receives, accommodates, and delivers an uppermost ball from the storage space. A base member, attached to a second end of the elongate rack enclosure, supports the stacked balls within the storage space. A release component including a compression spring, disposed on an upper surface of the base member, elastically compresses and expands to elevate and release the uppermost ball from the storage space for delivery through the delivery opening. A training component, operably and adjustably coupled to a rear section of the elongate rack enclosure, extends above the first end of the elongate rack enclosure to assist in training a sportsperson.

A portable sports rack and delivery system including an elongate rack enclosure, and a method of use thereof are provided. The elongate rack enclosure defines a storage space for accommodating balls stacked one above the other. A delivery opening, disposed at a first end of the elongate rack enclosure, receives, accommodates, and delivers an uppermost ball from the storage space. A base member, attached to a second end of the elongate rack enclosure, supports the stacked balls within the storage space. A release component including a compression spring, disposed on an upper surface of the base member, elastically compresses and expands to elevate and release the uppermost ball from the storage space for delivery through the delivery opening. A training component, operably and adjustably coupled to a rear section of the elongate rack enclosure, extends above the first end of the elongate rack enclosure to assist in training a sportsperson.

A controlled environment enclosure comprises a robotic arm manipulation system used to protect and unprotect a fluid path and a swab within the controlled environment enclosure. The apparatus allows the fluid path to be protected against dangerous decontamination vapors and chemicals before the controlled environment enclosure is decontaminated. The apparatus allows the fluid path to be unprotected without the use of gloves or other means that degrade the integrity of the controlled environment enclosure when decontamination is completed. The apparatus and method allow for the protecting, unprotecting and decontaminating sequences to be automated. In some embodiments the fluid path comprises a fill needle that can removably and aseptically be sealed with a disposable monolithic injection moulded polymeric fill needle sheath. The apparatus and method further allow for the use of a swab disposed in a swab holder that is aseptically and removably sealable to a swab cap to protect the swab against decontamination vapors.

A controlled environment enclosure comprises a robotic arm manipulation system used to protect and unprotect a fluid path and a swab within the controlled environment enclosure. The apparatus allows the fluid path to be protected against dangerous decontamination vapors and chemicals before the controlled environment enclosure is decontaminated. The apparatus allows the fluid path to be unprotected without the use of gloves or other means that degrade the integrity of the controlled environment enclosure when decontamination is completed. The apparatus and method allow for the protecting, unprotecting and decontaminating sequences to be automated. In some embodiments the fluid path comprises a fill needle that can removably and aseptically be sealed with a disposable monolithic injection moulded polymeric fill needle sheath. The apparatus and method further allow for the use of a swab disposed in a swab holder that is aseptically and removably sealable to a swab cap to protect the swab against decontamination vapors.

A method and a system for producing a change in a medium disposed in an artificial container. The method places in a vicinity of the medium at least one of a plasmonics agent and an energy modulation agent. The method applies an initiation energy through the artificial container to the medium. The initiation energy interacts with the plasmonics agent or the energy modulation agent to directly or indirectly produce the change in the medium. The system includes an initiation energy source configured to apply an initiation energy to the medium to activate the plasmonics agent or the energy modulation agent.

A method and a system for producing a change in a medium disposed in an artificial container. The method places in a vicinity of the medium at least one of a plasmonics agent and an energy modulation agent. The method applies an initiation energy through the artificial container to the medium. The initiation energy interacts with the plasmonics agent or the energy modulation agent to directly or indirectly produce the change in the medium. The system includes an initiation energy source configured to apply an initiation energy to the medium to activate the plasmonics agent or the energy modulation agent.