Impact of immunotherapy with pseudomonas serotip xv etanolic extract (Cantastim) on local recurrence and survival at 3 and 5 years in operated rectal cancer

Although most recurrences (approximately 80%) occur in the first three years after a curative resection, a recurrence of CRC can occur even ten years after the initial curative resection (dormant spread of cancer cells). Immunotherapy is an emerging therapy with high potential. The immune system plays a major role in the development of CRC. This has led to innovative new therapies, such as cancer vaccines and T-cell stimulation therapies. Cantastim belongs to the class of nonspecific immunostimulators or immunomodulators, most of which are of bacterial origin and are used as mono- or polymicrobial suspensions. Cantastim is an ethanolic extract obtained from a pathogenic strain of Pseudomonas aeruginosa serotype XV. The beneficial effect of immunotherapy with Cantastim was more pronounced for the local developmental stages (I and II) than for the later stages

One-pot synthesis of superabsorbant hybrid hydrogels based on methacrylamide gelatin and polyacrylamide: effortless control of hydrogel properties through composition design

BiocompatibLe methacryLamide-modified geLatin (GELMA) hydrogeLs with tuned characteristics, obtained through network-forming photopoLymerization, have recenty attracted increasing attention due to their wide range of possibLe appLications such as drug reLease, tissue regeneration and generation of bioartificiaL impLants. Due to the controlled number of C=C bonds, GELMA may simuLtaneousLy act as macromonomer and crossLinker Leading through poLymerization to hydrogeLs with rationally designed performances. This study provides effortess one-pot synthesis of hybrid hydrogeLs based on covaLenty Linked GELMA and poLyacryLamide (PM), using photo-induced network-forming poLymerization. ConventionaL synthesis of simiLar hydrogeLs Leads to interpenetrating geLatin and PAA networks, usually invoLving muLtistep crossLinking of the components and the use of toxic crossLinkers. Through the described one-pot chemistry, the synthetic water superabsorbent PM with its well-recognized advantages can rationally benefit from the high biocompatibiLity and cell-adherence of GELMA in a simpLe covaLent way. This work provides a correLation between the composition and the corresponding hydrogeL properties (incLuding swelling, pH influence, mechanicaL behaviour, abiLity to generate porous scaffoLds, enzymatic degradation). The addition of PM moduLated the network density and the water affinity allowing the controL of eLasticity and degradabiLity. SuppLementary crossLinking of the synthetic component provided additionaL controL over hydrophiLicity. The capacity of such hydrogeLs to generate porous scaffoLds was proved; interesting morphoLogies were deveLoped onLy by varying the composition. In vitro ceLLuLar studies indicated that the presence of GELMA conferred controlled cell-affinity properties to the bicomponent hydrogeLs. NevertheLess, the drug reLease potentiaL of such hydrogeLs was preLiminarlly investigated using sodium nafcillin. GELMA PM hydrogeLs may be usefuL for tissue regeneration due to effortess synthesis, compositionaL flexibiLity and variabLe properties

Organic field effect transistor OFET optimization considering volume channel conduction mechanism

International audienceThe main contribution of this paper is to highlight a new work regime of an optimised organic field effect transistor (OFET) respectively volume channel mode. If the device comprises a vertical n + p junction on insulator, the longitudinal conduction can be deviated by two gates. The carriers rejection from surface deep into the volume is limited by the metallurgical junction, via the top, bottom gates and deep contacts for source and drain. In respect with the electrodes biasing, a new work regime is defined. The conduction is allowed by a volume n-channel, for both negative gate voltages, with the advantage of interface conduction avoiding. A current density of 1.45μA/cm2 occurs in this situation for usual biasing. After the final analysis, a distinct device function is encountered - transistor with volume channel. The situation is analysed versus the traditional OFET case with neutral or accumulation channels

Dielectrophoretic and Electrical Impedance Differentiation of Cancerous Cells Based on Biophysical Phenotype

Here, we reported a study on the detection and electrical characterization of both cancer cell line and primary tumor cells. Dielectrophoresis (DEP) and electrical impedance spectroscopy (EIS) were jointly employed to enable the rapid and label-free differentiation of various cancer cells from normal ones. The primary tumor cells that were collected from two colorectal cancer patients, cancer cell lines (SW-403, Jurkat, and THP-1), and healthy peripheral blood mononuclear cells (PBMCs) were trapped first at the level of interdigitated microelectrodes with the help of dielectrophoresis. Correlation of the cells dielectric characteristics that was obtained via electrical impedance spectroscopy (EIS) allowed evident differentiation of the various types of cell. The differentiations were assigned to a “dielectric phenotype” based on their crossover frequencies. Finally, Randles equivalent circuit model was employed for highlighting the differences with regard to a series group of charge transport resistance and constant phase element for cancerous and normal cells