SPR biosensing coupled to a digital microfluidic microstreaming system.

This article reports on a proof-of-concept system composed of a droplet based surface plasmon resonance (SPR) system coupled to a surface acoustic wave (SAW) microfluidic plateform. It is now well established that surface based binding analyses such as SPR are highly influenced by the transport of analyte to the sensing surface. Further, obtaining reliable equilibrium in flow cells to realize quantification studies is not straightforward.

Reversible electrowetting on superhydrophobic silicon nanowires.

This paper reports for the first time on the reversible electrowetting of liquid droplets in air and oil environments on superhydrophobic silicon nanowires (SiNWs). The silicon nanowires were grown on Si/SiO2 substrates using the vapor-liquid-solid (VLS) mechanism, electrically insulated using 300 nm SiO2, and hydrophobized by coating with a fluoropolymer C4F8. The resulting surfaces displayed liquid contact angle (Theta) around 160 degrees for a saline solution (100 mM KCl) in air with almost no hysteresis.

Integrated microfabricated systems including a purification module and an on-chip nano electrospray ionization interface for biological analysis.

We report here on an integrated microfabricated device dedicated to the preparation of biological samples prior to their on-line analysis by electrospray ionization-mass spectrometry (ESI-MS). This microfluidic device is fabricated using the negative photoresist SU-8 by microtechnology techniques. The device includes a chromatographic module plus an ESI interface for MS.

Monoliths for microfluidic devices in proteomics.

We report here on the preparation of monolithic capillary columns in view to their integration in a microsystem for on-chip sample preparation before their on-line analysis by electrospray and mass spectrometry (ESI-MS). These monolithic columns are based on polymer materials and consist of reverse phases for peptide separation and/or desalting. They were prepared using lauryl methacrylate (LMA), ethylene dimethacrylate (EDMA) as well as a suitable porogenic mixture composed of cyclohexanol and ethylene glycol.

Microwave thermochemotherapy in the treatment of the bladder carcinoma--electromagnetic and dielectric studies--clinical protocol.

Microwave thermotherapy is currently used in clinical routines for benign prostatic hyperplasia treatments. The temperature increase is obtained using an endocavitary microwave applicator placed in the prostatic urethra. This urethral applicator after a technical modification can be placed inside the bladder in order to potentiate the effects of the treatment by chemotherapy of vesical carcinoma.

New 434 MHz interstitial hyperthermia system monitored by microwave radiometry: theoretical and experimental results.

A new complete microwave interstitial hyperthermia system monitored automatically by microwave radiometry and working at 434 MHz is described in this paper. This system, which includes a new radiometer with two internal temperature references, is detailed. All its characteristics for microwave heating and radiometry are presented.

915 MHz microwave interstitial hyperthermia. Part III: Phase II clinical results.

From October 1989 to October 1991, 16 patients (17 tumours) with locally advanced carcinomas of the oral tongue and eight patients with second carcinomas of the base of tongue in previously irradiated areas, have been treated by means of an interstitial hyperthermia-brachytherapy combination in a phase II clinical trial. Each miniature microwave antenna of our hyperthermia system, called HIMCAR, is used both for heating and for thermal measurements by microwave radiometry at 3 and 9 GHz (see Part I). Among these 25 lesions (21 T2, 4 T3), 21 showed a complete response (15/17 locally advanced carcinomas and 6/8 second carcinomas in previously irradiated areas).

915 MHz microwave interstitial hyperthermia. Part II: Array of phase-monitored antennas.

In order to heat the whole volume of a tumour by microwave interstitial hyperthermia it is necessary to use an antenna array. The antenna modelization and the numerical solution of the bidimensional bioheat transfer equation allow determination of temperature evolution during a heating session. The calculations are taken for four antennas fed in phase and the theory is then proven by experiments on gel and on patients.

915 MHz microwave interstitial hyperthermia. Part I: Theoretical and experimental aspects with temperature control by multifrequency radiometry.

Microwave interstitial hyperthermia now plays an increasing part in the various hyperthermia techniques used in cancer treatment. This paper will present the design, construction and theoretical as well as experimental study of miniature coaxial antennas designed to heat tumours of various volumes and sizes. Monitoring temperature using multifrequency radiometry during hyperthermia stems naturally from the very design of these antennas.