Despite the fact that lentiviral vectors have been around some decades, the demand for scalable and effective manufacturing methods now rises in tandem with the need for innovative medicines. Due to their special advantages, lentiviral vectors hav...
Viral vectors have become a cornerstone in biotechnology. While their function is complex, they play a vital role in various areas, including gene therapy, vaccine development, and genetic research. In this article, we will provide a simple defini...
Gene therapy stands at the forefront of medical innovation that offers powerful solutions for complex genetic disorders. A critical aspect of this field is the use of Adeno-Associated Viruses (AAVs) as vectors. In this blog post, we'll show exa...
Various types of viral vectors are central to genetic research and medical advancements. These small carriers, obtained from various viruses, play an essential role in gene therapy and beyond. In this exploration, we will examine different types, ...
The main difference between adeno-associated viral vectors (AAV) and adenoviral vectors (AVV) is their genetic makeup. AAV is composed of a single-stranded DNA viral vector, while adenoviral vectors consist of double-stranded DNA. These vectors se...
The adeno-associated virus (AAV) is a very popular viral vector with great potential available for gene delivery. This article explores AAV vectors, their role in gene therapy, and their associated advantages and disadvantages. What is an AA...
Lipid nanoparticles (LNPs) are nanoparticles that consist of solid and liquid lipids and are stabilized by emulsifiers. They are efficient drug delivery systems which carry drug substances to target cells, where they become absorbed and are rel...
Advancing fluid management with single-use technology Fluid management is a cornerstone in mRNA manufacturing and therapeutics, where maintaining product quality and safety is of utmost importance. Advances in mRNA technology have revolutionize...
The use of lipid nanoparticles (LNPs) has gained significant attention due to their potential applications in drug delivery systems. LNPs have shown promise in encapsulating and delivering various therapeutic molecules, such as nucleic acids, p...
In the world of pharmaceutical research and development, lipid nanoparticles (LNPs) have emerged as a promising platform for the delivery of various therapeutic agents. These LNPs offer exceptional benefits such as improved drug encapsulation, ...
Lipid nanoparticles (LNPs) have gained significant attention in nanomedicine as effective delivery systems for various therapeutics, including mRNA-based vaccines and gene therapies. LNPs offer advantages such as efficient encapsulation, target...
LNPs are used in various applications in medicine and other life sciences, e.g. as non-viral vectors for mRNA. However, lipid nanoparticle toxicity is a topic that needs to be addressed more closely. The structure of lipid nanoparticles and rea...
Lipid nanoparticles is about to change the pharmaceutical industry in their role as very efficient drug delivery systems, but shown advantages to different fields, like cosmetics, agriculture and other areas. Even though they are already succes...
