Abstract: We have found a counter-intuitive way to improve the commercial-scale production of recombinant biological products in adherent-cell bioreactors, which reduces the risk of cell culture contamination, increases total yield and reduces the delay between seeding and harvest, thus minimizing expression product degradation, by inter alia inoculating an adherent culture bioreactor with suspension-adapted producer cells.

Abstract: Anti-angiogenic gene therapy with a combination of soluble Vascular Endothelial Growth Factors (sVEGFR) improves the efficacy of chemotherapy with paclitaxel for reducing ovarian cancer mean tumor volume (in cubic millimetres) as measured using magnetic resonance imaging. The study groups were: AdLacZ control, combination of AdsVEGFR-1, -2 and -3, combination of AdsVEGFR-1, -2, -3 and paclitaxel, bevacizumab monotherapy, paclitaxel monotherapy and carboplatin monotherapy. Effectiveness was assessed by survival time and surrogate measures such as sequential MRI, immunohistochemistry, microvessel density and tumor growth. Antiangiogenic gene therapy combined with paclitaxel significantly prolonged the mean survival compared to the controls and all other treatment groups (p=0.001). Tumors of the mice treated by gene therapy were significantly smaller than in the control group (p=0.021). The mean vascular density and total vascular area were also significantly smaller in the tumors of the gene therapy group (p=0.

Abstract: We have modified a commercially-available adherent cell culture bioreactor, developing a new sampling manifold configuration and new way of taking samples to reduce contamination risk.

Abstract: We have modified a commercially-available adherent cell culture bioreactor in several ways to increase productivity of cultured cells, while decreasing contamination risk. We found that modifying a commercially-available adherent cell culture bioreactor to provide for slower cell culture medium flow unexpectedly and dramatically increases the productivity of the cultured adherent cells. We also developed a new sampling manifold configuration and new way of taking samples, to reduce contamination risk.

Abstract: We have found a counter-intuitive way to improve the commercial-scale production of recombinant biological products in adherent-cell bioreactors, which reduces the risk of cell culture contamination, increases total yield and reduces the delay between seeding and harvest, thus minimizing expression product degradation, by inter alia inoculating an adherent culture bioreactor with suspension-adapted producer cells

Abstract: The prior art largely suggests that immune competence in a cancer patient would destroy an antigenic viral vector before it transfects host cells with a transgene-rendering therapy futile. We surprisingly found the opposite is true: cancer patients with competent immune systems obtain the most therapeutic benefit from antigenic viral vector, apparently because the antigenic viral vector, apart from transfecting cells with a transgene, induces a humoral immune response, which in turn attacks cells bearing cancer antigen. Our new therapy works particularly well in combination with cytotoxic chemotherapeutic drugs.