Abstract: A sensor network comprising a controller and a plurality of sensor devices configured to be distributed about an area and to communicate via a wireless communication link with the controller. Each sensor device is arranged to sense a parameter and to provide to the controller, via the wireless communication link, sensor data indicating a sensed parameter value and each sensor device is configured to report the sensor data to the controller according to a reporting condition associated with the each sensor device. The controller is configured to obtain location data indicating the location of each of the plurality of sensor devices and obtain said sensor data from each of the plurality of sensor devices to determine a reporting command for a selected sensor device based on the obtained sensor data and the corresponding location data; and to provide the reporting command to the selected sensor device to update the reporting condition associated with the selected sensor device.

Abstract: Provided are methods of applying biological compositions, that is, autologous bioadhesive sealant compositions containing one or more biological agents, to an individual, wherein all the blood components used in preparing the composition are derived from the patient who is to receive the biological composition. In one embodiment, the method comprises obtaining a whole blood sample from an individual; forming an inactive platelet rich plasma from the whole blood sample; mixing a biological agent into the inactive platelet rich plasma; obtaining thrombin from the whole blood sample; mixing the thrombin into the inactive platelet rich plasma to form a biological composition; and applying the biological composition to the individual.

Abstract: A system for the production of a blood component composition is provided. The system includes a centrifuge having a blood reservoir for receiving and separating a blood sample into multiple components; a dispenser disposed outside of the centrifuge having a first collection chamber containing an activation agent and a second collection chamber containing one or more medicinal agents; means for removing a first portion at least one separated blood component from the centrifuge to the first container and a second portion to the second collection chamber, wherein the first collection chamber activates the first portion and stores the resulting clot and thrombin; a filter for separating the thrombin from the clot; and a nozzle for entraining and mixing the thrombin with the second portion containing the one or more medicinal components.

Abstract: The delivery system of the present invention is comprised of at least two chambers which store, individually, an activated blood component and an inactivated blood component. The first chamber comprises an activating agent and a filter which may be one in the same thus allowing the formed clot to be triturated thereby isolating the thrombin from the clot. The second chamber stores the inactivated blood component that when mixed with thrombin will produce a gel. The first or second chamber may further contain agents which are desired to be delivered to a specific site. The unique design of the delivery system allows for ease in operation of combining two agents at a specific time and place.

Abstract: Provided are methods of applying biological compositions, that is, autologous bioadhesive sealant compositions containing one or more biological agents, to an individual, wherein all the blood components used in preparing the composition are derived from the patient who is to receive the biological composition. In one embodiment, the method comprises obtaining a whole blood sample from an individual; forming an inactive platelet rich plasma from the whole blood sample; mixing a biological agent into the inactive platelet rich plasma; obtaining thrombin from the whole blood sample; mixing the thrombin into the inactive platelet rich plasma to form a biological composition; and applying the biological composition to the individual.

Abstract: The present relates to an autologous bioadhesive sealant composition or fibrin glue prepared by a two-phase method, wherein all of the blood components for the bioadhesive sealant are derived from a patient to whom the bioadhesive sealant will be applied. A platelet rich plasma and a platelet poor plasma are formed by centrifuging a quantity of anticoagulated whole blood that was previously drawn from the patient. In one embodiment, the platelet rich plasma is divided into two portions. In phase one, a compound that reverses the effect of the anticoagulant is added to the first portion and a clot is allowed to form. The clot is then triturated, and the resulting serum containing autologous thrombin is collected. In phase two, the serum obtained from phase one is mixed with the second portion of the platelet rich plasma to form the bioadhesive sealant of the present invention.

Abstract: Provided are methods of applying biological compositions, that is, autologous bioadhesive sealant compositions containing one or more biological agents, to an individual, wherein all the blood components used in preparing the composition are derived from the patient who is to receive the biological composition. In one embodiment, the method comprises obtaining a whole blood sample from an individual; forming an inactive platelet rich plasma from the whole blood sample; mixing a biological agent into the inactive platelet rich plasma; obtaining thrombin from the whole blood sample; mixing the thrombin into the inactive platelet rich plasma to form a biological composition; and applying the biological composition to the individual.

Abstract: An improved ion-sensing electrode for detecting ions or polyions is provided having an electrically conducting member sheathed or coated with a layer of insulation except at an exposed, uninsulated area, where the insulation free surface of the electrically conducting member is texturized, and a polymeric membrane coated on the insulation-free surface of the electrically conducting member, where the ion selective membrane includes an ionophore. The texturized surface improves the starting EMF stability and reproducibility of the ion-sensing electrodes, and further improves membrane adherence to the electrically conducting member.