A device for automatically disinfecting a portion of a medical implement. The device includes a reservoir chamber having a top external opening, a medical implement protruded through a bottom part of the reservoir chamber with the portion to be disinfected exposed inside the reservoir chamber and below the top external opening, two disinfecting pads, and a resilient device. Each disinfecting pad is connected to the reservoir chamber through a mounting member, which permits displacement of the disinfecting pads relative to the reservoir chamber in substantially opposite directions thereby creating a gap between each pad and the portion to be disinfected. The resilient device biases the disinfecting pads such that when the disinfecting pads are displaced from a rest position, wherein they are contacting the portion to be disinfected, to an engaged position, the disinfecting pads are urged to return toward the portion to be disinfected to contact and disinfect the portion.

A device for automatically disinfecting a portion of a medical implement. The device includes a reservoir chamber having a top external opening, a medical implement protruded through a bottom part of the reservoir chamber with the portion to be disinfected exposed inside the reservoir chamber and below the top external opening, two disinfecting pads, and a resilient device. Each disinfecting pad is connected to the reservoir chamber through a mounting member, which permits displacement of the disinfecting pads relative to the reservoir chamber in substantially opposite directions thereby creating a gap between each pad and the portion to be disinfected. The resilient device biases the disinfecting pads such that when the disinfecting pads are displaced from a rest position, wherein they are contacting the portion to be disinfected, to an engaged position, the disinfecting pads are urged to return toward the portion to be disinfected to contact and disinfect the portion.

A disinfectant appliance has a plurality of chlorite absorbent particles, a plurality of redox resin particles, and at least one absorbent material combined such that the absorbent material allows and can promote: infusion of water into the disinfectant appliance; release of the chlorite from the chlorite absorbent particles into the water to form a chlorite comprising solution; contacting of the chlorite comprising solution with the redox resin particles; and the expulsion of ClO.sub.2 comprising solution from the disinfectant appliance onto a surface to be disinfected. The disinfectant appliance can include a storage section and can include a handle. The disinfectant appliance can be in the form of a wipe or sponge that can be contacted with a surface suspected of being infected.

A disinfectant appliance has a plurality of chlorite absorbent particles, a plurality of redox resin particles, and at least one absorbent material combined such that the absorbent material allows and can promote: infusion of water into the disinfectant appliance; release of the chlorite from the chlorite absorbent particles into the water to form a chlorite comprising solution; contacting of the chlorite comprising solution with the redox resin particles; and the expulsion of ClO.sub.2 comprising solution from the disinfectant appliance onto a surface to be disinfected. The disinfectant appliance can include a storage section and can include a handle. The disinfectant appliance can be in the form of a wipe or sponge that can be contacted with a surface suspected of being infected.

This disclosure provides generally for antimicrobial compositions and methods of use comprising an anthocyanin, an anthocyanidin or metabolites thereof. Methods for promoting healing of a wound using these compositions are also disclosed. These compositions have broad spectrum antimicrobial activity and are safe for human and animal uses. Further, these compositions are safe for medical uses and industrial uses as antiseptic preparations to reduce or prevent microbial growth, including killing bacterial biofilms.

An integrated reed protection and storage system is provided. The system includes a controlled solution container. The system also includes a sponge material positionable within the container. Further, the system includes at least one reed holder positionable around the sponge material. Additionally, the system includes at least one reed, the at least one reed positionable on the at least one reed holder. The at least one reed is configured to contact a surface of the sponge material.

A device for automatically disinfecting a portion of a medical implement. The device includes a reservoir chamber having a top external opening, a medical implement protruded through a bottom part of the reservoir chamber with the portion to be disinfected exposed inside the reservoir chamber and below the top external opening, two disinfecting pads, and a resilient device. Each disinfecting pad is connected to the reservoir chamber through a mounting member, which permits displacement of the disinfecting pads relative to the reservoir chamber in substantially opposite directions thereby creating a gap between each pad and the portion to be disinfected. The resilient device biases the disinfecting pads such that when the disinfecting pads are displaced from a rest position, wherein they are contacting the portion to be disinfected, to an engaged position, the disinfecting pads are urged to return toward the portion to be disinfected to contact and disinfect the portion.

The present disclosure generally relates to systems for disinfecting Central Venous Catheter (CVC) system ports that use highly-abrasive and highly-conforming foam material in place of wipes or other sponge products, and methods for using such systems. The foam material may be an open-cell microabrasive material such as melamine foam. The foam material may contain disinfecting solutions such as isopropyl alcohol, chlorhexidine gluconate, or povidone-iodine.

The present disclosure generally relates to systems for disinfecting Central Venous Catheter (CVC) system ports that use highly-abrasive and highly-conforming foam material in place of wipes or other sponge products, and methods for using such systems. The foam material may be an open-cell microabrasive material such as melamine foam. The foam material may contain disinfecting solutions such as isopropyl alcohol, chlorhexidine gluconate, or povidone-iodine.

A capping device for disinfection of a medical container is provided. The capping device includes a top portion having an inner surface, a bottom portion having an inner surface and an opening, and a connector. The connector couples the top portion of the capping device to the bottom portion thereof in a manner which permits movement of the top portion between a fully-seated position on the bottom portion of the capping device to form a hollow defined by the inner surface of the top portion of the capping device and the inner surface of the bottom portion thereof, and a position apart from the opening to permit ingress to the vial. The capping device further includes a disinfecting absorbent material disposed inside the hollow and extending through the opening in the inner surface of the bottom portion.