Abstract: Test strip and method of operating thereof are provided. The test strip, from the top down, comprises a cover, an insulating layer, an electrode set, and a substrate. More particularly, the electrode set at least comprises a first electrode, a second electrode, and a third electrode. The insulating layer comprises a track, and the cover comprises an inlet, an indication line, and at least one vent. With the third electrode and the indication line in accordance with the present invention, a user may confirm the operation status of the test strip and the loading status of biological samples with ease to improve the accuracy of testing.

Abstract: A method of measuring hematocrit (HCT) and a measurement device using in the method and depends on an electrode test specimen to create a capacitor charging effect and consequential change in discharge current for measurement of hematocrit. The method of measuring hematocrit comprises steps as follows: (a) Instill blood into a pair of test electrodes which is installed in the present invention and apply a voltage to the pair of test electrodes; (b) Remove the voltage applied to the pair of test electrodes and measure a discharge current value; (c) Refer to a predetermined decision rule and the discharge current to obtain a hematocrit value for blood. As such, the present invention which relies on an electrode test specimen in measurement of hematocrit corresponding to a discharge current value during electric discharge contributes to precision and reliability in contrast to conventional hematocrit tests.

Abstract: A method for fast measurement of a specimen concentration which needs a sensing strip with an electrode test region on which an enzymatic reagent with a specific ingredient is coated and has steps as follows: place a specimen on the electrode test region of the sensing strip; apply a high voltage on the electrode test region for a period to create electrochemical current therein by which at least a faradic current and at least a non-faradic current are generated in the electrode test region; apply a measuring voltage less than the high voltage or the same as the high voltage on the electrode test region to generate a total current including faradic and non faradic currents and the total current finally reaching a steady current, which is measured for calculating a specimen concentration.

Abstract: A method of measuring hematocrit (HCT) and a measurement device using in the method and depends on an electrode test specimen to create a capacitor charging effect and consequential change in discharge current for measurement of hematocrit. The method of measuring hematocrit comprises steps as follows: (a) Instill blood into a pair of test electrodes which is installed in the present invention and apply a voltage to the pair of test electrodes; (b) Remove the voltage applied to the pair of test electrodes and measure a discharge current value; (c) Refer to a predetermined decision rule and the discharge current to obtain a hematocrit value for blood. As such, the present invention which relies on an electrode test specimen in measurement of hematocrit corresponding to a discharge current value during electric discharge contributes to precision and reliability in contrast to conventional hematocrit tests.

Abstract: An approach is provided for remote healthy caring and monitoring through data transmission and processing. A biological monitoring device comprises a biological sensor, a motion detector, a warning module, a transmitting module and a controller. The biological sensor acquires a biological data from a person. The motion detector senses a variation of acceleration and a variation of angle to acquire a physical condition data. The transmitting module transmits the biological data and the physical condition data to a terminal device. The controller calculates the biological data and the physical condition data based on a predetermined rule, and sends a control signal to trigger a warning module or the transmitting module according to a calculating result. The warning module is configured to send a noticeable signal to inform the person. Therefore, the monitoring range is dynamically adjusted based on the biological and physical of the person.

Abstract: An approach is provided for a method and device for measuring Hematocrit (Hct) are disclosed that measures current variations from reactions of Electrochemistry on the electrodes. The method comprises acts of giving a blood sample on a pair of electrodes, obtaining a response current by providing a voltage on the electrodes, and determining an Hct value from the obtained current based on a predetermined rule. Therefore, the present disclosure provides higher reliable and precise measurement compared to the conventional measuring apparatus.

Abstract: The invention discloses an assistant standing seat comprising a base having a positioning nest and a locating recess, a driving module installed in the positioning nest of the base, a shearing device mounted in the locating recess of the base and a seat mounted on the shearing device, wherein the shearing device has a top plate, a bottom plate pivotally mounted to a front part of the top plate, a U-shape bracket pivotally mounted to a middle part of the bottom plate and a translational device moving between the U-shape bracket and the bottom plate. With the above seat, a user's weight can be distributed to the top plate and the U-shape bracket to decrease a resistance force of the translational device when the translational device moves, and further avoid a difficult elevation of the assistant standing seat.

Abstract: The present invention provides a biosensor with finger-positioning function, comprising: a bottom plate, a cover, and a test-strip socket; wherein the cover mounted on the bottom plate has a front end provided with a guiding plate for positioning a finger, and the guiding plate has a center line and a guiding surface, in which the center line passes through a center of the guiding surface; and the test-strip socket is formed at the front end of the cover. When using the biosensor, the user can rest his/her wrist and palm on the cover of the biosensor and rest the punctured finger on the guiding surface provided at the front end of the cover to align the test strip with the blood drop on the finger so as to simplify the measurement.

Abstract: An approach is provided for remote healthy caring and monitoring through data transmission and processing. A biological monitoring device comprises a biological sensor, a motion detector, a warning module, a transmitting module and a controller. The biological sensor acquires a biological data from a person. The motion detector senses a variation of acceleration and a variation of angle to acquire a physical condition data. The transmitting module transmits the biological data and the physical condition data to a terminal device. The controller calculates the biological data and the physical condition data based on a predetermined rule, and sends a control signal to trigger a warning module or the transmitting module according to a calculating result. The warning module is configured to send a noticeable signal to inform the person. Therefore, the monitoring range is dynamically adjusted based on the biological and physical of the person.