Abstract: Antimicrobial devices for use with at least a portion of a medical device include at least one flexible portion configured to secure the antimicrobial device to the at least a portion of the medical device. Medical device assemblies include an access port and an antimicrobial device adapted to disinfect at least a portion of the access port. Methods of disinfecting a portion of a device include deforming a housing of the antimicrobial device to couple the antimicrobial device to the portion of the device.

Abstract: Devices for dispensing an air treatment chemical such as insect repellent are disclosed. There is a chimney housing having a side wall defining an internal cavity. There is also a caddy assembly supported by the housing and having an upper caddy frame configured to mount a substrate bearing an air treatment chemical adjacent an upper portion of the housing, and a candle holder coupled to the upper caddy frame and configured to support a candle having a wick adjacent a lower portion of the housing. There is also a substrate bearing air treatment chemical suitable to be supported by the upper caddy frame, and a candle suitable to be supported by the candle holder. A refill kit for such devices is also disclosed. Also disclosed is an embodiment with a sand core bearing the repellent, a heat deflector positioned under the sand core, and a candle positioned under the heat deflector.

Abstract: The present invention is an improved method for decontamination of a space and an integrated device that completes the decontamination cycle extremely fast while still being compact, lightweight, simple to operate and easy to move as a single unit. The method of the present invention delivers less biocide than is used in prior art methods at a very high rate of flux, allows the biocide to reside in the space being decontaminated to achieve a predetermined kill level, and then aerates the space. Because a nominal amount of biocide is used, there is less biocide to remove from the space than in prior art methods thereby reducing the time required for aeration and shortening the downtime for safe entry of the facility.

Abstract: A mobile disinfector using UV LEDs can include: a case forming an exterior structure of the disinfector; a cover including two parts coupled to respective sides of the case and including openings formed on the cover; and LED units exposed to outside through the openings formed on the cover. Since the cover is coupled to the case such that an angle between the cover and the case is adjusted, an irradiation angle of light emitted to the outside from the LED units is controlled.

Abstract: Disclosed are apparatuses, systems, and methods for performing electroporation.

Abstract: According to the present invention, a problem of closed systems, namely minimizing the number of electromagnetic valves required to control a plurality of flow paths, can be addressed, and thus a low-cost cell culture device can be achieved. In this flow-path control method for X number of flow paths satisfying X?2N, the X number of flow paths are selected by using N number of valves to simultaneously and selectively control the opening and closing of the plurality of flow paths.

Abstract: The present invention relates to a disinfecting composition which requires a shorter contact time to be effective than similar compositions. Also, provided is a method of disinfecting a surface with the disinfecting composition where a shorter contact time is needed to disinfect the surface.

Abstract: Provided is a device for seeding cells in a plurality of cell arrangement areas in a simple manner and a short period of time. A seeding and culturing device (1) for cells capable of forming a nerve network, the device comprising a cell-culturing substrate (2) having a plurality of cell arrangement areas (8) enclosed by a plurality of projecting parts, and a flow channel substrate (3) arranged on the cell-cultivating substrate (2) and having a plurality of through-holes (14), wherein the through-holes (14) are configured so as to provide flow channels in which the upper surface side of the substrate is an entrance (15) and the lower surface side of the substrate is an exit, and the exit (16) of the flow channels is positioned above any of the cell arrangement areas.

Abstract: The present invention relates to a method and device for illuminating and at the same time purifying or disinfecting products such as air, flowers, food, vegetables, meat, poultry or fish. The method comprises the use of IR emitting LED elements.

Abstract: A process and apparatus for disinfection of spaces using a disinfecting liquid droplet spray atomization are described, in which an electric fan 107 is used to dispense the atomization from an atomization chamber 104 via venture outlets 106 into the space to be disinfected. The operation of the electric fan 107 is modulated in a substantially random sequence to vary the rate of dispensing into the space in order to improve the dispersal of the atomized droplets in the space and hence the efficacy of disinfection.

Abstract: The invention relates in various embodiments to a composite useful as e.g. a medical implant device, and a method of treating fouling, including biofouling as may occur on an implant. The composite comprises a matrix phase and a patterned phase that comprises an energetically activatable wire intermixed with the matrix phase, the wire when energetically activated, which includes thermal activation, causes modification of at least a portion of the matrix phase to treat fouling that might otherwise occur. The method of treating biofouling may be practiced on a patent while the medical implant of the invention is in situ.

Abstract: An apparatus, system and method providing a fluid flow suitable to grow and maintain living cells in the fluid flow are disclosed. The apparatus includes a fluid displacement apparatus capable of providing at least one of positive and negative displacement of the fluid and configured to indirectly displace the fluid, an in-line flow sensor configured to directly measure the fluid flow, and a feed-back control in communication with the fluid displacement apparatus and the in-line flow sensor, wherein the feed-back control is configured to continuously control the fluid flow in response to the flow sensor measurements.

Abstract: One aspect of the present disclosure can include a microfluidic device for imaging a tissue sample. The device can include a tissue chamber, a liquid inlet channel, and a liquid outlet channel. The tissue chamber can be defined by a plurality of walls, at least one of which is transparent. The liquid inlet channel can be fluid communication with the tissue chamber. The liquid outlet channel can be in fluid communication with the tissue chamber. The tissue chamber can be sized and dimensioned to completely immobilize the tissue sample during imaging.

Abstract: A device (10) is provided for the handling and transportation of an eyeball (1) including: at least one base body (2) including a first housing seat or cavity (4) for housing at least partially the eyeball; at least one retaining element (3) including at least three fins (13) for retaining the eyeball in the first housing seat or cavity; and at least one lid (5) removably combinable with the base body.

Abstract: Disclosed is a specimen processing apparatus for genetic testing. The apparatus includes: a mode setting section configured to receive a setting of an operation mode from: an emulsion preparation mode for preparing a water-in-oil type (W/O type) emulsion having dispersed therein a plurality of droplets, each droplet containing a specimen which contains DNA and a bead to which a reagent component necessary for amplifying a target DNA molecule is bound; and an emulsion breaking mode for breaking the emulsion and collecting beads from the droplets; and a controller programmed to control the transfer unit and the dispensing unit in accordance with the operation mode set by the mode setting section.

Abstract: A incubator chamber comprises a base, lid and plurality of trays, each of which are stackable upon one another in an open or closed configuration. A clamp could be provided having an interior cavity sized and dimensioned to simultaneously receive a portion of a perimeter of each of a base and a lid.

Abstract: A method of producing breathing air includes receiving intake air from an ambient air source, collecting the intake air in one or more collection pots of a distribution system, and distributing the intake air from the one or more collection pots to one or more breathing hoses. The method further includes continuously monitoring the intake air communicated to the one or more collection pots for one or more parameters and periodically recording readings of the continuous monitoring communicated wirelessly in the distributed system.

Abstract: Containers and container systems for temporarily storing and/or securing one or more surgical instruments in a neutral position during a surgical procedure. The containers are configured to withstand autoclave sterilization such that the containers are reusable following autoclave sterilization. The container includes a syringe holder having an elongate body, at least one pair of spaced guard elements extending upwardly, at least one supporting element, and at least one row of spaced projections.

Abstract: A method for control of a process for sterilizing a load in a sterilization chamber according to specific characteristics of the load without direct measurement of the load conditions. The method preferably includes admitting sterilant gas into the sterilization chamber under vacuum; during admission of the sterilant gas, monitoring a sterilant condensation related parameter or data in the sterilization chamber; detecting the occurrence of condensation and determining a value of the condensation related parameter while detecting condensation; selecting a sterilization cycle among a plurality of predetermined sterilization cycles according to the condensation related data; and performing the selected sterilization cycle for sterilizing the load. The condensation related data may be the sterilant dew point, a degree of condensation, or an amount of condensation which may be determined in monitoring the chamber pressure during sterilant gas admission.

Abstract: An automatic culturing device configured such that, in a work chamber 2a maintained in a sterile state, first and second robots 6 and 7 are arranged so that the movable ranges thereof partially overlap each other, and such that liquid supply means 10 which supplies liquids, containing a culture medium and liquid medicine, to containers held by the robots, and temporary placement sections (handing-over table 42, centrifuge tube holder 43, and heated room 44), each of which hands over the containers between the first and second robots, are provided in the movable ranges of the first and second robots, which ranges overlap each other. The first robot takes out the containers housed in housing means (rotary stocker 8), and the second robot holds and transports the containers handed over from the first robot via the temporary placement section. The cultivating operation can be efficiently performed.