The elasticity of human oocytes has been estimated by means of a very simple SU-8 microsystem. The device consists of a double SU-8 layer spin coated on a silicon wafer. A micro-beam is patterned by standard photolithography. The silicon wafer is back etched using deep reactive ion etching (DRIE) in order to release the micro-beam. Because the SU-8 resin exhibits a very low Young modulus, beams with stiffnesses of 12 N/m have been easily fabricated. Although the stiffness is not as low as that of Atomic Force Microscopes cantilevers, it was possible to estimate the "deformation-load" characteristics of a few oocytes. A "flattening parameter" of the oocytes is proposed as a function of the applied load and experimental values range from 0.86 microm(2)/Pa to 3.4 microm(2)/Pa for the oocytes under test. Note that this paper belongs to the very few communications concerning the mechanical behaviour of human oocytes.
We report Gold/Silica biochips for low cost biosensor devices. Firstly, the study of biochemical interactions on silica by means of Surface Plasmon Resonance (SPR) is presented. Secondly, Gold/Silica biochips are employed to reduce the strong quenching that occurs when a fluorophore is close to the gold surface. Furthermore, the control of the Silicalike thickness allows optimizing the distance between the metallic surface and the fluorophore in order to enhance the fluorescent signal. These results represent the first steps towards highly sensitive, specific and low cost biosensors based, for example, on Surface Plasmon Coupled Emission (SPCE) techniques.
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