Lab-on-a-brane for spheroid formation.

Lab-On-a-Brane (LOB) represents a class of Lab-On-a-Chip (LOC) integrating flexible, highly gas permeable and biocompatible thin membranes (TMs). Here we demonstrate the potentiality of LOBs as cell biochips promoting 3D cell growth. The human cancer cells MCF-7 were cultured into standard multiwells (MWs) and into polydimethylsiloxane (PDMS) MWs, LOCs, and LOBs of different wettability. Surface treatments based on oxygen plasma and coating deposition have been performed to produce hydrophilic, hydrophobic, and oleophobic chips. By a comparison between all these chips, we observed that 3D cell aggregation is favored in LOBs, independent of substrate wettability. This may be attributed to the TM flexibility and the high oxygen/carbon dioxide permeability. Ultimately, LOBs seem to combine the advantages of LOCs as multi-well microfluidic chips to reduce operation time for cell seeding and medium refresh, with the mechanical/morphological properties of PDMS TMs. This is convenient in the perspective of applying mechanical stimuli and monitoring cell stiffness, or studying the metabolism of molecules permeable to PDMS membrane in response to external stimuli with interesting outcomes in cellular biology.

Fast and safe microwave-assisted glass channel-shaped microstructure fabrication.

Glass micromachining is a basic technology to achieve microfluidic networks for lab-on-a-chip applications. Among several methods to microstructure glass, the simplest and most widely applied is wet chemical etching (WE). However, accurate control of the reaction conditions to perform reproducible, fast and safe glass etching is not straightforward. Herein, microwave-assisted WE is demonstrated to intensify the glass etching action under safe working and finely monitored operative conditions and to produce smooth deep channels in short processing times with reduced underetching effects.

Catalytic oxygen production mediated by smart capsules to modulate elastic turbulence under a laminar flow regime.

Liquid flow in microchannels is completely laminar and uniaxial, with a very low Reynolds number regime and long mixing lengths. To increase fluid mixing and solubility of reactants, as well as to reduce reaction time, complex three-dimensional networks inducing chaotic advection have to be designed. Alternatively, turbulence in the liquid can be generated by active mixing methods (magnetic, acoustic waves, etc.) or adding small quantities of elastic materials to the working liquid. Here, polyelectrolyte multilayer capsules embodying a catalytic polyoxometalate complex have been suspended in an aqueous solution and used to create elastic turbulence and to propel fluids inside microchannels as an alternative to viscoelastic polymers. The overall effect is enhanced and controlled by feeding the polyoxometalate-modified capsules with hydrogen peroxide, H2O2, thus triggering an on-demand propulsion due to oxygen evolution resulting from H2O2 decomposition. The quantification of the process is done by analysing some structural parameters of motion such as speed, pressure, viscosity, and Reynolds and Weissenberg numbers, directly obtained from the capillary dynamics of the aqueous mixtures with different concentrations of H2O2. The increases in fluid speed as well as the capsule-induced turbulence effects are proportional to the H2O2 added and therefore dependent on the kinetics of H2O2 dismutation.

Home rehabilitation for brain tumor patients.

UNLABELLED: To determine whether a program of post-discharge rehabilitation at home for patients operated for brain tumor was associated with functional gain and improvement in Quality of Life (QoL). One hundred and twenty-one patients affected by malignant brain tumor were enrolled in a program of post-discharge home care including neurorehabilitation. Functional outcome was evaluated with Barthel Index (BI) and Karnofsky Performance Status (KPS) measured before and after rehabilitation. The impact of rehabilitation on quality of life was evaluated with a quality of life questionnaire (EORTC QLQ-C30-BM 20). RESULTS: Barthel Index improved in 47 (39%) patients, was stable in 20 (16%) and worsened in 54 (44%). Only 54 patients completed the QoL questionnaire before and after treatment. After three months of rehabilitation, 72% of patients were found to have an improvement in at least one domain score compared with their baseline QoL scores. Rehabilitation at home in brain tumor patients was associated with significant functional gain measured both with BI and KPS. The benefit of rehabilitation may influence patient's perception of quality of life.