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Freeslate’s Biologics Formulation System Selected by Sanofi Pasteur to Improve Efficiency of Formulation Development

21 Aug 2013
Sarah Thomas
Associate Editor

Product news

Freeslate, Inc., the leading provider of high throughput research solutions, today announced that Sanofi Pasteur, the vaccines division of Sanofi, has purchased Freeslate’s Biologics Formulation System, a comprehensive solution for accelerating research in vaccine and protein formulation development. The system automates sample preparation, sample stressing, and formulation analysis, allowing for the development of stable, robust formulations significantly faster with reduced API consumption.

Based on the Freeslate Core Module 3 (CM3) automation platform, the Biologics Formulation System combines liquid dispense and controlled heating/cooling/mixing with new automated measurements of pH, viscosity, and particle counting. Integrated by Freeslate’s Lab Execution and Analysis (LEA) software suite, the system provides intuitive experiment design and allows for the control and data integration of a range of third party analytics including Dynamic Light Scatter (DLS), UV/VIS plate readers, and High Pressure Liquid Chromatography (HPLC), maximizing R&D productivity.

“We are excited to be selected by a global leader in vaccines and are pleased they recognize the value our tools bring to the advancement of formulation development,” said John S. Senaldi, President and CEO of Freeslate. “As demonstrated by the adoption of our systems in Europe and across the globe, combinatorial approaches to vaccine formulation development can significantly accelerate productivity.”

Freeslate has built strong capabilities around automated solutions addressing the complex problems of drug development. The company’s products enable customers to better manage capacity by performing and assessing formulations, minimize later stage reformulations by exploring a broader analytical space early in development, and manage data from orthogonal analytics to help drive informed decision making.

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UHPLC and HPLCHigh performance liquid chromatography (HPLC) and ultra high performance liquid chromatography (UHPLC), also known as UPLC, are analytical techniques used to separate, identify and quantitate components of complex mixtures including biological samples such as proteins and lipids as well as chemical mixtures of pesticides, drugs and oils. Both techniques are liquid chromatographic methods but differ by operating pressures (HPLC < 6000 psi < UHPLC ). Components of HPLC and UHPLC systems include columns, detectors, pumps, autosamplers and column heaters. Explore a range of UHPLC and HPLC columns for your specific sample needs including reverse phase, normal phase, ion exchange, HILIC, ion exclusion and size exclusion columns. For more specialized HPLC, explore FPLC, countercurrent LC and simulated moving bed systems. Find the best UHPLC and HPLC equipment in our peer reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.UV-Visible SpectroscopyUltraviolet-visible (UV-Vis) spectrophotometers are used to measure the interaction of UV and visible light with a sample, including transmission, reflectance & absorbance. The two major instrument classes are single-beam or double-beam spectrophotometers. More specialized equipment includes colorimeters, spectroradiometers and refractometers. Portable and microvolume spectrophotometers are also available. For the modular spectroscopy lab, explore a range of light sources for combination with a spectrograph/spectrometer and optics. Find the best UV-Vis spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Combinatorial ChemistryCombinatorial chemistry, also known as combichem, is a technique used in drug discovery to create libraries of structurally related compounds. A library is generated by synthesis with a chemical reactor system or by computer-based modeling of compound combinations. When undertaking combinatorial chemistry consider reagents, buffers, resins and standards.ProteomicsProteomics is the systemic bioinformatics study of proteins and amino acids, including their structure, size, function and identification. Tools used in proteomics include chromatography, blotting and gels, protein arrays, mass spectrometry and ELISA and associated analysis software. Analyzers and proteomic systems should be sensitive, high resolution, fast and may be automated for high-throughput.Biopharmaceutical AdvancesBiopharmaceutical advances follow the development of pharmaceuticals derived from biotechnology, also known as biotechnology medicines. Biopharmaceuticals may be produced from cell lines, plants, or microbial cells. Important considerations of biopharmaceutical use include application, cost, production process and purification.Robotic InstrumentsRobotic instruments can be used for high-throughput automation of many lab processes. Such processes use instruments for assays like cell based assays and ELISA, for sample preparation like shakers, centrifuges and incubators, and for analysis such as sequencing and western blot analyzers. Useful features of robotic instruments include speed, reproducibility, barcode readers, software and automation.Robotic WorkstationsRobotic workstations are automated platforms enabling the user to perform high-throughput, multi-application processes, from sample preparation tasks such as PCR set-up, DNA purification and NGS library preparation, to integrated sample prep and analysis workstations. Automation makes processes consistent, fast, precise and fully walk-away. Find the best robotic workstations in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Software PlatformsSoftware platforms are useful for various stages of laboratory experiments from data collection to data storage and processing. For instance lab software is available for system control, data management, data analysis and qualification / validation.AutomationAutomation in laboratories and manufacturing processes enhances efficiency, precision, and scalability by reducing the need for manual intervention. It plays a critical role in improving productivity, minimizing human error, and accelerating workflows in fields like diagnostics, drug development, and industrial testing. Automation technologies include robotic systems, automated liquid handlers, and process control systems that streamline complex tasks and ensure consistent, reproducible results. Explore our peer-reviewed product directory to discover the best automation solutions, compare options, read user reviews, and get prices directly from manufacturers.Vaccine DevelopmentVaccine development focuses on creating immunizations to protect against infectious diseases. The process involves identifying antigens, developing and testing vaccine efficacy, and ensuring safety through preclinical testing and multiple clinical trial phases. Scientists use various approaches, including weakened or inactivated viruses, protein subunits, or mRNA. Advanced platforms and rapid diagnostic tools aid in vaccine research and testing. Explore vaccine development solutions in our peer-reviewed product directory; compare products, read reviews, and get pricing directly from manufacturers. BiologicsBiologics are medical products derived from living organisms, including vaccines, gene therapies, and monoclonal antibodies. These treatments are key to modern healthcare, especially in oncology and autoimmune diseases. Explore biologics research tools in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.

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