In Creative Biolabs, we recreated the architectural, dynamic, and functional interplays using a multi-chamber microfluidic system that increases physiological relevance while maintaining screening capacity and compatibility with state-of-the-art readouts.
Neutrophils play crucial, yet multilayered roles in inflammatory conditions. We set out to engineer our model to capture neutrophil recruitment in the context of intestinal mucosal inflammation, which would allow us to assess therapeutic interventions in neutrophil mechanisms without ill-suited animal models. Pulling the plate's separated 2-channel design, the organ chip makes the introduction of prime human neutrophils in channel C, copying their systematized rotation, and supervises their translocation into the ECM channel.
Fig 1. Recapitulating neutrophilic infiltration in immunocompetent gut-on-a-chip. (Gjorevski,2020)
Our inflammation-on-a-chip model can be customized for different types of inflammatory disease which also captures important aspects of the multifactorial nature of inflammation and can easily be adapted to model other tissue inflammation-related diseases. Surely using our model will open new avenues in basic and translational research for a better understanding and treatment of inflammatory diseases.
Besides the inflammation-on-a-chip model, there are several other models available for exploration:
At Creative Biolabs, a group of scientists specialized in the 3D biology field are well-prepared to meet an extensive spectrum of clients' needs, offering personalized solutions that align precisely with their distinct demands. These solutions are bolstered by a comprehensive range of 3D biology-based services, empowering us to effectively accelerate your research endeavours. Should you be interested in our disease-on-a-chip models or ralated services, please just contact us without hesitation.
Reference