Abstract: It is disclosed a needle (1) for a syringe, including a tip (2) at one end (3) of the needle, adapted to penetrate a body tissue during usage of the syringe, and a hub (4) at the other end (5) of the needle, to attach the needle to the syringe. A pressure sensor (6) is in the needle; means (7) are provided to transmit outside the needle a pressure value sensed by the pressure sensor (6) in the needle.

Abstract: An intraocular pressure measuring and/or monitoring system comprises an intraocular pressure measuring device (1) comprising a support (3) and a pressure sensor (2) united with the support. The support (3) is configured for placing the pressure sensor (2) in contact with an eye (8) of a user for sensing the intraocular pressure (IOP) of the eye. A portable recording device (6) is configured for communicating with the intraocular pressure measuring device (1) and for storing data received from the intraocular pressure measuring device. The system further comprises an inertial and/or environmental sensor (9).

Abstract: Intraocular pressure measuring and/or monitoring device comprising a soft contact lens and a pressure sensor united with the soft contact lens, the pressure sensor being located such that it is applied against an eye of a user for sensing the intraocular pressure (IOP) of the eye when the soft contact lens is worn by the user, wherein the soft contact lens is softer than a surface of the eye and is configured to adapt its shape to the shape of the eye under the effect of capillary force maintaining the contact lens on the eye when the user is wearing the contact lens.

Abstract: An intraocular pressure measuring and/or monitoring system comprises an intraocular pressure measuring device (1) comprising a support (3) and a pressure sensor (2) united with the support. The support (3) is configured for placing the pressure sensor (2) in contact with an eye (8) of a user for sensing the intraocular pressure (IOP) of the eye. A portable recording device (6) is configured for communicating with the intraocular pressure measuring device (1) and for storing data received from the intraocular pressure measuring device. The system further comprises an inertial and/or environmental sensor (9).

Abstract: Intraocular pressure measuring and/or monitoring device comprising a soft contact lens and a pressure sensor united with the soft contact lens, the pressure sensor being located such that it is applied against an eye of a user for sensing the intraocular pressure (IOP) of the eye when the soft contact lens is worn by the user, wherein the soft contact lens is softer than a surface of the eye and is configured to adapt its shape to the shape of the eye under the effect of capillary force maintaining the contact lens on the eye when the user is wearing the contact lens.

Abstract: System for monitoring at least one biomechanical ophthalmic parameter, the system comprising a measuring device (1) adapted to be placed on or implanted into an eye of a patient for measuring said at least one biomechanical ophthalmic parameter of said eye, a recording device (6) for obtaining from said measuring device (1) measurement data representative of the instant value of said at least one biomechanical ophthalmic parameter of said eye, wherein said recording device is adapted to obtain said measurement data at a predetermined frequency equal to or greater than twice the variation frequency of said at least one biomechanical ophthalmic parameter.

Abstract: A new noninvasive approach for intraocular pressure (IOP) measurement allowing continuous monitoring over prolonged periods, regardless of patient's position and activities. The key element of this measurement method is a soft contact lens (1) including at least one strain gage (2) longitudinally arranged around the center of the contact lens and capable of measuring precisely spherical deformations of the eyeball induced by the changes in IOP. This information is transmitted with wires or (preferably) wirelessly in real time to an external recording system (14). The system is placed in the same way as a normal corrective contact lens, no anesthesia is required and patient vision remains almost completely unimpaired.

Abstract: A new noninvasive approach for intraocular pressure (IOP) measurement allowing continuous monitoring over prolonged periods, regardless of patient's position and activities. The key element of this measurement method is a soft contact lens (1) including at least one strain gage (2) longitudinally arranged around the center of the contact lens and capable of measuring precisely spherical deformations of the eyeball induced by the changes in IOP. This information is transmitted with wires or (preferably) wirelessly in real time to an external recording system (14). The system is placed in the same way as a normal corrective contact lens, no anesthesia is required and patient vision remains almost completely unimpaired.