Direkomendasikan untuk Penggunaan Profesional

gold AQ plus

   The Gold AQ Plus Blood Glucose Monitoring system is intended for use in the quantitative measurement of glucose in human whole blood taken from the fingertip (capillary) or from the vein (venous) or from the artery (arterial). It is intended to be used by people with diabetes at home or clinical site as an aid in monitoring the effectiveness of their diabetes control programs.

     A glucose test is based on the measurement of electrical current caused by the reaction of glucose with the FAD glucose dehydrogenase on the electrode of the strip. The blood or control solution sample is drawn into the tip of the test strip through capillary action. Glucose in the sample reacts with the FAD glucose dehydrogenase and generates electrons, which produce an electrical current. The Gold AQ Plus blood glucose meter measures the electrical current and calculates the glucose result. The glucose result is displayed by the meter in the unit of mg/dL or mmol/L.

 The Gold AQ Plus blood glucose test strip is intended to be used with the Gold AQ Plus blood glucose meter to measure the amount of blood glucose in fresh capillary whole blood or venous blood or arterial blood. The Gold AQ Plus blood glucose test strip used with the Gold AQ Plus blood glucose meter provides a complete test system that is intended for in vitro diagnostic use by people with diabetes. The Gold AQ Plus blood glucose test strip do not require coding. Please refer to the “Performing a Blood Glucose Test” section for complete instructions.

LUNULA nano  patent blood sample apply technology: 

Upon optimization of the quantity and positions of air exhausting microporous, the blood applying speed has been obviously improved.

1) 99.99% gold electrode, a conductivity of 1,400 times than carbon electrode.
2) With superior electrochemical property and extremely strong corrosion resistance.
3) Able to detect the blood sample temperature, HCT and ambient temperature accurately, and automatically correct the result deviations caused by above factors.