Engineering
Unleashing the Power of Micro-Organ Engineering.
Welcome to the era of micro-organ engineering, where the future of drug discovery is being transformed. At Xellar Biosystems, we are developing a high-throughput organ chip culture system that enables us to replicate the multi-cellular environment of human organs in a controllable laboratory setting. By leveraging cutting-edge microfluidic chips with different channel designs, functional capabilities, connectivity, and throughput, we are pushing the boundaries of understanding complex human pathobiology and accelerating drug discovery.
Our Micro-Organ Matrix offers a unique advantage in drug discovery research. With precise control over the cellular microenvironment, including vascularization and biomechanical forces, we provide an exceptional in vitro model that closely mimics the complexity of human organs. By integrating perfusion solutions, pump-driven or gravity-driven, we ensure the seamless operation of our microfluidic systems.
In addition, our organ chip culture system offers the potential to incorporates in-line sensors for functional readouts, including TEER (Transendothelial Electrical Resistance), oxygen levels, biochemical markers, and electrophysical parameters. These sensors enable real-time monitoring and measurement of vital biological parameters, enhancing the accuracy and reliability of our experiments.
With our proprietary high-throughput organ chip culture system, we empower researchers and scientists to explore and investigate human biology and diseases at an unprecedented level of detail. This technology facilitates experimental automation, allowing for high-throughput screening and precise manipulation of cellular and microenvironmental conditions. It opens up new avenues for drug discovery and development by enabling the evaluation of novel perturbations, small molecular compounds, biologicals, or nucleic acid therapeutics in a controlled and scalable manner.
