Patent application number | Description | Published |
20100198278 | COMPOSITE ANTIMICROBIAL ACCESSORY INCLUDING A MEMBRANE LAYER AND A POROUS LAYER - An antimicrobial accessory may include a membrane layer defining a major surface comprising a first lateral portion, a second lateral portion, and a third lateral portion. The membrane layer may comprise a first biodegradable polymer. The antimicrobial accessory may further include a first porous layer overlying the first lateral portion and a second porous layer overlying the second lateral portion. The first porous layer comprises a second biodegradable polymer and a first antimicrobial, while the second porous layer comprises a third biodegradable polymer and a second antimicrobial. | 08-05-2010 |
20110125241 | LEAD INCLUDING COMPOSITE DEVICE FOR ELUTING A STEROID AND AN ANTIMICROBIAL - A lead may include a lead body including a proximal end and a distal end, an electrode proximate to the distal end of the lead body, and a monolithic controlled release device located proximate to the electrode. According to this aspect of the disclosure, the monolithic controlled release device includes a polymer, a steroid mixed in the polymer, and an antimicrobial mixed in the polymer. | 05-26-2011 |
20120165795 | THERAPEUTIC AGENT RESERVOIR DELIVERY SYSTEM - A therapeutic agent reservoir comprises a reservoir body comprising a polymer and a therapeutic agent mixed within the polymer, and an outer coating enclosing the reservoir body, wherein at least a portion of the outer coating comprises a rate-controlling membrane configured to provide a predetermined release rate of the therapeutic agent through the rate-controlling membrane. | 06-28-2012 |
Patent application number | Description | Published |
20090030341 | SAMPLE RELEASE SYSTEM - Devices to process a sample are configured to releasably attach a sample acquisition device to a drive mechanism that provides rotational and/or vibrational motion to the sample acquisition device. The devices can be used in sample processing methods to dislodge sample materials from the sample acquisition device. Sample processing methods using rotational or vibrational motion may further include the use of a liquid medium into which the sample is released. Sample processing methods may further include the detection of an analyte in the sample. | 01-29-2009 |
20100255484 | SAMPLE PREPARATION CONTAINER AND METHOD - A system and method for preparing and collecting samples for analyte testing. The system can include a sample preparation system and a sample collection system coupled to the sample preparation system. The sample preparation system can include at least one of a deformable self-supporting receptacle comprising a reservoir and a freestanding receptacle comprising a reservoir. The reservoir can be adapted to contain a liquid composition. The sample collection system can be positioned in fluid communication with a reservoir of the sample preparation system, and can be adapted to capture an analyte of interest. The method can include providing a fluid path defined at least partially by the sample preparation system and the sample collection system, positioning the liquid composition in a reservoir of the sample preparation system, and moving at least a portion of the liquid composition in the fluid path to the sample collection system. | 10-07-2010 |
20110079317 | WATER TREATMENT DEVICE FOR PRODUCING BOTTLED WATER - A water treatment device for filling at least one bottle with treated tap water includes a housing unit having a reservoir, and at least one valve arranged in fluid communication with the reservoir, the valve having a water inlet/air exit port arranged adjacent to the housing unit, and a water exit/air inlet port arranged opposite the water inlet/air exit port, whereby when the valve is actuated to its open condition, water flows through the valve and into the bottle, and air entrapped in the bottle flows through the valve and into the surrounding environment. When the valve is in its closed condition, air and water do not flow through the valve. | 04-07-2011 |
20110079551 | WATER TREATMENT CARTRIDGE - A water treatment cartridge, or insert, for use in connection with a water treatment device such as a gravity-fed water pitcher or the like includes a support structure and water treatment material arranged in combination with the support structure. The support structure may, for example, generally enclose the water treatment material, or the support structure may be integrated into the structure of the water treatment material | 04-07-2011 |
20110079572 | BOTTLE FOR WATER TREATMENT DEVICE - A water bottle for use in connection with a water treatment device includes an opening with a diameter of at least about 0.87 inches, a diameter of no greater than about 1.06 inches, and a height of at least about 6.56 inches, and a height of no greater than about 8.02. | 04-07-2011 |
20110097814 | DETECTION DEVICES AND METHODS - The application discloses embodiments of detection devices including a sensor component in a flow path between a first flow path portion and a second flow path portion. In embodiments described, the sensor component includes a receptor in a polymerized composition. The receptor is configured to bind with an analyte in a test sample. Upon binding the sensor component undergoes a detectable change in response to interaction of the analyte with the receptor. | 04-28-2011 |
20110146419 | SAMPLE ACQUISITION DEVICE - A sample acquisition device includes a capillary array configured to draw in a sample and retain the sample by capillary action. The capillary array may be coupled to an elongated member, such as a stem or a hollow tube, which defines a longitudinal axis extending in a first direction. In some embodiments, the capillary array defines a major sample acquisition surface that extends in a second direction different than the first direction. A ratio of the major sample acquisition surface area to maximum volume retained by the capillary array may be selected to minimize physical binding between the capillary array and sample. In some embodiments, the device may include a feedback mechanism to indicate the relative pressure applied to a sample source with the sample acquisition device. In addition, in some embodiments, the sample acquisition device may include a suction source to help draw the sample into the capillary array. | 06-23-2011 |
20110150703 | TORTUOUS PATH STATIC MIXERS AND FLUID SYSTEMS INCLUDING THE SAME - Static mixers and fluid systems incorporating one or more of the static mixers. The static mixers may include one or more channels that provide a tortuous path through a body, wherein fluid flowing through each channel defines a downstream direction through the tortuous path created within the channel. The tortuous path of the channel is preferably formed by a set of flow obstacles protruding into the channel and a set of flow restrictions positioned along the channel between the inlet and the outlet. Each flow restriction has a downstream length over which the open cross-sectional area of the channel decreases and then increases when moving in the downstream direction. | 06-23-2011 |
20110158852 | OFFSET PATH MIXERS AND FLUID SYSTEMS INCLUDNG THE SAME - Static mixers and fluid systems incorporating one or more of the static mixers. The static mixers include one or more channels that provide a fluid path through a body, wherein fluid flowing through each channel defines a downstream direction through the channel. The channel includes two or more sets of concatenated mixing elements arranged adjacent to each other across the width of the channel, wherein two sets of the mixing elements are offset from each other along the downstream direction of the channel. | 06-30-2011 |
20110179887 | SAMPLE ACQUISITION DEVICE - A sample acquisition device includes a body comprising a plurality of sample acquisition regions defined by at least a first wall and a second wall oriented nonparallel to the first wall. In some embodiments, the body defines a plurality of apertures that define a plurality of sample acquisition regions. In other embodiments, the walls extend from the body, and the sample acquisition regions are defined between the walls. The sample acquisition regions may be configured in some embodiments such that a user may acquire a sample by rotating the body in a first direction relative to a sample source and may release the sample by rotating the body in a second direction that is substantially opposite to the first direction. When rotated in the first direction, at least one of the first or second walls defines a surface that is inclined into a sample acquisition region. | 07-28-2011 |