Abstract: The invention relates to an arrangement and a software-based application for modifying an internal eye pressure in vivo, having modulating means for modifying the internal eye pressure and sensor means for capturing the internal eye pressure in vivo, and enabling easily operated and quickly reacting changes to the internal eye pressure while avoiding the disadvantages of the prior art, proposing that the modulating means are implemented for modifying the internal eye pressure as a function of the internal eye pressure captured by the sensor means.

Abstract: An injector (1) for implanting a sensor implant (2) in the human or animal eye, in particular for the suprachoroidal implantation of a pressure sensor for the wireless measurement of the intraocular pressure, is improved in terms of rapid, complication-free, low-trauma and low-wear suprachoroidal implantation in that, to accommodate the sensor implant, the injector (1) has a substantially tubular injection chamber (8), the inner wall surfaces (9, 10) of which have a non-rotationally symmetrical cross section, preferably an oval or rectangular cross section, in that, at a free end, the injection chamber (8) is provided with an injection opening (13), through which, during implantation, the sensor implant (2) can slide out and slide into a sclera incision in the eye, wherein the inner wall surfaces (9, 10) of the injection chamber (8) enclose the likewise non-rotationally symmetrical cross section of the sensor implant (8) and prevent a rotation of the sensor implant (2) about an axis of rotation extending in t

Abstract: To specify an arrangement and a method for measuring a field of vision of an eye (6) which, while avoiding the disadvantages of the prior art, enable an objective, less complex and more reliable measurement of a field of vision of an eye (6), it is proposed that the arrangement comprises measuring means (1, 3) for measuring an eye movement and in the method, the eye movement is measured in an initial measurement (S1). Furthermore, the use of an implant (2) comprising a transponder coil (1) for introduction into an eye (6) for determining an intraocular pressure for the objective measurement of the boundaries of a field of vision is proposed.

Abstract: The invention relates to an implant for implanting in and/or an eye using fixing means enabling improved fixing, in particular with respect to the natural variability of the anatomical conditions of the eye. According to the invention, the fixing means comprise at least one support element which can be mounted on a tissue structure in the direction traverse to the optical axis of the eye.

Abstract: An implant for determining intraocular pressure includes at least one electrical pressure sensor for measuring the intraocular pressure, at least one microchip that is connected to the pressure sensor, and at least one antenna that is connected to the microchip, the microchip generating digitally encoded data from the electrical signals of the pressure sensor, which data can be transmitted by an antenna, using electromagnetic waves, to a receiver located outside the eye, and components being accommodated in a small housing, the outer dimensions of which are limited such that the implant can be positioned between the sclera and the choroid of the eye, is improved in that the pressure sensor is accommodated on an outer housing side of the implant, which outer housing side is brought into contact with the choroid in the eye is disclosed.

Abstract: An injector (1) for implanting a sensor implant (2) in the human or animal eye, in particular for the suprachoroidal implantation of a pressure sensor for the wireless measurement of the intraocular pressure, is improved in terms of rapid, complication-free, low-trauma and low-wear suprachoroidal implantation in that, to accommodate the sensor implant, the injector (1) has a substantially tubular injection chamber (8), the inner wall surfaces (9, 10) of which have a non-rotationally symmetrical cross section, preferably an oval or rectangular cross section, in that, at a free end, the injection chamber (8) is provided with an injection opening (13), through which, during implantation, the sensor implant (2) can slide out and slide into a sclera incision in the eye, wherein the inner wall surfaces (9, 10) of the injection chamber (8) enclose the likewise non-rotationally symmetrical cross section of the sensor implant (8) and prevent a rotation of the sensor implant (2) about an axis of rotation extending in t

Abstract: In order to make available an implant for implanting in an eye and/or on an eye, with fixing means arranged in a first plane and with a recess extending substantially in the first plane, which implant avoids the disadvantages of the prior art and can be better implanted, particularly as regards measurement of the intraocular pressure and reduced trauma to a patient, it is proposed that the implant, in a second plane at a distance from and substantially perpendicular to the first plane, has holding means for holding at least one sensor module having a sensor and/or at least one sensor module.

Abstract: An implant for determining intraocular pressure includes at least one electrical pressure sensor for measuring the intraocular pressure, at least one microchip that is connected to the pressure sensor, and at least one antenna that is connected to the microchip, the microchip generating digitally encoded data from the electrical signals of the pressure sensor, which data can be transmitted by an antenna, using electromagnetic waves, to a receiver located outside the eye, and components being accommodated in a small housing, the outer dimensions of which are limited such that the implant can be positioned between the sclera and the choroid of the eye, is improved in that the pressure sensor is accommodated on an outer housing side of the implant, which outer housing side is brought into contact with the choroid in the eye.

Abstract: A method to obtain and view lop time developments of a patient and to generate database relating to a patient's individual IOP development, includes the steps of continuous measurement and storage of IOP data of a patient over a period of time of at least 24 hours, during a normal day and without medication, and then continuous measurement and storage of IOP data of a patient over a period of time of at least 24 hours, the patient taking their medication, wherein medication times, medication durations, doses, active substances, events throughout the patient's day are recorded, wherein the IOP data are measured using at least double the frequency of an assumed time-based pattern in the IOP development and wherein the stored data are relayed to an analysis unit and the data is analysed.

Abstract: The invention relates to an implantable measuring device (1) for measuring the intraocular pressure at an ocular sclera (2), having pressure sensor means (5, 7) embedded in a pressure-transmitting housing (6) for biocompatible contacting of the ocular sclera (2), having at least one, preferably substantially flat, pressure sensor area (7) that allows for a reliable measurement of the intraocular pressure and is operatively easy to insert, in as much as possible, while avoiding the disadvantages of the prior art, wherein it is proposed that the housing (6) is configured with dimensionally stable elasticity.

Abstract: An implant for an intracorporal, telemetric measurement with a sensor device (1) and an inductive coil (2), which is connected to the sensor device (1) via electrical connection lines (4) being arranged on a longitudinal carrier (3), and a covering (5) by means of which the sensor device (1), the carrier (3) with the connection lines (4) and the coil (2) are encapsulated, wherein the carrier (3) for the electrical connection lines (4) comprises such a dimensioned rigidity that the sensor device (1), being fixedly bonded to one carrier end, is guided by the carrier (3) during implantation to the target position and is held in position at the target position, and that the covering part (6) encapsulating the coil (2) is provided for a subcutaneous fastening.

Abstract: A system and method for the intra corporal, measuring of blood pressure includes a substantially rigid sensor structure and an antenna structure, which are separate components. The anchor structure is used to mount the within an appropriate location in the cardiovascular system, such as in the cardiac septum. The substantially rigid sensor structure includes at least one capacitive pressure sensor. Measured values are transmitted telemetrically from the sensor structure to an extra corporal monitoring device.

Abstract: A system and method for the intra corporal, telemetric measuring of blood pressure, particularly within the heart or a great vessel, includes a substantially rigid sensor chip mounted in a holder and an antenna. The holder is anchored within an appropriate location in the cardiovascular system, such as in the cardiac septum, via a catheter or other minimally-invasive procedure to position at least one capacitive pressure sensor on the chip in the blood flow to be sensed. Measured values are transmitted telemetrically from the chip to an extra corporal monitoring device.

Abstract: A pressure sensing catheter having a pressure sensor and an antenna that is coupled to the pressure sensor, e.g., by a connector, are provided. The pressure sensor can be adapted to measure a pressure surrounding the catheter, and the antenna can be adapted to telemetrically communicate the measured pressure to an external device. In an exemplary embodiment, the antenna, pressure sensor, and/or connector are hermetically sealed, e.g., by the catheter and/or a coating, to prevent the antenna, pressure sensor, and connector from coming into contact with fluid, thereby allowing the catheter to be permanently implanted or otherwise used for long term use. Exemplary methods for manufacturing and using pressure sensing catheters are also provided.

Abstract: A pressure sensing catheter having a pressure sensor and an antenna that is coupled to the pressure sensor, e.g., by a connector, are provided. The pressure sensor can be adapted to measure a pressure surrounding the catheter, and the antenna can be adapted to telemetrically communicate the measured pressure to an external device. In an exemplary embodiment, the antenna, pressure sensor, and/or connector are hermetically sealed, e.g., by the catheter and/or a coating, to prevent the antenna, pressure sensor, and connector from coming into contact with fluid, thereby allowing the catheter to be permanently implanted or otherwise used for long term use. Exemplary methods for manufacturing and using pressure sensing catheters are also provided.

Abstract: A pressure sensing catheter having a pressure sensor and an antenna that is coupled to the pressure sensor, e.g., by a connector, are provided. The pressure sensor can be adapted to measure a pressure surrounding the catheter, and the antenna can be adapted to telemetrically communicate the measured pressure to an external device. In an exemplary embodiment, the antenna, pressure sensor, and/or connector are hermetically sealed, e.g., by the catheter and/or a coating, to prevent the antenna, pressure sensor, and connector from coming into contact with fluid, thereby allowing the catheter to be permanently implanted or otherwise used for long term use. Exemplary methods for manufacturing and using pressure sensing catheters are also provided.