Microfluidics technology for drug delivery: A review.

Microfluidics is undoubtedly an influential technology that is currently revolutionizing the chemical and biological studies by replicating laboratory bench-top technology on a miniature chip-scale device. In the area of drug delivery science, microfluidics offers advantages, such as precise dosage, ideal delivery, target-precise delivery, sustainable and controlled release, multiple dosing, and slight side effects. These advantages bring significant assets to the drug delivery systems. Microfluidic technology has been progressively used for fabrication of drug carriers, direct drug delivery systems, high-throughput screening, and formulation and immobilization of drugs. This review discusses the recent technological progress, outcomes and available opportunities for the usage of microfluidics systems in drug delivery systems.

Evaluation of changes in promoters, use of UCOES and chain order to improve the antibody production in CHO cells.

Therapy with biopharmaceuticals, mainly recombinant antibodies, offers patients higher life expectancy and better life quality than pharmacologic therapy. Countries with the highest scientific development are investing in this kind of therapy, and this is why the optimization of the production of these recombinant proteins would lead to their higher production and lower costs of the final product. Modifications in the use of promoters, the use of recombination regions, and the change in the order of the chains, are some of the genetic engineering changes that can increase the production of recombinant antibodies. In this work, three different promoters were tested: Prom A, hCMV, and EF1-a, for two different antibodies, one anti-TNFa and one anti-CD20+. Changes were made in the order of the chains H-L or L-H and one or two UCOE (ubiquitous chromatin opening element) sequences were also used to identify the combinations that provide the best transient and stable expression for the antibodies in the CHO-s cells. In our results, we observed that the use of the two UCOE regions, with L-H order is almost three times better for the expression of the two different antibodies, while the strength of the promoter is conditioned by the sequence of each expressed protein.