A microfluidics system can process small quantities of fluids by using tiny channels with dimensions at the microscale - usually tens to hundreds of micrometers. In the past decade, a number of novel techniques and materials have been applied to microfluidic systems. Learn more about microfluidic evaluate: https://microfluidics.creative-biolabs.com/one-stop-microfluidic-solutions.htm

Phage display, first described in 1985, has evolved into a well-established technology for various applications. Leveraging over 10 years of experience, Creative Biolabs has crafted an exceptional phage display platform with versatile display systems and effective biopanning strategies. Learn more: https://phagenbio.creative-biolabs.com/phage-display.htm

Drosophila melanogaster serves as a model organism for studying a wide range of topics, from basic genetics to tissue and organ development. The fruit fly's short generation time, low maintenance costs, and access to potent genetic tools make it well-suited for investigating complex pathways in biomedical research (including cancer). Learn more about Fruit flies for biomedical research: https://modelorg-ab.creative-biolabs.com/category-d-melanogaster-25.htm

Fc fusion is a highly successful strategy for extending the half-life of therapeutic proteins. It has been widely applied in developing various fusion proteins, encompassing molecules such as hormones, growth factors, blood proteins, and protein/peptide mimetics. Drawing on years of experience, Creative Biolabs provides a comprehensive technology platform for one-stop Fc-fusion development services. Learn more: https://half-life-extension.creative-biolabs.com/fc-fusion-protein-development.htm

Lipid-based drug delivery (LDD) systems are attracting increasing interest in the pharmaceutical industry due to their advantages in solubility and the bioavailability of poorly water-soluble drugs. Additionally, a LDD formulation serves as a promising alternative solution to safely and effectively delivering the proper therapeutic dose to patients. Learn more: https://www.creative-biolabs.com/lipid-based-delivery/lipid-based-drug-delivery-ldd-formulation.htm

RNA interference in animals involves small double-stranded RNA molecules called siRNA. These molecules are valuable tools for studying single gene function in both in vivo and in vitro settings and are also considered a promising class of therapeutics. SiRNA delivery systems fall into two categories: viral and non-viral, including peptides, polymers, and lipids. Studies using synthetic or plasmid-encoded siRNA show its antiviral effects against various viruses, including SARS-CoV. Learn more about siRNA for Treatment of SARS-CoV-2: https://sars-cov-2.creative-biolabs.com/sirna-for-the-treatment-of-sars-cov2.htm