Source: Pharmaceutical Technology
The new vaccines can help modulate the normal immune response of the body. Credit: Herney Gómez / Pixabay.
Source: Pharmaceutical Technology
The collaboration, under a sponsored research agreement, will focus on mRNA vaccines that can help in modulating the normal immune response of the body for the treatment of certain autoimmune diseases as well as allergic conditions. Under the deal, Penn Perelman School of Medicine Vaccine Research Roberts Family Professor Drew Weissman and his laboratory will partner with RVAC Medicines for the development and optimisation of mRNA vaccine candidates that can induce immune tolerance in the body. The mRNA vaccine candidates will help reduce the chances of autoimmune responses that might lead to allergic conditions or serious autoimmune diseases. The partnership will focus on developing potential new vaccines to treat certain selected autoimmune indications, as well as food allergies. RVAC Medicines CEO Dr Sean Fu said: “We are excited to begin this collaboration with Dr Weissman, a pioneer in the field of mRNA vaccines and therapeutics. “With this collaboration, we want to develop mRNA vaccine product candidates with the potential to improve the lives of patients who suffer from certain autoimmune diseases and allergies.” According to the company, autoimmune diseases have increased steadily from 3% to 9% on an annual average, in recent years. “The collaboration will apply the mRNA technologies to induce antigen-specific immune tolerances, and RVAC is committed to becoming a leader in this field.”
Cell & Gene Therapy coverage on Pharmaceutical Technology is supported by Cytiva.
Editorial content is independently produced and follows the highest standards of journalistic integrity. Topic sponsors are not involved in the creation of editorial content.
Optimise your cell therapy process: a guide to cell thawing
Typically carried out at the point of care, errors in cell therapy thawing could compromise treatment efficacy, leading to significant patient impact as well as high costs and a compromised reputation for the product’s developer.
This guide addresses how cell thawing has historically developed into the new techniques used today, along with the physical and biological implications of key metrics and components such as warming rate and ice structure. Also included are reviews of key studies from scientific literature and a consideration of the interactions between cooling and warming rates, as applicable to cell and gene therapies.
Source: Pharmaceutical Technology
By clicking the Download Free Whitepaper button, you accept the terms and conditions and acknowledge that your data will be used as described in the Cytiva Thematic privacy policy
By downloading this Whitepaper, you acknowledge that we may share your information with our white paper partners/sponsors who may contact you directly with information on their products and services.
Visit our privacy policy for more information about our services, how we may use, process and share your personal data, including information on your rights in respect of your personal data and how you can unsubscribe from future marketing communications. Our services are intended for corporate subscribers and you warrant that the email address submitted is your corporate email address.