Tag: <span>scalability</span>

Cell therapy has emerged as a promising technology that involves implanting live cells to replace/repair and restore normal function of damaged tissue. Autologous chondrocyte implantation (ACI) has been proven effective for the regeneration of articular cartilage in defective cartilage tissue. The process starts with the collection of healthy tissue from an eligible patient, then isolation and expansion of desired cells in vitro under good manufacturing practice (GMP) conditions, qualification before release of the final cell product, and finally, implantation into the patient. The promise to deliver autologous cell therapies has its own challenges in robust and reproducible manufacturing. To commercialize a cell therapy, it is imperative that a robust and scalable manufacturing process is set up that is consistent, in terms of quality and quantity, in order to deliver the intended therapeutic effect.

We analysed the manufacturing parameters of over 100 cartilage samples that were used to deliver our proprietary, commercialized autologous cell therapy. The paper addresses the most cited challenges in the manufacturing of autologous cell therapies and describes a robust process of in vitro human chondrocyte cell culture. Also included are key factors in manufacturing for attaining a high-quantity and quality product for articular cartilage regeneration.

Cell & Gene Therapy Manufacturing

Process characterization using qualified scale-down models (SDM) offers time and resource-saving advantages to companies developing biotherapeutics. Current approaches with glass benchtop bioreactors as SDMs have demonstrated the ability to predict process performance and product quality, but are throughput- limited by infrastructure that requires significant operational input, as well as large volumes of media and reagents. In this article, the Sartorius Stedim Biotech ambrĀ®250 high-throughput, single-use mini bioreactor system will be discussed for its suitability as an SDM for process characterization.

Biologics Production

A rapid increase in the number of gene therapy trials and products has led to a comparable increase in the need for industrial production of viral gene therapy vectors such as lentiviral, adeno-associated, and adenoviral vectors. Current production systems are limited with respect to scalability and robustness. With our CAPĀ® and CAP-Tā„¢ cell lines, we have developed a novel system for high-density suspension culture, efficient and reproducible transfection, and highly efficient production of viral vectors. By upstream process optimization, we have obtained a robust and high-density fed-batch culture system which can be scaled in any current bioreactor format. A design-of-experiments approach has been employed to optimize transient production of lentiviral vectors with significantly higher titers than can be obtained with adherent HEK293T cells…

Biologics Production Cell & Gene Therapy

The efficacy of pharmaceuticals, nutraceuticals, and cosmeceuticals depends not only on the chemical composition of the active ingredients, but also on the formulation of the product and the method of delivery. Nanoemulsionsā€”formulations that encapsulate drug or nutrient molecules in sub-micron-sized oil droplets suspended in waterā€”have been found to increase the rate and level of absorption into the body, and offer other benefits including the mitigation of side-effects as well as an antiviral and antibacterial action. With an emulsifier layer surrounding the droplet, nanoemulsions exhibit high levels of stability for extended periods of six months or moreā€¦

Research

The number of viral vectors designed for gene therapy applications in the cGMP pipeline is staggering. Similar in scope to the flurry of recombinant protein products of the 1980s and the monoclonal antibodies (MAbs) of the 1990s, viral vector-based products are surging from research labs and universities into contract manufacturing organizations (CMOs), ultimately destined for use in clinical trials. Unlike recombinant proteins and MAbs, both of which sometimes require grams of vialed final product to start Phase I studies, the amount of material required to move a viral vector-based product into clinical trials can be minute in comparison. Of all the viral vectors currently in clinical trials, more than 25% are based on adenovirus…

Cell & Gene Therapy Viral Vectors

Poliovirus is a small (28-30 nm diameter) non-enveloped RNA virus belonging to the family Picornaviridae. The ability of poliovirus to cross the blood-brain barrier and its natural infectivity of central nervous system (CNS) tissue via the CD155 receptor, found exclusively in primates, has promoted the investigation of an attenuated poliovirus for the treatment of malignant gliomas. However, use of the virus in clinical testing is limited due to low yields obtained from conventional purification methodologies…

Biologics Production

With the advent of the first gene therapy product to market, the industry faces the challenge of mass-producing high-purity viral particles and plasmids. The concept of manufacturing therapeutic genes rather than therapeutic proteins as marketable products is still in its infancy. Although manufacturers of biopharmaceuticals have decades of experience in the purification of proteins, virus and plasmid products pose unique challenges that cannot be addressed without some modifications to traditional, protein-based approaches…

Biologics Production Cell & Gene Therapy Viral Vectors

Total market share of biopharmaceuticals is estimated to increase from $33 billion now to more than $45 billion in 2007. These numbers are accounted for by the 64 products approved by European and US regulators and some of the 500 products currently under clinical evaluation. More than 2,000 products are in discovery and preclinical development. Monoclonal antibodies (MAbs) and recombinant glycoproteins constitute a major part of these new biotech leads. The estimated demands for MAbs alone are more than 6,000 kg per year in 2006. Currently, 16 MAbs are licensed by the U.S. Food and Drug Administration (FDA) for pharmaceutical use and more than 130 are in clinical trials. This fast-growing class of biotherapeutics is expected to reach worldwide sales of more than $15 billion per year in 2008. In the coming years, mammalian cell culture technology will remain the production system of choice for MAbs and other recombinant glycoproteins. Therefore, efficient, cost-effective production systems need to be in place to meet the demands…

Biologics Production Manufacturing

Canadaā€™s lead in biotechnology, and biotechā€™s rising influence, is providing a ā€œsecond chanceā€ at establishing a leading role in the global pharmaceutical industry. Half of all the new drugs approved by FDA are biologics. Why does that equate to a ā€œsecond chanceā€? Well, with the skills, knowledge and physical manufacturing processes so completely different from the chemical synthesis of drug manufacture, the global pharma industry is ā€œre-toolingā€ both its people and its facilities. Canada has the opportunity to leverage its leading biotech position to propel the biopharmaceutical industry forward in the changing landscape…

Manufacturing

Across many areas of biopharmaceutical development, the goal of consistently transfecting appropriate quantities of DNA into cells has often been a significant bottleneck. Electroporation ā€” a method of temporarily permeabilizing cell membranes by using a short electric pulse ā€” has gained ground in recent years as an effective means of transfection. A cell loading system based on electroporation has been designed for ex vivo cell modification in a clinical setting and for incorporation into cGMP processing applicat

Biologics Production