<p>We are proud to introduce our next-generation prime editing technology <PreCyse/> . We aim to develop an innovative gene therapy against cystic fibrosis, tackling the most common mutation ΔF508 of the CFTR (Cystic Fibrosis Transmembrane Conductance Regulator) gene. We optimize lipid nanoparticles for the efficient and cell-specific delivery of our therapeutic mRNA. Current treatment strategies are limited in terms of speed, precision and effectiveness, often failing to achieve long-lasting improvements. In addition, high costs and limited accessibility of pharmaceuticals contribute to adverse prognosis of many patients. We want to develop a monthly applied which represents a cure that is more advanced and user-friendly compared to other medications due to its longer lasting time, lowering the frequency of use. </p>
<p>We are proud to introduce our next-generation prime editing technology <PreCyse/> . We aim to develop an innovative gene therapy against cystic fibrosis, tackling the most common mutation ΔF508 of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene. We optimize lipid nanoparticles (LNPs) for the efficient and cell-specific delivery of our therapeutic mRNA. Current treatment strategies are limited in terms of speed, precision and effectiveness, often failing to achieve long-lasting improvements. In addition, high costs and limited accessibility of pharmaceuticals contribute to adverse prognosis of many patients. We want to develop a monthly applied which represents a cure that is more advanced and user-friendly compared to other medications due to its longer lasting time, lowering the frequency of use. </p>
