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Medtech spinout behind new material for 3D printed implants raises £1.6m

July 28th, 2021
Medtech spinout behind new material for 3D printed implants raises £1.6m
Sample scaffold made from 4Degra inks. Credit: 4D Biomaterials

4D Biomaterials, which has developed a new biomaterial used for 3D printing medical implants, has completed a £1.6m funding round.

The investment was led by DSW Ventures and backed by the MEIF Proof of Concept & Early Stage Fund, which is managed by Mercia and part of the Midlands Engine Investment Fund, Mercia's own funds, and existing investor SFC Capital.

The funding will be used to develop a range of products through partnerships with medical device companies and expand its team with the creation of five new jobs at its premises in MediCity.

4D Biomaterials' product 4Degra can be printed to the exact shape required for a tissue scaffold with an open cell honeycomb structure that harmlessly degrades while promoting tissue regeneration following implantation. As natural tissue grows back through the voids, the structure gradually erodes and is expelled harmlessly by the body. 4Degra is being developed to improve patient outcomes in a range of applications including tumour removal in breast cancer patients, and could also help patients recovering from other types of surgery and trauma, such as that caused by road traffic accidents.

4Degra, which is the only 3D printed material of its type that is also biodegradable, was developed for over 15 years in Professor Andrew Dove's research group at the University of Warwick and University of Birmingham. Recently published research has shown the 3D printed tissue scaffolds have 'shape memory' which means their structure is retained when the scaffold is implanted into tissues, where they show highly promising tissue-healing performance, including the ability to support cell migration, the 'ingrowth' of tissues, and revascularisation (blood vessel growth).

Having spun out of the universities last year, the company appointed Phil Smith, an entrepreneur with a track record in biotech spin-outs, as its CEO.

Phil Smith, CEO of 4D Biomaterials said: "I am delighted to welcome DSW Ventures and Mercia on board at this exciting time for the company. The raise was oversubscribed by 60%, helped by the continuing support of SFC Capital and our angel investors. This puts us in a strong position as we move into the next phase of taking our products to market."

The investment will become the seventh in the portfolio for DSW Ventures, the UK-regional focused venture capital business. Ellie Boardman, Investment Executive at DSW Ventures commented: "We have been extremely impressed by the team and product ever since our first meeting. The technology is constantly evolving, and we have been delighted to follow the company's ongoing progress throughout the investment process. We believe 4D Biomaterials' technology is truly innovative and have very high hopes for the company's future."

Mercia has a strong track record in the healthcare sector. Companies it has supported using MEIF funding include prosthetics technology firm Adapttech, woundcare therapy specialist NuVision and Locate Bio, which is developing new treatments for patients with spinal conditions.

David Baker, Investment Manager at Mercia added: "4D Biomaterials is pioneering a new generation of biomaterials that offers benefits for patients and the health service alike. Not only could they speed up healing and remove the need for follow-on surgery, whether for tissue reconstruction or to remove the original implant. The funding will enable the company to find partners worldwide."

Mark Wilcockson, Senior Investment Manager at the British Business Bank added: "We're delighted to see this latest investment from the MEIF support new biotechnologies in the health sector. One of the key objectives of the MEIF is to see companies, like 4D Biomaterials, innovate, develop new products and expand. We encourage other businesses in the region to consider funding options available through the MEIF."

The Midlands Engine Investment Fund project is supported financially by the European Union using funding from the European Regional Development Fund (ERDF) as part of the European Structural and Investment Funds Growth Programme 2014-2020 and the European Investment Bank.

4D Biomaterials will be exhibiting at the Med-Tech Innovation Expo 2021, NEC Birmingham, from 28-29 September.

More information:
For further media information contact Ruth Ashton, University of Birmingham Enterprise, email r.c.ashton@bham.ac.uk.

For further commercial information contact Philip Smith, 4D Biomaterials, e-mail p.smith@4dbiomaterials.co.uk.


About 4D Biomaterials
4D Medicine Ltd (trading as 4D Biomaterials) was founded by a team of world class chemists and engineers to develop and commercialise a novel range of patent-pending, printable resins that promise to transform outcomes for patients across a range of biomedical applications. The company is looking to collaborate with innovative companies in Europe and North America to develop a new generation of 3D-printed medical devices that translate the unique advantages of the 4Degra™ resin-ink platform into improved treatment outcomes for patients

About University of Birmingham Enterprise
University of Birmingham Enterprise helps researchers turn their ideas into new services, products and enterprises that meet real-world needs. We also support innovators and entrepreneurs with mentoring, advice, and training and manage the University’s Academic Consultancy Service.

About Warwick Innovations
Warwick Innovations is the knowledge exchange and commercialisation arm of the University of Warwick. It provides business expertise, IP protection, support services and funding to the University’s academic innovators from any discipline. It designs and delivers enterprise training programmes for researchers at all stages of their career development.

About the University of Birmingham
The University of Birmingham is ranked amongst the world’s top 100 institutions. Its work brings people from across the world to Birmingham, including researchers, teachers and more than 6,500 international students from over 150 countries.

Provided by University of Birmingham

Citation: Medtech spinout behind new material for 3D printed implants raises £1.6m (2021, July 28) retrieved 29 March 2024 from https://sciencex.com/wire-news/388913751/medtech-spinout-behind-new-material-for-3d-printed-implants-rais.html
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