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Rousselot Biomedical, a Darling Ingredients brand, joins European ENLIGHT project to develop a 3D living model of pancreatic tissue

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Darling Ingredients (NYSE: DAR) announced its Rousselot Biomedical brand is participating in the ENLIGHT project, aimed at developing a 3D living model of pancreatic tissue to improve diabetes medication testing. The project, involving eight European partners, has secured a €3.6 million grant from the European Innovation Council under Horizon 2020. Rousselot will utilize its X-Pure® biomaterials for bioprinting, potentially accelerating drug discovery while minimizing animal testing. The initiative hopes to create a functional pancreatic model within four years, contributing to advancements in regenerative medicine.

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  • Partnership in the ENLIGHT project to develop a 3D model for pancreatic tissue, enhancing diabetes medication testing.
  • Received a grant of €3.6 million from the European Innovation Fund, helping to support innovative research.
  • Utilization of advanced bioprinting technology, potentially reducing drug testing costs and expediting discovery.
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IRVING, Texas, Feb. 22, 2021 /PRNewswire/ -- Darling Ingredients Inc. (NYSE: DAR) today announced that its Rousselot Biomedical brand is joining the European project ENLIGHT. Researchers from academic centers and leading industries across Europe are joining forces to develop a living model of the pancreas to enable better testing of diabetes medication. This model is manufactured using a new method of bioprinting invented at the UMC Utrecht and EPFL, and specialized stem cells studied by ETH Zurich and the University of Naples. With eight European partners a new bioprinter that, using visible light, prints stem cells three-dimensionally into functional pancreatic tissues. The ENLIGHT project has received a 4-year grant from the European innovation Council fund Horizon 2020. The aim is to realize the first working tissue model within three years.

The ENLIGHT partners have been granted a contribution of 3.6 million euros by the European Innovation Fund. Led by the UMC Utrecht, the multidisciplinary consortium consists of Ecole Polytechnique Federale de Lausanne and ETH Zürich (Switzerland), the University of Naples Federico II (Italy), AstraZeneca (Sweden), Rousselot (Belgium), Readily 3D (Switzerland) and Fondazione Giannino Bassetti (Italy).

Rousselot®'s Biomedical team will create an ultra-fast, visible light induced, cross-linkable extracellular matrix (ECM) like hydrogel mimicking the pancreas structure using X-Pure®. X-Pure biomedical grade gelatins are ideal for 3D bioprinting and tissue engineering owing to guaranteed ultra-low impurity levels and tunable physical/chemical properties. "The topo- and geometrical cues and composition provided by the ECM together with morphogens and biochemical signals are important determinants of cell fate in vitro and in vivo. With other words, the design and purity of the ECM like structure is a crucial part of the ENLIGHT project," according to Jos Olijve, Scientific Support Manager and project contact from Rousselot.

Advantages of bioprint tissue
The use of tissue from a 3D bioprinter has several major advantages. When testing drugs, for example. These 'personalized' models could eliminate the need for animal testing, accelerate drug discovery for pharmaceutical industries, and reduce the burden on individual patients, as they would no longer have to experiment with different drugs until one works. This is not only important for diabetes patients, but can – if the model works – also be used for other diseases, such as cancer. Riccardo Levato, biofabrication researcher at the UMC Utrecht and coordinator of ENLIGHT: "With cells from a patient, practitioners can recreate the diseased tissue. Subsequently, a laboratory test can be performed to determine which candidate medication has the greatest effect. This spares patients a long search with unpleasant side effects, saves on treatment costs, and leads to the best available care for individual patients.''

Proof of principle
The ENLIGHT project initially focuses on diabetes and will apply new bioprinting techniques to create pancreatic tissue. The pancreas plays a vital role in producing enzymes and hormones including insulin, but this can be insufficient in diabetic patients. "Diabetes is a deliberate choice because of its social relevance. Besides asthma, it is the most common chronic disease in children. Despite the growing demand for care for patients with diabetes, the development of new drugs (besides insulin therapy) is lagging behind," the ENLIGHT coordinator says. "Once we make a living model of the pancreas, we have proof of principle and can progress to testing diabetes medication with it.  This will prove the effectiveness of the new bioprinting technique which we can apply much more widely to potentially make all living models of all types of tissue."

Volumetric bioprinter
To make this possible in the future, the ENLIGHT researchers intend to achieve two breakthroughs. The first is a newly developed bioprinter, which can reproduce part of the human body, including living cells, at lightning speed. Unlike a conventional 3D printer which takes an hour, this volumetric bioprinter produces results within a minute. This is important because the survival rate of the cells decreases rapidly over time, so printing at speed is essential. Once the bioprinter has created a living 3D model of human tissue, the second step is to recreate functionality at the human organ level.

Riccardo Levato, coordinator of ENLIGHT: "If you want to fabricate pancreatic tissue, the 3D model has to look and function like a pancreas. We want to achieve this in the printing phase by adding signaling molecules, which tell the cells stimulated by the printer, how to behave."

The project aims to create a living model of the pancreas, including hormonal functions in just four years. In the longer term, the ENLIGHT project has the potential to create innovative solutions to address the shortage of donor organs for transplantation and regenerative medicine.

Disclaimer: The project leading to this application has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No 964497

More information on the ENLIGHT project can be found on de EU CORDIS website:     
         https://cordis.europa.eu/project/id/964497

About Rousselot Biomedical
As the most recent strategic segment within Rousselot, we have drawn upon Rousselot's 130+ years of worldwide expertise and proven track record of pharmaceutical gelatins and collagens to develop X-Pure®, an innovative range of purified (modified) gelatins and collagens specifically designed for biomedical applications. Offering unique advantages to assure performance, quality and safety, X-Pure is backed by strong scientific data and on-going research. Rousselot Biomedical is committed to facilitating the use of X-Pure in your applications and to help "Advancing medical science".

About Darling Ingredients
Darling Ingredients Inc. is a global developer and producer of sustainable natural ingredients from edible and inedible bio-nutrients, creating a wide range of ingredients and specialty solutions for customers in the pharmaceutical, food, pet food, feed, technical, fuel, bioenergy, and fertilizer industries.  With operations on five continents, the Company collects and transforms all aspects of animal by-product streams into useable and specialty ingredients, such as gelatin, edible fats, feed-grade fats, animal proteins and meals, plasma, pet food ingredients, organic fertilizers, yellow grease, fuel feedstocks, green energy, natural casings and hides.  The Company also recovers and converts recycled oils (used cooking oil and animal fats) into valuable feed and fuel ingredients and collects and processes residual bakery products into feed ingredients. In addition, the Company provides environmental services, such as grease trap collection and disposal services to food service establishments. The Company sells its products domestically and internationally and operates within three industry segments: Feed Ingredients, Food Ingredients and Fuel Ingredients. For additional information, visit the Company's website at http://www.darlingii.com

Safe Harbor Statement
Some of the statements made in this press release are forward-looking statements.  These forward-looking statements are based upon our current expectations and projections about future events and generally relate to our plans, objectives and expectations for the development of our business.  Although management believes that the plans and objectives reflected in or suggested by these forward-looking statements are reasonable, all forward-looking statements involve risks and uncertainties and actual future results may be materially different from the plans, objectives and expectations expressed in this press release.

For more information contact:




Investors   

Rousselot



Jim Stark 

Caroline Brochard-Garnier

VP, Investor Relations   

Director, Communications & PR

+1 (972) 281-4823   

+33 1 46 67 87 27

James.stark@darlingii.com   

caroline.brochard-garnier@rousselot.com

 

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SOURCE Darling Ingredients Inc.

FAQ

What is the ENLIGHT project involving Darling Ingredients (DAR)?

The ENLIGHT project aims to create a 3D living model of pancreatic tissue to enhance diabetes medication testing.

How much funding did the ENLIGHT project receive for its research?

The ENLIGHT project received a grant of €3.6 million from the European Innovation Fund.

What technology is Rousselot Biomedical using in the ENLIGHT project?

Rousselot Biomedical is utilizing its X-Pure® biomaterials for a new method of bioprinting in the ENLIGHT project.

What is the expected outcome of the ENLIGHT project for diabetes treatment?

The project aims to develop a functioning pancreatic tissue model within four years, facilitating better testing for diabetes medications.

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