Abstract: An ocular sensor (110) is proposed for verification of at least one analyte in an eye fluid. The ocular sensor (110) is composed of at least one sensor material which is designed to change at least one optical characteristic in the presence of the at least one analyte. Furthermore, the ocular sensor (110) comprises at least one sensor chip which has at least one integrated optical detector (122) for verification of the optical characteristic. A measurement system (166) is also proposed for verification of at least one analyte in an eye fluid, which measurement system (166) comprises an ocular sensor (110) according to the invention as well as an evaluation unit (168) which is designed to interchange information with the sensor chip (118).

Abstract: A protective device (26, 28) is proposed that contains a protective generator (26) and an inductor (28) to generate an electromagnetic protective field (29) that is suitable for compromising the function of the spying device (SM), wherein the protective device (26, 28) generates an electromagnetic protective field (29) with a protective signal that simulates the type of signal that occurs when magnetic stripe cards are read. Through the protective field a special protective signal is induced in the potentially present skimming module to imitate the reading of the magnetic stripe card. The skimming card reader reads a pseudo magnetic stripe card, or is at least confused when spying on the genuine magnetic stripe card. In particular, the protective signal can contain pseudo data that are mixed with the actual card data at demodulation or suppress said data completely (capture effect) so that the third party ultimately obtains unusable data.

Abstract: The present invention relates to the use of preparations for stabilizing isolated proteins. In particular, the use of such a preparation for stabilizing receptors in biochemical sensors is disclosed. The invention in addition relates to biochemical sensors containing such preparations.

Abstract: The invention relates to a process for preparing microspheres comprising an ionically crosslinked polymer, the process comprising: (a) producing liquid aerosol droplets (13) from a solution (3) comprising an ionically crosslinkable polyionic polymer into a continuous gas stream by using an ultrasonic nebulizer; (b) transferring the gas stream into a gelling solution (10) comprising di-, multi- or polyvalent ions, whereby crosslinked polymer microspheres (14) are formed, (c) separating the microspheres from the gelling solution, and (d) optionally, filtering the microspheres through a screen.

Abstract: The invention relates to a process for producing biomedical articles, in particular, silicone hydrogel contact lenses having durable hydrophilic chitosan coating. The chitosan coating is covalently attached to the medical device by performing a crosslinking reaction between chitosan and the carboxylic groups on the surface of a medical device directly in a sealed package during autoclave. The coated biomedical articles obtainable by the process of the invention have desirable characteristics regarding adherence to the substrate, durability, hydrophilicity, wettability, biocompatibility and permeability and are thus especially useful in the field of ophthalmic devices.

Abstract: A method for making an article comprising a core material and a coating thereon, the method comprising the steps of: (a) providing the core material; (b) applying one or more layers of a crosslinkable polycationic material, wherein the polycationic material is a reaction product of: (i) an epoxide of formula (I) wherein X equals bromo, chloro, iodo, or cyano, and R1, R2, R3, R4, independently of one another, are selected from the group consisting of hydrogen, linear or branched C1-C6-alkyl, and linear or branched C1-C6-alkyl which is substituted with halogen, and (ii) a polymer having repeating units comprising one or more secondary or tertiary amine group(s); (c) applying one or more layers of a polyanionic material; and (d) cross-linking the layers of polyelectrolytes formed by steps (b) and (c).

Abstract: The invention relates to a process for producing biomedical articles, in particular, silicone hydrogel contact lenses having durable hydrophilic chitosan coating. The chitosan coating is covalently attached to the medical device by performing a crosslinking reaction between chitosan and the carboxylic groups on the surface of a medical device directly in a sealed package during autoclave. The coated biomedical articles obtainable by the process of the invention have desirable characteristics regarding adherence to the substrate, durability, hydrophilicity, wettability, biocompatibility and permeability and are thus especially useful in the field of ophthalmic devices.

Abstract: A self-service device (1), specifically an automated teller machine, account statement printer, and/or information or transaction terminal, with a base housing (2), an operator interface (3), an input device for identification cards (9), a magnetic interference unit (8) and one or more additional components (4, 5, 6) where the magnetic interference unit (8) is configured as a coil enclosing the input and/or output device for identification cards (9).

Abstract: The invention proposes a manual measuring appliance (112) and an analytical measuring system (110) which can be used to measure at least one analyte in an eye fluid of an eye (114). The handheld measuring appliance (112) comprises a measuring system (120) and a positioning system (122). The measuring system (120) can measure at least one property of the at least one analyte and/or at least one analyte-dependent change of property of at least one ocular sensor (116) in the eye fluid, and this can be used to infer a concentration of the analyte in the eye fluid. The positioning system (122) is set up to measure a spatial positioning, wherein the spatial positioning comprises a distance between at least one measurement location in the eye (114) and the handheld measuring appliance (112) and also furthermore at least one further positioning co-ordinate.

Abstract: The invention relates to an implantation device for implanting a sensor element for detecting at least one analyte in a bodily fluid or body tissue. The implantation device comprises at least one cannula for piercing a skin surface of a patient. The cannula has at least one holding area for holding the sensor element. The implantation device furthermore has at least one hydraulic container, connected to the cannula, for holding a hydraulic fluid and at least one pressure generation device. The pressure generation device is designed to apply pressure to the hydraulic fluid, wherein the sensor element can be transferred from the cannula into the body tissue using the hydraulic fluid.

Abstract: The invention relates to a sensor element (110) for detecting at least one analyte in a body fluid or in a body tissue (130), particularly for determining at least one metabolite concentration in a body fluid. The sensor element (110) comprises an implantable, one-piece shaped body (112), which comprises a sensor end (114) and a coupling end (116). The shaped body (112) comprises, in the area of the sensor end (114), at least one sensor area (118), which comprises at least one sensor material (122). The sensor material (122) changes at least one optically measurable property in the presence of the analyte. The shaped body (112) also has at least one optically transparent coupling part (120), which is designed to transmit electromagnetic radiation in at least one spectral range between the sensor area (118) and the coupling end (116).

Abstract: A bearing assembly includes a first bearing comprising a first inner ring and a second bearing comprising a second inner ring. A sleeve-shaped spacer is disposed between and axially separates the first and second inner rings. An adhesive connects the spacer to the first and second inner rings.

Abstract: Skimming modules can be attached at self-service terminals, such as an automated teller machine or account statement printer, by manipulation with fraudulent intent by third parties who attempt to read the data from a magnetic stripe card introduced into the card reader (10). In order to counteract this problem effectively, a protective device (26, 28) is proposed that contains a protective generator (26) and an inductor (28) operatively connected thereto to generate an electromagnetic protective field (29) that is suitable for compromising the function of the spying device (SM), wherein the protective device (26, 28) generates an electromagnetic protective field (29) with a protective signal that simulates the type of signal that occurs when magnetic stripe cards are read. Through the protective field a special protective signal is induced in the potentially present skimming module to imitate the reading of the magnetic stripe card.

Abstract: An implant (110) for detecting at least one analyte (126) in a body fluid, in particular an eye fluid, is proposed. The implant (110) is designed to be implanted in a tissue layer and/or a chamber of an eye of a patient, the implant (110) having a hydrogel matrix (110) with at least one hydrogel (114). The implant (110) also has sensor particles (116) dispersed in the hydrogel matrix (110), the sensor particles (116) having at least one sensor matrix (120) with a sensor matrix material (122) and at least one sensor material (124).

Abstract: The invention relates to a process for the manufacture of a composite materials comprising the steps of (a) providing a hydrophobic organic bulk material, and (b) applying a hydrophilic surface coating on the hydrophobic organic bulk material by first non-covalently attaching to the surface of the bulk material a water-soluble peptide comprising a hydrophobic moiety; and then chemically or enzymatically crosslinking the water-soluble peptide. The composite materials manufactured according to the process of the invention have desirable characteristics regarding adherence to the substrate, durability, hydrophilicity, wettability, biocompatibility and permeability and are thus particularly useful as ophthalmic devices.

Abstract: An ocular sensor (110) is proposed for verification of at least one analyte in an eye fluid. The ocular sensor (110) is composed of at least one sensor material which is designed to change at least one optical characteristic in the presence of the at least one analyte. Furthermore, the ocular sensor (110) comprises at least one sensor chip which has at least one integrated optical detector (122) for verification of the optical characteristic. A measurement system (166) is also proposed for verification of at least one analyte in an eye fluid, which measurement system (166) comprises an ocular sensor (110) according to the invention as well as an evaluation unit (168) which is designed to interchange information with the sensor chip (118).

Abstract: The present invention relates to a copolymer, which is the reaction product of (a) a first prepolymer, comprising a bioactive moiety and at least one radically polymerizable group, and (b) a second prepolymer which is a polyvinyl alcohol having a weight average molecular weight of at least about 2000 that, based on the number of hydroxy groups of the polyvinyl alcohol, comprises from 0.5 to 80% structural units of formula (I) wherein: R is alkylene having up to 8 carbon atoms, R1 is hydrogen or alkyl having up to seven carbon atoms, and R2 is an olefinically unsaturated, electron-attracting copolymerizable radical.

Abstract: The invention proposes a manual measuring appliance (112) and an analytical measuring system (110) which can be used to measure at least one analyte in an eye fluid of an eye (114). The handheld measuring appliance (112) comprises a measuring system (120) and a positioning system (122). The measuring system (120) can measure at least one property of the at least one analyte and/or at least one analyte-dependent change of property of at least one ocular sensor (116) in the eye fluid, and this can be used to infer a concentration of the analyte in the eye fluid. The positioning system (122) is set up to measure a spatial positioning, wherein the spatial positioning comprises a distance between at least one measurement location in the eye (114) and the handheld measuring appliance (112) and also furthermore at least one further positioning co-ordinate.

Abstract: The invention proposes a manual measuring appliance (112) and an analytical measuring system (110) which can be used to measure at least one analyte in an eye fluid of an eye (114). The handheld measuring appliance (112) comprises a measuring system (120) and a positioning system (122). The measuring system (120) can measure at least one property of the at least one analyte and/or at least one analyte-dependent change of property of at least one ocular sensor (116) in the eye fluid, and this can be used to infer a concentration of the analyte in the eye fluid. The positioning system (122) is set up to measure a spatial positioning, wherein the spatial positioning comprises a distance between at least one measurement location in the eye (114) and the handheld measuring appliance (112) and also furthermore at least one further positioning co-ordinate.

Abstract: The present invention concerns a process for analyzing an analyte in a hydrogel contact lens following its wear on the eye, comprising the steps of (a) physically or chemically inducing a volume reduction of the hydrogel contact lens and thereby squeezing the analyte out of the polymer material making up the contact lens and (b) feeding the analyte obtained according to step (a) into an analyzer. The process of the invention provides a new concept for noninvasively measuring various analytes occurring in the tear fluid that is comfortable to the user.