Blood glucose concentration for diabetic patients can reach levels of even up to 500 mg/dl.
Yes
-> diabetic shock
-> higher levels could lead to death
Diabetic patients can suffer from both too low and too high blood glucose levels.
For H2O2 determination in glucose biosensors, the resulting current is inversely proportional to the glucose concentration.
No
-> direct proportional for H2O2
-> inversely proportional for O2
Glucose biosensors of the 2nd generation enable a direct eletron transfer between the enzyme and the working electrode of the sensor chip.
-> 2nd generation works with mediator
-> direct transfer is possible for 3rd generation
The mediator in glucose biosensing will regenerate the enzyme into its oxidized form.
The mediator in glucose biosensing will regenerate the enzyme into its reduced form.
Coulometric and amperometric biosensors are both measuring a current as the sensor output signal.
-> coulometry measures the charge
For glucose biosensing (1st generation) H2O2 will be oxidized at -600 mV and O2 will be reduced at +600 mV.
For glucose biosensing (1st generation) H2O2 will be reduced at +600 mV and O2 will be oxidized at -600 mV.
For glucose biosensing (1st generation) H2O2 will be reduced at -600 mV and O2 will be oxidized at +600 mV.
For glucose biosensing (1st generation) H2O2 will be oxidized at +600 mV and O2 will be reduced at -600 mV.
For glucose biosensing (1st generation) a limited sensitivity is given due to the oxygen solubility in blood.
For glucose biosensing (1st generation) the influence of oxygen variation in blood can be compensated by a differential sensor set-up with an additional oxygen sensor.
Microcantilever sensors can be operated in static or dynamic deformation mode.
Microcantilever sensors utilize a change in the resonance frequency when read out in the static deformation mode.
-> dynamic deformation mode
-> static: whole structure bends, whe loaded with mass
Microcantilever sensors have a typical microcantilever dimensions of (L,W,H) of 100 μm, 20 μm, 1 μm.
Microcantilever sensors have a typical microcantilever dimensions of (L,W,H) of 500 μm, 1 μm, 0.5 μm.
Microcantilever sensors measure the deflection of the cantilever by optical or piezoelectric transducers.
-> piezoresistive not piezoelectric
Microcantilever sensors coat both sides of the cantilever with a receptor layer to increase sensitivity, especially when operated in the static deformation mode.
-> coat one side for static mode
-> for dynamic mode bothe sides can be coated
Mass-sensitive sensors utilize thickness shear vibration of surface acoustic wave propagation.
QCM is based on the inverse piezoelectric effect.
SAW sensors possess a higher overall sensitivity towards analyte molecules than QCM sensors.
-> sensitivity in fg
For Sauerbrey equation, there is a square dependency between frequency change and the concentration of the analyte.
-> linear relationship
In QCM, depending on the measurement mode, one or both sides of the resonator can be in contact with the analyte.
-> only one side is in contact with the analyte
For the detection of cells, surface imprinted polymers are preferred over molecularly imprinted polymers.
-> with surface imprinted polymers the cells are nearer to the sensor surface and the overall sensitivity is therefore higher
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