Patent application number | Description | Published |
20090106898 | ADAPTABLE MATTRESS CONVERSION - A mattress system has a cover, a crib, and a fluid bladder system. The crib surrounds the perimeter of the fluid bladder system and the cover overlies the top surface of the crib and fluid bladder system. The fluid bladder systems provide at least one conventional bladder therapy to a patient positioned on the mattress system. The fluid bladder system interconnects to the crib to not form a hammock effect so the crib functions as a restraint. The fluid bladder is also designed to bottom out to form an exterior cavity. A second cushion is inserted into the exterior cavity and positioned so the crib continues to function as a restraint. The second cushion provides a therapy to the patient that is different from the fluid bladder system. | 04-30-2009 |
20090106906 | SELF-CONTAINED GATCHING, ROTATING AND ADJUSTABLE FOOT SECTION MATTRESS - A self-contained gatching mattress having a gatching mattress sleep deck, a first air bladder cushion, a second cushion material, a control box having an air pump system and a manifold, a conduit distribution unit, a sliding bridge, and a cushion material positioned above the sliding bridge and the control box. The sliding bridge forms a gap area for conduits to extend from the control box to the conduit distribution unit which decreases the chances of the conduits being kinked or altering the cushion's tissue interface pressure to patient's positioned on the cushion when the sleep deck is gatched and/or portions are retracted or extended. | 04-30-2009 |
20090112298 | HIGH EFFICIENCY THERMAL ENERGY TRANSFER PAD - A thermal energy transfer pad is disclosed. The thermal energy transfer pad has a first flexible, thermal energy transfer sheet and a second flexible, thermal energy transfer sheet. The first flexible, thermal energy transfer sheet (a) is made of a first fluid impervious material, (b) has a perimeter measurement of A prior to manufacturing and (c) has a first thermal energy transfer thickness. The first flexible, thermal energy transfer sheet is molded to form fluid path troughs defined by interior protuberances and the first sheet's perimeter edge. That molding alters the first flexible, thermal energy transfer sheet's perimeter measurement to B, which is less than A. The second thermal energy transfer sheet (a) is made of a second fluid impervious material, (b) has a perimeter measurement of B and (c) has a second thermal energy transfer thickness. The second thermal energy transfer sheet is sealed to the first thermal energy transfer sheet along the first sheet's perimeter and at the first sheet's interior protuberances. That sealing creates a tortuous fluid path in the fluid path troughs The resulting pad has a significantly (1) decreased chance of the fluid being occluded in the fluid path and (2) increased thermal energy transfer rate to the patient. | 04-30-2009 |
20110190681 | CATHETER NEEDLE RETENTION AND PLACEMENT MONITORING SYSTEM AND METHOD - A blood access device includes (i) a first layer, a bottom surface of the first layer including (a) an adhesive or (b) a hook and loop material for securing the first layer to a patient, a first conductive attachment material located at a top surface of the first layer; (ii) a first conductor contacting the first conductive attachment material; (iii) a second layer, a second conductive attachment material located at a bottom surface of the second layer, the first and second conductive attachment materials configured to be releasably secured to each other; (iv) a second conductor contacting the second conductive attachment material; and (v) a blood vessel access member carried by the second layer. | 08-04-2011 |
20110190682 | NEEDLE PLACEMENT DETECTION AND SECURITY DEVICE AND METHOD - A blood access device includes (i) a conductive needle configured to pierce a patient's skin and gain access to a blood vessel; (ii) an insulative housing supporting a fluid communication junction between the needle and flexible tube; (iii) a conductor having a first end connected to the insulative housing and a second end extending from the insulative housing in a direction coextensive with the needle such that (a) when the needle has gained access to the blood vessel the patient's skin, the conductor is electrically insulated from the conductive needle and (b) if the needle is pulled so as to interrupt access with the blood vessel, the conductive needle and the conductor come into contact with each other. | 08-04-2011 |
20110190691 | APPARATUS FOR MONITORING AND CONTROLLING PERITONEAL DIALYSIS - A dialysis apparatus includes a housing; a first electrical contact carried by the housing; a hydrogel material located within the housing; a second electrical contact connected to the hydrogel material, the hydrogel material located so as to be contacted by a liquid flowing through the housing; and wherein the hydrogel material expands as the material absorbs the liquid such that the second electrical contact is moved and eventually engage the first electrical contact. | 08-04-2011 |
20130079705 | METHOD FOR MONITORING AND CONTROLLING PERITONEAL DIALYSIS - A dialysis apparatus includes a housing; a first electrical contact carried by the housing; a hydrogel material located within the housing; a second electrical contact connected to the hydrogel material, the hydrogel material located so as to be contacted by a liquid flowing through the housing; and wherein the hydrogel material expands as the material absorbs the liquid such that the second electrical contact is moved and eventually engage the first electrical contact. | 03-28-2013 |