J.-P. Ramseyer scite author profile

We demonstrate continuous label-free detection of two cardiac biomarker proteins (creatin kinase and myoglobin) using an array of microfabricated cantilevers functionalized with covalently anchored anti-creatin kinase and anti-myoglobin antibodies. This method allows biomarker proteins to be detected via measurement of surface stress generated by antigen-antibody molecular recognition. Reference cantilevers are used to eliminate thermal drifts, undesired chemical reactions and turbulences from injections of liquids by calculating differential deflection signals with respect to sensor cantilevers. The sensitivity achieved for myoglobin detection is below 20 µg ml −1 . Both myoglobin and creatin kinase could be detected independently using cantilevers functionalized with the corresponding antibodies, in unspecific protein background. This approach permits the use of up to seven different antigen-antibody reactions simultaneously, including an additional thermomechanical and chemical in situ reference. Applications lie in the field of early and rapid diagnosis of acute myocardial infarction.

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A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout

Battiston

Ramseyer

Lang

et al. 2001

Sensors and Actuators B: Chemical

427

237

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A cantilever array-based artificial nose

Baller¹,

Lang²,

Fritz³

et al. 2000

Ultramicroscopy

332

203

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An artificial nose based on a micromechanical cantilever array

Lang

Baller

Berger

et al. 1999

Analytica Chimica Acta

288

168

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Sequential position readout from arrays of micromechanical cantilever sensors

et al. 1998

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Sequential position readout from a microfabricated array of eight cantilever-type sensors ͑silicon technology͒ is demonstrated. In comparison with single sensors we find that mechanical disturbances from noise, such as from vibrations, turbulent gas flow, or abrupt pressure changes, can be effectively removed in array sensors by recording difference signals with respect to reference cantilevers. We demonstrate that chemically specific responses can be extracted in a noisy environment using a sensor to detect specific chemical interactions and an uncoated cantilever as reference.

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J.-P. Ramseyer

Label-free protein assay based on a nanomechanical cantilever array

A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout

A cantilever array-based artificial nose

An artificial nose based on a micromechanical cantilever array

Sequential position readout from arrays of micromechanical cantilever sensors

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