This grant seems to have gotten its start at a workshop held at the US Environmental Protection Agency (EPA) in Washington, D.C., Feb. 24-25, 2015 as per this webpage on the People for Ethical Treatment of Animals (PETA) International Science Consortium Limited website,
The invitation-only workshop included experts from different sectors (government, industry, academia and NGO) and disciplines (in vitro and in vivo inhalation studies of NMs, fibrosis, dosimetry, fluidic models, aerosol engineering, and regulatory assessment). It focused on the technical details for the development and preliminary assessment of the relevance and reliability of an in vitro test to predict the development of pulmonary fibrosis in cells co-cultured at the air-liquid interface following exposure to aerosolized multi-walled carbon nanotubes (MWCNTs). During the workshop, experts made recommendations on cell types, exposure systems, endpoints and dosimetry considerations required to develop the in vitro model for hazard identification of MWCNTs.
The method is intended to be included in a non-animal test battery to reduce and eventually replace the use of animals in studies to assess the inhalation toxicity of engineered NMs. The long-term vision is to develop a battery of in silico and in vitro assays that can be used in an integrated testing strategy, providing comprehensive information on biological endpoints relevant to inhalation exposure to NMs which could be used in the hazard ranking of substances in the risk assessment process.
A September 1, 2015 news item on Azonano provides an update,
The PETA International Science Consortium Ltd. announced today the winners of a $200,000 award for the design of an in vitro test to predict the development of lung fibrosis in humans following exposure to nanomaterials, such as multi-walled carbon nanotubes.
Professor Dr. Barbara Rothen-Rutishauser of the Adolphe Merkle Institute at the University of Fribourg, Switzerland and Professor Dr. Vicki Stone of the School of Life Sciences at Heriot-Watt University, Edinburgh, U.K. will jointly develop the test method. Professor Rothen-Rutishauser co-chairs the BioNanomaterials research group at the Adolphe Merkle Institute, where her research is focused on the study of nanomaterial-cell interactions in the lung using three-dimensional cell models. Professor Vicki Stone is the Director of the Nano Safety Research Group at Heriot-Watt University and the Director of Toxicology for SAFENANO.
The Science Consortium is also funding MatTek Corporation for the development of a three-dimensional reconstructed primary human lung tissue model to be used in Professors Rothen-Rutishauser and Stone’s work. MatTek Corporation has extensive expertise in manufacturing human cell-based, organotypic in vitro models for use in regulatory and basic research applications. The work at MatTek will be led by Dr. Patrick Hayden, Vice President of Scientific Affairs, and Dr. Anna Maione, head of MatTek’s airway models research group.
I was curious about MatTek Corporation and found this on company’s About Us webpage,
MatTek Corporation was founded in 1985 by two chemical engineering professors from MIT. In 1991 the company leveraged its core polymer surface modification technology into the emerging tissue engineering market.
MatTek Corporation is at the forefront of tissue engineering and is a world leader in the production of innovative 3D reconstructed human tissue models. Our skin, ocular, and respiratory tissue models are used in regulatory toxicology (OECD, EU guidelines) and address toxicology and efficacy concerns throughout the cosmetics, chemical, pharmaceutical and household product industries.
EpiDerm™, MatTek’s first 3D human cell based in vitro model, was introduced in 1993 and became an immediate technical and commercial success.
I wish them good luck in their research on developing better ways to test toxicity.