It can be said that 2014 was the year of genomics. The industry saw several new startups in the area, and Google's venture into the genomics market made a big splash. However, in 2015 the industry is expected to look beyond genes and focus on a dual approach to drug development leveraging data from both the genes and the tissue, particularly in oncology.
Tapping Into Metabolites To Overcome R&D Challenges And Develop Novel Biomarkers: Part 1
As we continue to strive to mine the genome for clues that can assist in understanding susceptibility to disease, selection of better targets for combating disease, and the biomarkers delineating response, a key source of data that can either lead or strengthen this pursuit is not always part of this equation. So what is this data and why would one ever exclude it?
At Ferring Pharmaceuticals, Peptides And Proteins Make Significant Advances
Dr. Keith James joined Ferring Pharmaceuticals as VP of Therapeutic Innovation in early 2012. In December 2012 he was promoted to president of the Ferring Research Institute and SVP of R&D for Ferring Pharmaceuticals. Prior to joining Ferring, Dr. James spent 29 years working for Pfizer, with significant time spent in discovery research. At the 2013 Oligonucleotide & Peptide Based Therapeutics Congress he will speak on recent progress and future prospects in the peptide and protein therapeutic space. I recently spoke with Dr. James to get an overview of the potential in this market.
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Scale-Up Of Microbial Fermentation Using Recombinant E. Coli
Fermentation production facilities can utilize the Thermo Scientific™ HyPerforma™ Single-Use Fermentor (S.U.F.) instead of traditional stainless steel cleaning-in-place/ sterilization-in-place (CIP/SIP) fermentor vessels without modifying their existing procedures.
Adaption Of The BioLector Technology To Anaerobic Requirements
Biorefineries have reignited interest in anaerobic fermentations with biobutanol production being the principle driver. Already during the First World War Biobutanol and acetone were produced in Clostridium acetobutylicum.
Batch Culture Of CHO Cells In The Multifors Cell
The Multifors Cell can be used to easily optimise development processes by parallel cultivation of animal cell cultures. Cultivation of the CHO (Chinese hamster ovary) cell line in the Multifors Cell bioreactor (INFORS HT, CH-Bottmingen) is described in the following as an example of batch cultivation of parallel samples.
Skip Steps In Cell Culturing
With Cell Culture Flask Adapters, the culture can be centrifuged directly in the flask. Data illustrates that cell yield, cell viability, and endpoint analysis results are comparable when cell cultures are processed traditionally or centrifuged directly in the flask using Cell Culture Flask Adapters.
Capture And Purification Of Recombinant Albumin Fusion Proteins Using AlbuPure®
Human serum albumin (HSA) has a vast array of applications within the BioPharmaceutical industry including; plasma expansion, formulation excipient, drug delivery, wound healing as well as extending the half-life of a protein drug as a fusion partner.
Better Characterization of Biomolecules Using Agilent AdvanceBio Reversed-Phase Columns
Reversed-phase (RP) is one of the three key techniques used in biochromatography and is particularly valuable because of its compatibility with LC/MS detection. And small particle improvements, such as those found in Agilent ZORBAX RRHD 300A, 1.8 um columns, make RP an attractive choice for many biopharmaceutical applications.
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Biologics Research Promises To Bolster Future Of Medicine
America's biopharmaceutical companies are using biological processes to develop 907 medicines and vaccines targeting more than 100 diseases, according to a new report released today by the Pharmaceutical Research and Manufacturers of America (PhRMA).
Baxter Initiates Phase I Clinical Trial With Anti-MIF Antibody In Patients With Solid Tumors
Baxter International Inc. has begun dosing patients with malignant solid tumors in a Phase I clinical trial of a monoclonal antibody, representing the company’s efforts to extend its oncology portfolio with advanced biological research and development.
Lilly's Anti-IL-17 Monoclonal Antibody, Ixekizumab, Met Primary Endpoint In Phase II Study In Patients With Chronic Plaque Psoriasis New Phase II data, published today in the New England Journal of Medicine, showed that Eli Lilly and Company's (NYSE: LLY) ixekizumab (pronounced ix" e kiz' ue mab, previously known as LY2439821), an anti-IL-17 monoclonal antibody, met its primary endpoint in patients with moderate-to-severe plaque psoriasis, with significantly more patients achieving at least a 75 percent improvement in Psoriasis Area and Severity Index (PASI) scores from baseline (PASI 75) compared with placebo at week 12.
Argen-X Launches NHance™ Technology To Generate Better Human Antibody Therapies arGEN-X announces today the launch of NHance™, its latest cutting-edge technology enabling the creation of truly differentiated human antibody therapeutics.
Roche´s MagNA Pure LC 2.0 System For Monitoring DNA In Therapeutic Proteins And Monoclonal Antibody Drugs To ensure product safety, clearance of host-cell DNA is essential when manufacturing therapeutic proteins and monoclonal antibody (mAB) drugs.
Xencor Receives U.S. Patent For Monoclonal Antibody Engineering That Extends Duration Of Action Xencor, Inc., a company using its proprietary Protein Design Automation® (PDA) platform technology to engineer next-generation antibodies, announced today that the U.S. Patent and Trademark Office has issued Xencor a broad patent covering optimized monoclonal antibody variants and their application for extending in vivo half-life of antibodies.
DSM Expands Its Innovative Biomanufacturing Technology Portfolio With The Introduction Of The New Kremer Method™ Royal DSM, the global Life Sciences and Materials Sciences company, today announced the introduction of the Kremer Method™, an innovative proprietary technology developed by DSM scientists which improves downstream processing of monoclonal antibodies (mAbs) for faster and more cost effective production of biopharmaceuticals.
Cell culture is a complex, highly structured process for growing cells, under strictly controlled conditions, outside of their normal environment. Cell cultures stilluse cultures of cells on flat plastic dishes.
This is referred to as two-dimensional (2D) cell culture. Aside from using Petri dishes for growing cells, scientists have for a long time, grown cells within biologically-derived matrices such as collagen or fibrin.
Today, more and more 3d cell cultures are being used because they more closely resemble the in vitro cell growth environment. Most 3d cell cultures in use today are designed for stem cell research, tissue engineering and drug discovery. As the field continues to grow and expand, 3d cell culture availability will likely expand to include other cell culture related fields.
For non-adhesive cells suspension cell cultures are used. In these cultures a cell is placed in the liquid suspension, stirred with a magnetic stirrer to agitate the cell and make it float freely in the suspension. The cell grows, divides and spreads throughout the suspension.
Cell culture refers to the culturing of cells derived from multi-cellular eukaryotes (cells with a nucleus), primarily animal cells. However cell cultures also exist for plants, fungi and microbes that include viruses, bacteria and microorganisms. Cell culture shares closely related methodology with tissue culture and organ culture.
You can separate cells from tissues for use in cultures several ways. Cells can be purified from blood but only white cells will grow in a culture. Mononuclear cells can be released from soft tissue using enzymes that break the cells away from their substrate or matrix. Pieces of tissue can also be placed in a growth media and the cells that grow from it can be used for cell cultures.