Comparative analysis of high-throughput RNA extraction kits in Naïve Non-Human Primate (NHP) tissues for downstream applications utilizing Xeno Internal Positive Control (IPC).

Ribonucleic acid (RNA) extraction and purification play pivotal roles in molecular biology and cell and gene therapy, where the quality and integrity of RNA are critical for downstream applications. Automated high-throughput systems have gained interest due to their potential for scalability and reduced labor requirements compared to manual methods. However, ensuring high-throughput capabilities, reproducibility, and reliability while maintaining RNA yield and purity remains challenging.

Selecting appropriate excipients for paediatric dosage form - Paediatric excipients risk assessment (PERA) framework - Part 1.

Excipients are often the major component of the formulation that critically affect the dosage form, manufacturing process, product performance, stability and safety. They exert different roles and functions in a dosage form. Selecting excipients with appropriate safety and tolerability is a major hurdle in paediatric formulation development.

Paediatric excipient risk assessment (PERA) tool and application for selecting appropriate excipients for paediatric dosage forms - Part 2.

It is necessary to use a scientifically sound process for excipient risk evaluation, selection, and management in order to develop paediatric medicinal products that are both safe and effective. The "Paediatric Excipient Risk Assessment (PERA)" framework, which proposes a comprehensive approach by considering all relevant factors related to patient, dosage form, and excipient attributes, was developed and published as part 1 of this paper series, to enable the rational selection of excipients for paediatric medicinal products. This article is Part 2 of the series and presents the PERA tool that allows easy adoption of the PERA framework.

Inhalable dry powders of a monoclonal antibody against SARS-CoV-2 virus made by thin-film freeze-drying.

Monoclonal antibodies (mAbs) represent a promising modality for the prevention and treatment of viral infections. For infections that initiate from the respiratory tract, direct administration of specific neutralizing mAbs into lungs has advantages over systemic injection of the same mAbs. Herein, using AUG-3387, a human-derived mAb with high affinity to the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and its various variants, as a model mAb, we formulated the mAb into dry powders by thin-film freeze-drying, confirmed that the AUG-3387 mAb reconstituted from the dry powders retained their integrity, high affinity to the SARS-CoV-2 spike protein receptor binding domain (RBD), as well as ability to neutralize RBD-expressing pseudoviruses.

Discovery of GS-7682, a Novel 4'-Cyano-Modified -Nucleoside Prodrug with Broad Activity against Pneumo- and Picornaviruses and Efficacy in RSV-Infected African Green Monkeys.

Acute respiratory viral infections, such as pneumovirus and respiratory picornavirus infections, exacerbate disease in COPD and asthma patients. A research program targeting respiratory syncytial virus (RSV) led to the discovery of GS-7682 (), a novel phosphoramidate prodrug of a 4'-CN-4-aza-7,9-dideazaadenosine -nucleoside GS-646089 () with broad antiviral activity against RSV (EC = 3-46 nM), human metapneumovirus (EC = 210 nM), human rhinovirus (EC = 54-61 nM), and enterovirus (EC = 83-90 nM). Prodrug optimization for cellular potency and lung cell metabolism identified 5'-methyl [()-hydroxy(phenoxy)phosphoryl]-l-alaninate in combination with 2',3'-diisobutyrate promoieties as being optimal for high levels of intracellular triphosphate formation and .