CELL DISSOCIATION SOLUTION, CELL DISSOCIATION METHOD, AND CELL PRESERVATION METHOD

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

SHINSUKE Mochizuki of Kanagawa (JP)

MAI Kato of Tokyo (JP)

KEIICHIRO Tsubaki of Tokyo (JP)

FUMIKO Tomatsu of Kanagawa (JP)

FUMIO Yamauchi of Kanagawa (JP)

KENGO Kanazaki of Kanagawa (JP)

CELL DISSOCIATION SOLUTION, CELL DISSOCIATION METHOD, AND CELL PRESERVATION METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18649612 titled 'CELL DISSOCIATION SOLUTION, CELL DISSOCIATION METHOD, AND CELL PRESERVATION METHOD

The present application involves a cell dissociation solution used to dissociate cells from a substrate using ultrasonic vibration, with the solution containing a polymer with a polyalkylene glycol structure.

• Cell dissociation solution for separating cells from a substrate
• Utilizes ultrasonic vibration to aid in cell dissociation
• Solution includes a polymer with a polyalkylene glycol structure
• Designed to efficiently dissociate cells without causing damage
• Aimed at improving cell separation processes in research and medical fields

Potential Applications: - Cell culture research - Tissue engineering - Regenerative medicine - Drug development and testing - Biomedical applications

Problems Solved: - Facilitates the gentle and efficient dissociation of cells from substrates - Enhances cell separation processes without compromising cell viability - Improves the overall efficiency of cell-based research and applications

Benefits: - Increased efficiency in cell dissociation processes - Maintains cell viability during separation - Facilitates smoother cell culture experiments - Enhances the reliability of research outcomes - Supports advancements in regenerative medicine and drug development

Commercial Applications: Title: Advanced Cell Dissociation Solution for Biomedical Research and Applications This technology can be utilized in various research institutions, pharmaceutical companies, biotechnology firms, and medical laboratories for cell culture experiments, tissue engineering projects, drug development studies, and regenerative medicine applications. The market implications include improved research outcomes, enhanced product development processes, and potential advancements in medical treatments.

Questions about Cell Dissociation Solution: 1. How does the polymer with a polyalkylene glycol structure contribute to the cell dissociation process? The polymer helps in gently separating cells from the substrate without causing damage, ensuring high cell viability post-dissociation.

2. What are the key advantages of using ultrasonic vibration in cell dissociation? Ultrasonic vibration aids in the efficient and quick dissociation of cells from substrates, leading to improved research processes and outcomes.

Original Abstract Submitted

The present application provides a cell dissociation solution that is used in the dissociation of, from a substrate, a cell disposed on the substrate, by application of ultrasonic vibration to the cell. The present application additionally provides that the cell dissociation solution contains a polymer including a polyalkylene glycol structure.