Abstract: The invention relates to a spirometer (1) comprising a MEMS-based thermal fluid flow sensor (13, 13.1, 13.2) for generating a signal in response to a fluid flow generated during inhalation or exhalation; and a microcontroller (14) for calculating the fluid flow from the signal generated by the flow sensor (13, 13.1, 13.2). The spirometer (1) may be connected to other devices, such as a smartphone or a personal computer or any other computing unit which is adapted to collect, store, analyse, exchange and/or display data. The invention further describes the use of the spirometer (1) in measuring a user's lung performance and/or monitoring it over time.

Abstract: The invention relates to a spirometer (1) comprising a MEMS-based thermal fluid flow sensor (13, 13.1, 13.2) for generating a signal in response to a fluid flow generated during inhalation or exhalation; and a microcontroller (14) for calculating the fluid flow from the signal generated by the flow sensor (13, 13.1, 13.2). The spirometer (1) may be connected to other devices, such as a smartphone or a personal computer or any other computing unit which is adapted to collect, store, analyse, exchange and/or display data. The invention further describes the use of the spirometer (1) in measuring a user's lung performance and/or monitoring it over time.

Abstract: A layer structure for application to a surface of a subject, in particular for use in medical products. The layer structure having a support layer; a backing layer that is removably attached to the support layer; at least one local reservoir provided at a predetermined position between the backing layer and the support layer; and a fluidic substance and a solid substance being arranged inside the at least one local reservoir and being in contact with one another. The fluidic substance is configured to continuously condition the solid substance.

Abstract: An electrode patch, in particular for performing electrocardiography. The electrode patch includes an elastic adhesive layer having an adhesive contact surface that is configured to adhere to the skin of a subject the electrode patch is applied to; an elastic conductive layer including a plurality of measurement points and conductive paths, the conductive paths being configured to conductively connect the plurality of measurement points to a connector; and a plurality of electrodes, wherein each of the plurality of electrodes is formed at least by one of the plurality of measurement points and a corresponding recess provided in the adhesive layer, which recess extends through the entire layer thickness of the adhesive layer and is provided or providable with a substance that is adhesive and conductive, such as hydrogel, so as to conductively connect the one of the plurality of measurement points to the skin of the subject.

Abstract: The invention relates to a portable, handheld spirometer (1) comprising a MEMS-based thermal fluid flow sensor (13, 13.1, 13.2) for generating a signal in response to a fluid flow generated during inhalation or exhalation; and a microcontroller (14) for calculating the fluid flow from the signal generated by the flow sensor (13, 13.1, 13.2). The spirometer (1) may be connected to other devices, such as a smartphone or a personal computer or any other computing unit which is adapted to collect, store, analyse, exchange and/or display data. The invention further describes the use of the spirometer (1) in measuring a user's lung performance and/or monitoring it over time.

Abstract: The invention relates to a spirometer (1) comprising a MEMS-based thermal fluid flow sensor (13, 13.1, 13.2) for generating a signal in response to a fluid flow generated during inhalation or exhalation; and a microcontroller (14) for calculating the fluid flow from the signal generated by the flow sensor (13, 13.1, 13.2). The spirometer (1) may be connected to other devices, such as a smartphone or a personal computer or any other computing unit which is adapted to collect, store, analyse, exchange and/or display data. The invention further describes the use of the spirometer (1) in measuring a user's lung performance and/or monitoring it over time.