Creative Biolabs offers exclusive services for the comprehensive identification and analysis of LipidSync exosomes. These LipidSync exosomes are artificially crafted vesicles that imitate the natural exosomes occurring in the body and serve as an ideal platform for drug delivery systems. We aim to deliver utmost precision and reliable results, to ensure our clientele are empowered with the information needed for their investigative studies or applications.

Our Advanced Set of Services

• Particle Size. Particle size is one of the most critical factors affecting the effectiveness of the LipidSync exosomes. Our team uses dynamic light scattering (DLS) and nanoparticle tracking analysis (NTA) technology to accurately measure the size of the LipidSync exosome particles to ensure optimum efficiency in drug delivery.
• Zeta Potential and Mobility. A key determinant of the stability of LipidSync exosomes, we provide accurate measurements of zeta potential and mobility with electrophoretic light scattering (ELS). This aids in understanding the interaction between particles and the potential for aggregation, giving crucial insights into the stability of the LipidSync exosomes, as well as their intended functionality.
• Particle Size Distribution. We perform a complete evaluation of the size distribution of LipidSync exosomes. This helps in predicting the behavior and function of these vesicles in the biological system, providing a broader view of the sample size, which can be crucial when studying the population of liposomes utilized in a particular system.
• Microscope Examinations. Our microscopy services include detailed visual examinations of LipidSync exosomes for particle uniformity, presence of drug crystals and performance after centrifugation. Our team conducts high-resolution examinations to provide a complete picture of the physical characteristics and properties.
• Particle shape, lamellarity, and particle sub-structure: Our service incorporates sophisticated techniques such as cryogenic transmission electron microscopy (cryo-TEM) and freeze-fracture electron microscopy (FF-EM) to analyze the shape, lamellarity, and particle sub-structure of LipidSync exosomes. This allows for a detailed understanding of their morphology and internal arrangement.

Fig. 1 Practical approach to developing EV biomimetics.¹

Creative Biolabs provides services that comprehensively cover all aspects of LipidSync exosome identification and analysis. Our team of highly skilled technicians and scientists work cross-functionally to identify, analyze, and provide actionable insights for all your LipidSync exosome needs. Whether you are developing a new drug delivery system or improving an existing one, we can cater to your comprehensive LipidSync exosome identification and analysis needs to help you perform your research with the utmost accuracy and confidence. Contact us today to learn more about our services.

Reference

1. Rosso, Giada, and Valentina Cauda. "Biomimicking Extracellular Vesicles with Fully Artificial Ones: A Rational Design of EV-BIOMIMETICS toward Effective Theranostic Tools in Nanomedicine." ACS Biomaterials Science & Engineering (2022).

• LipidSync Exosomes Synthesis
• LipidSync Exosome Modification
• LipidSync Exosomes Drug Delivery
• LipidSync Exosomes Performance Optimization
• LipidSync Exosomes Quality Control