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This blog looks into why organ-on-chip technology is the future of human-relevant research, comparing in vitro vs in vivo models.
This blog will provide a detailed overview of how organ-on-chip systems work, their components, and a general workflow for the lab based on the DynamicOrgan System.
This blog summarizes the most relevant research areas where organ-on-chip technology can be applied.
This blog provides an introduction to organ-on-chip, a technology that can bridge the gap between 2D-cell-culture and animal experiments.
Will advanced in vitro models such as organ-on-chip replace animal testing? An opinion piece by our CEO and co-foudner Dr. Martin Raasch.
Learn about the benefits & applications of the integration of spheroids with microfluidic chip tech, referred to as spheroid-on-chip, in this blog.
This blog lists examples of organ-on-chip models by organ type that have been used in the past, providing the respective literature for your reference.
This guest blog by Viraj Mehta proposes a classification system categorizing organ-on-chip technologies based on design and functionality, thus facilitating clearer regulatory guidelines, fostering innovation, and improving educational resources.
One crucial factor that plays a pivotal role in the success of organ-on-cip models is immunocompetence. In this blog post, we delve into the significance of immunocompetence in organ-on-chip models and how it opens new avenues for advancing medical research.
One crucial factor that plays a pivotal role in the success of organ-on-cip models is immunocompetence. In this blog post, we delve into the significance of immunocompetence in organ-on-chip models and how it opens new avenues for advancing medical research.