Dec. 16, 2022

Nanomatronix, a local startup company that develops nanotechnology, microelectronics and biotechnology to provide solutions for the healthcare, energy and defense industries, has been awarded a $1.1 million Small Business Innovation and Research Phase II Award from the Department of Defense. This award builds on a previous award from the department.

The purpose of the award is to continue development of the Advanced Microphysiological Brain Injury Technology (or AMBIT) Platform. This is an organ-on-chip model that utilizes human, cell-based tissues to replicate brain injury pathophysiologies. The chip will enable researchers to model the transport of molecules across the blood-brain barrier before and after traumatic brain injury and examine the communication between different cell types, providing a useful tool for drug screening and toxicity studies.

Kartik Balachandran, associate professor of biomedical engineering at the U of A, has been overseeing the research and development of the AMBIT Platform and has received a sub-award of $550,000. 

“We’re excited for the opportunity to further develop our AMBIT Platform towards commercialization and also expand our customer base,” Balachandran said.

“Nanomatronix is excited to collaborate with Dr. Kartik Balachandran to bring AMBIT to market,” said Angeline Rodriguez, a biomedical engineer who will oversee the grant at Nanomatronix. “The goal of this Phase II project is completion of a viable product and service. Additional evolutionary product improvements are being identified, currently, through the NSF STTR Program. In approximately two to two and a half years, the first full AMBIT product will be ready for launch, and the first batch of products will be delivered to customers.”

Rodriguez added that what made AMBIT unique was that previously developed brain-chips do not have the ability to mechanically mimic traumatic brain injury in their design. 

“AMBIT is able to provide a TBI-like mechanical insult to study its effects on the blood-brain barrier,” Rodriguez said. “This platform is relevant for drug discovery and testing in the context of TBI-mediated pathologies and other neurotrauma sequelae. AMBIT is designed using iPSC-derived cells, so it will play an important role in precision medicine because the cellular components can be derived from patient-specific, clinical-grade cells.” 

Rodriguez noted that organ-on-chip technology was revolutionizing the study of diseases, and that Balachandran’s work presented a unique business opportunity to explore technology that can be used to evaluate brain injury pathophysiology.

The federal Small Business Innovation and Research award program incentivizes small businesses to pursue research and development with the potential for commercialization. The goal is for businesses to reach their technological potential and to create a pathway to profitability through commercialization.

Contacts

Hardin Young, assistant director of research communications

University Relations

479-575-6850, hyoung@uark.edu

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