Abstract: The present invention provides a micro needle roller assembly comprising a roller head including an external cylindrical member having a plurality of micro needles mounted on a surface thereof and an internal member placed in the external member and supported to the external member by supporting piece; and a handling member coupled to the internal member for rotating the internal member of the roller head; the micro needles, the external cylindrical member and the internal member being made of polymer resin.

Abstract: A semiconductor chip package may include one or more conductive patterns provided on a front surface of a wafer. An encapsulation layer may cover at least the front surface of the wafer. Chip plugs may be electrically connected to the conductive patterns, and may be embedded in a rear surface of the wafer. External connection terminals may be electrically connected to the chip plugs, and may be provided on the rear surface of the wafer.

Abstract: An implantable biosensor for detecting an analyte in vivo in body fluids comprises an analyte-sensitive hydrogel filament chemically configured to vary its displacement volume according to changes in concentration of an analyte, such as glucose, in a patient's body fluid. A photometric displacement transducer placed inside the biosensor is configured to quantifiably detect changes in the displacement volume of the hydrogel filament, such as by detecting the light intensity on a photoreceptor arranged to receive light of varying intensity depending upon the displacement of the hydrogel filament. A battery powered telemeter operably engaged to the photometric displacement transducer sends a radio data signal representing glucose concentration level to a receiver containing an alarm system. The alarm system can automatically notify a person that the analyte level is outside desired predetermined parameters, and/or to automatically inject an agent to counteract the adverse analyte levels.

Abstract: The penicillin biosensor (10) has a pH-sensitive polymeric hydrogel (30) in a rigid enclosure (20). The hydrogel includes an immobilized enzyme such as penicillinase. The enzyme catalyzes a chemical reaction consuming penicillin and producing penicillic acid. The hydrogel changes its osmotic pressure in proportion to the concentration of the penicillic acid. By measuring the change in osmotic pressure with a pressure transducer (40), the biosensor (10) is able to accurately measure the concentration of penicillin. A battery (64) powered monitoring device, connected to the biosensor (10) through electrical wires, is operably programmed to display the penicillin concentration in a computer (62) as well as to activate LED or buzzer as an alert in case that the measured concentration of penicillin is over the threshold concentration.

Abstract: An implantable biosensor for detecting an analyte in vivo in body fluids comprises an analyte-sensitive hydrogel filament chemically configured to vary its displacement volume according to changes in concentration of an analyte, such as glucose, in a patient's body fluid. A photometric displacement transducer placed inside the biosensor is configured to quantifiably detect changes in the displacement volume of the hydrogel filament, such as by detecting the light intensity on a photoreceptor arranged to receive light of varying intensity depending upon the displacement of the hydrogel filament. A battery powered telemeter operably engaged to the photometric displacement transducer sends a radio data signal representing glucose concentration level to a receiver containing an alarm system. The alarm system can automatically notify a person that the analyte level is outside desired predetermined parameters, and/or to automatically inject an agent to counteract the adverse analyte levels.