CELL AND GENE THERAPY
CSL Plasma | March 11, 2022
CSL Plasma, a division of global biotherapeutics pioneer CSL Behring, announced the Rika Plasma Donation System created by Terumo Blood and Cell Technologies, a medical technology company based in Lakewood, Colorado, has received regulatory approval.
The new plasmapheresis system is expected to provide technologies to support a safe, efficient, and better experience for plasma donors and an improved experience for CSL Plasma personnel, according to Terumo Blood and Cell Technologies.
Additional characteristics of the new Rika system, according to CSL Plasma, will allow for the collection of more plasma in less time, hence improving quality and safety and, in turn, better serving patients who rely on plasma-based therapies. These advantages include:
On average, Rika completes one plasma collection in 35 minutes or less: Compared to previous average CSL Plasma donation timings, this might mean a nearly 30% reduction in donor donation time.
It assures that no more than 200 milliliters of blood are ever removed from the donor's body. This is believed to make the donor more comfortable during the donation process and lessen the risk of red cell loss deferral.
It has a sophisticated user interface that helps CSL Plasma front-line personnel operate the equipment.
This milestone helps bring to life how we demonstrate innovation, collaboration, and patient-focus, part of the CSL Values that underpin our commitment to manufacturing and delivering life-saving and life-extending medicines around the world, We continue to evolve as a leading biotechnology company, investing in our core plasma business. Continued innovation that benefits our employees and plasma donors speak to how we are driven by our promise to save and improve lives around the world."
CSL Chief Operating Officer Paul McKenzie.
CSL Plasma will begin installing the new technology at locations in the Denver, Colorado, area in the following months.
There is a critical and ongoing need for human plasma to produce life-saving medicines for people with serious and rare diseases, CSL Plasma's decision to work with Terumo Blood and Cell Technologies is consistent with our business goals to improve the donor and employee experience through innovation and remain the plasma donation center of choice. We look forward to rolling out this new technology."
CSL Plasma General Manager Michelle Meyer.
Cytiva, Pall Corporation | June 02, 2021
Danaher Corporation's Life Sciences platform has acquired precision NanoSystems (PNI). PNI is a global leader in technologies and solutions for developing genetic medicines, including mRNA vaccines and therapeutics. PNI will join Danaher's Life Sciences platform and complement other businesses in the forum, including Cytiva and Pall.
"PNI has advanced several exciting innovations, and we're thrilled to welcome this talented team," says Emmanuel Ligner, Danaher Group Executive. "As mRNA has matured as a successful technology in some COVID vaccines, we see huge potential for this technology to accelerate other therapies. The work done thus far by the PNI team will also enable our customers at Cytiva and Pall to take a huge step forward in advancing their science to improve the lives of patients."
James Taylor, co-founder, and CEO of Precision NanoSystems, says: "Over the last ten years, PNI has been a leading technology company, enabling the development of genetic medicines. Joining Danaher's Life Sciences platform allows our world-class team to accelerate and expand the work we do to support our customers with comprehensive technology platforms and the expertise to manufacture transformative medicines for the benefit of humanity. With the global reach of the Danaher Life Sciences platform and customers who are leaders in biotechnology, this is an incredible opportunity to bring PNI's innovations to market and expand our impact."
The overall mRNA therapeutics and vaccines market was growing rapidly and accelerated with the development of COVID-19 mRNA vaccines. It is anticipated that mRNA technology will be used to develop other vaccines and to treat other conditions of high unmet medical need, such as cancer and genetic diseases.
At present, most mRNA therapies and other types of genetic medicines in clinical development are designed to be delivered with the help of lipid nanoparticles (LNPs). PNI's Genetic Medicine Toolkit, including its proprietary GenVoyTM LNP delivery platform and NanoAssemblrTM microfluidic-based nanoparticle manufacturing platform, enables the rapid development of genetic medicines. PNI's validated technologies increase the stability, efficacy, yield, and quality of non-viral genetic medication and lower the barrier to develop these essential medicines.
PNI is developing a new center of manufacturing excellence in Vancouver, which will proceed as planned. When complete, the biomanufacturing center will further advance Canadian therapeutic and vaccine manufacturing capabilities, broaden the domestic life sciences sector, create new jobs in the region, and foster a new generation of scientific talent.
Pall Corporation may be a filtration, separation, and purification leader providing solutions to meet customers' critical fluid management needs across the broad spectrum of life sciences and industry. Pall works with customers to advance health, safety, and environmentally responsible technologies. The Company's engineered products enable process and product innovation and minimize emissions and waste. Pall Corporation serves customers worldwide.
Cytiva is a global life science leader with more than 8,000 associates across 40 countries dedicated to advancing and accelerating therapeutics. As a trusted partner to customers that range in scale and scope, Cytiva brings speed, efficiency, and capacity to research and manufacture workflows, enabling the development, manufacture, and delivery of transformative medicines to patients.
BGN Technologies | November 05, 2020
BGN Technologies, the technology transfer company of Ben-Gurion University of the Negev (BGU), announced today that it had signed a research collaboration agreement with ECOIBÉRIA in the field of plastic recycling by bacteria, based on research from the team of Prof. Ariel Kushmaro and Prof. Alex Sivan, both from the Laboratory of Environmental Biotechnology and Avram and Stella Goldstein-Goren Department of Biotechnology Engineering at BGU. Polyethylene terephthalate (PET) is the most abundantly used polymer in the world, with multiple applications in the textile industry as well as in food and beverage packaging. It is estimated that about 56 million tons of PET are produced yearly worldwide, mostly as single use packaging material. Therefore, intense efforts are directed towards recycling and reuse of the PET plastic materials. Prof.'s Kushmaro and Sivan and their team have been studying plastic biodegradation and have discovered several bacteria species that are able to biodegrade polyethylene, which was previously considered a non-biodegradable plastic mainly because of the highly stable carbon−carbon (C−C) bonds of the polymer backbone. Based on these findings, the research collaboration project will assess the biodegradation of PET by previously identified bacteria as well as novel ones, with the aim of developing an efficient biodegradation process of PET whose products will be used as raw materials for recycled PET in the future.