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SSPC Impact Case Study: Health

Developing novel applications of Hexafrass

Project Lead:

Professor Kevin Kavanagh, Maynooth University

Project Partner:

Empa

Areas of Impact:

Economic, Economic SME, Health, Societal

Scientific Domains:

Novel Modalities

IP Development
Hexafly Biotech signed the licence agreement with Maynooth University (Professor Kevin Kavanagh) to collaborate and commercialise the know how and outputs of an SSPC – funded project to develop novel applications of Hexafrass. The application of Hexafrass to soil leads to a significant reduction in the reproduction of Barley aphids (greenflies) on cereal plants. Barley aphids are a major pest of cereal plants and are difficult to control with chemical insecticides. This discovery creates the possibility of controlling aphid populations using Hexafrass with a highly effective and environmentally sustainable treatment for use in horticulture and agriculture.

Company profile
Hexafly Biotech, an Irish company pioneering the use of insects and insect based products for inclusion in feeds and as plant nutrients. Hexafly Biotech cultures black soldier flies (Hermetic illucens) and derives a number of products from these with a variety of actual and potential applications. Larvae are cultured, dried and ground to yield a meal (Hexameal) which can be used as a food additive, oil can be extracted from larvae and used as a chemical starting material and the waste product of insects (Hexafrass) can be collected and used as a soil enhancer.

How the licence arose
SSPC work was completed in 2021 and built on the initial Hexafly-Maynooth collaboration to evaluate the commercial potential of Hexameal.

Professor Kevin Kavanagh, Biological & Biomedical Science Programme Coordinator at Maynooth University (MU) and Funded Investigator with SSPC, the SFI Research Centre for Pharmaceuticals has commercialised the outputs of an SSPC funded project to develop novel applications of Hexafrass. The application of Hexafrass to soil leads to a significant reduction in the reproduction of Barley aphids (greenflies) on cereal plants. The SSPC work was completed in 2021 and built on the initial Hexafly-Maynooth collaboration to evaluate the commercial potential of Hexameal.

The Solution and application
Hexafly Biotech, an Irish company pioneering the use of insects and insect based products for inclusion in feeds and as plant nutrients. Hexafly Biotech cultures black soldier flies (Hermetic illucens) and derives a number of products from these with a variety of actual and potential applications. Larvae are cultured, dried and ground to yield a meal (Hexameal) which can be used as a food additive, oil can be extracted from larvae and used as a chemical starting material and the waste product of insects (Hexafrass) can be collected and used as a soil enhancer.

The application of Hexafrass to soil leads to a significant reduction in the reproduction of Barley aphids (greenflies) on cereal plants. This discovery creates the possibility of controlling aphid populations using Hexafrass with a highly effective and environmentally sustainable treatment for use in horticulture and agriculture.

“This collaboration focused on delivering solutions and options for real world problems.” Prof. Kevin Kavanagh, MU

“SSPC funding and collaboration with Maynooth University has allowed us to co-develop novel applications for our products that will have commercial value in the coming months and years. We look forward to continuing our partnership with MU as we continue to advance our R&D program and bring more discoveries to market.” Dr Paul Tyndall, Commercialisation Executive, (MU)

A further collaboration has the potential to deliver novel applications for the company’s products and validate the PI and RPO impact for an emerging regional SME. Further development of the licensed know how is planned in 2022.

The Impact
Hexafly outputs supports sustainability and drive outputs that are of low impact on the environment, offer healthier options for the consumer, public health and wellbeing through improved treatments.

A full report was recently published in the Annual Knowledge Transfer Survey 2021 here.

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