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Controlled Release & Smart Polymers

The development of novel drug delivery systems is an extremely active area of the biomedical industry, and there are obvious economic and therapeutic advantages to improving the manner in which drugs are administered. Polymer drug delivery systems have been an area of core competence within AIT for over 20 years, leading to numerous publications in peer-reviewed journals, as well as important collaborations with leading higher education and industry partners.

Core areas include:

  • Controlled Release of Pharmaceuticals
  • Drug eluting bioresorbable polymers
  • Hot Melt Extruded Formulations
  • Controlled release hydrogels
Controlled Release & Smart Polymers

Smart Polymers Research Group

Smart Polymers Research Group

We are now entering an exciting new era in smart medicine that in the years to come will change the face of medical practice.

Smart Polymers are next generation materials exhibiting extraordinary properties and will play a key role in the future of smart medicine. The Smart Polymers Research Group which is led by Dr. Luke Geever is one of the largest polymer materials processing research groups in Ireland specialising in materials and process innovation.

Synthesis and Solid State Pharmaceutical Centre

MRI Principal Investigators are also funded partners through the Synthesis and Solid State Pharmaceutical Centre (SSPC). The SSPC is a Global Hub of Pharmaceutical Process Innovation and Advanced Manufacturing, funded by Science Foundation Ireland and industry, and is a unique collaboration between 22 industry partners, 9 research performing organisations and 12 international academic collaborators. AIT is a lead partner for melt processing research within the SSPC.

Synthesis and Solid State Pharmaceutical Centre

Ireland is a world-leader in the manufacture of pharmaceutical based products and is the preferred European location for international pharmaceutical investment. To maintain and develop this position, the sector must continue to grow its R&D capabilities.

Biomedical Polymer Research
Biomedical polymer research at the MRI is underpinned by a strong tradition in polymer chemistry and polymer processing capabilities. Building on these foundations, a wide variety of materials and manufacturing methods are currently being developed.

Core areas include:
Bone regeneration, Peripheral nerve repair, Biodegradable stents, Wound healing devices, Lubricious hydrophilic coatings.

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Biomedical Polymers

Bone is a highly complex tissue, which undergoes microfracture and repair through everyday loading. It is this ability to repair and regenerate its structure that enables bone to spontaneously repair itself following injury without the formation of scar tissue. However, 5-10% of all fractures do not heal in the desired manner. This can lead to the need for surgical intervention where the most common treatment is a bone grafting procedure. There are an estimated 2.2 million such procedures globally each year, which makes bone the second most transplanted tissue after blood. These procedures have inherent disadvantages which gives rise to a great deal of research in this area to develop viable bone graft substitute materials.

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Biomedical Polymers

Peripheral nerve injuries may occur as a result of trauma, infection, or genetic disorders, resulting in pain, sensory loss, muscle weakness and problems with movement. It is estimated that over 700,000 surgical procedures are conducted in the US alone very year, and the annual value of the market is over $700 M. At present, there is no commercially available polymeric device that equals the performance of the autograft, which is the current gold standard. To address this unmet clinical need, the peripheral nerve repair biomaterials programme at the MRI seeks to develop novel polymeric biomaterials and manufacturing methods for the creation of the next generation of medical implants for peripheral nerve repair applications.

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Biomedical Polymers

The MRI has a strong track record in the field of coatings for catheters, development of drug eluting stents and the development of biodegradable polymer blends with tailored degradation profiles and mechanical properties. This knowledge is combined to produce solutions for use in the field of biodegradable stents, where polymers and composites with specific mechanical properties and degradation profiles are required.

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Biomedical Polymers

Biomedical Polymer Research
Biomedical polymer research at the MRI is underpinned by a strong tradition in polymer chemistry and polymer processing capabilities. Building on these foundations, a wide variety of materials and manufacturing methods are currently being developed.

Core areas include:
Bone regeneration, Peripheral nerve repair, Biodegradable stents, Wound healing devices, Lubricious hydrophilic coatings.

Learn More
Biomedical Polymers

Biomedical Polymer Research
Biomedical polymer research at the MRI is underpinned by a strong tradition in polymer chemistry and polymer processing capabilities. Building on these foundations, a wide variety of materials and manufacturing methods are currently being developed.

Core areas include:
Bone regeneration, Peripheral nerve repair, Biodegradable stents, Wound healing devices, Lubricious hydrophilic coatings.

Learn More
Biomedical Polymers

Controlled Release & Smart Polymers
The development of novel drug delivery systems is an extremely active area of the biomedical industry, and there are obvious economic and therapeutic advantages to improving the manner in which drugs are administered. Polymer drug delivery systems have been an area of core competence within AIT for over 20 years, leading to numerous publications in peer-reviewed journals, as well as important collaborations with leading higher education and industry partners.

Learn More
Controlled Release & Smart Polymers

Smart Polymers are a new generation of materials which exhibit extraordinary properties. These types of polymers can respond sharply to small changes in physical or chemical conditions with relatively large phase or property changes. Arguable the greatest potential of smart polymers lays in the area of targeted drug delivery. With clinical applications beginning to emerge it is a very exciting time for smart polymer materials research.

Learn More
Controlled Release & Smart Polymers

Controlled Release & Smart Polymers
The development of novel drug delivery systems is an extremely active area of the biomedical industry, and there are obvious economic and therapeutic advantages to improving the manner in which drugs are administered. Polymer drug delivery systems have been an area of core competence within AIT for over 20 years, leading to numerous publications in peer-reviewed journals, as well as important collaborations with leading higher education and industry partners.

Learn More
Controlled Release & Smart Polymers

Controlled Release & Smart Polymers
The development of novel drug delivery systems is an extremely active area of the biomedical industry, and there are obvious economic and therapeutic advantages to improving the manner in which drugs are administered. Polymer drug delivery systems have been an area of core competence within AIT for over 20 years, leading to numerous publications in peer-reviewed journals, as well as important collaborations with leading higher education and industry partners.

Learn More
Controlled Release & Smart Polymers

Controlled Release & Smart Polymers
The development of novel drug delivery systems is an extremely active area of the biomedical industry, and there are obvious economic and therapeutic advantages to improving the manner in which drugs are administered. Polymer drug delivery systems have been an area of core competence within AIT for over 20 years, leading to numerous publications in peer-reviewed journals, as well as important collaborations with leading higher education and industry partners.

Learn More
Controlled Release & Smart Polymers

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Polymer Processing & Additive Manufacturing
The Materials Research Institute has unrivalled polymer processing capabilities in the Irish setting. It carries equipment for injection moulding, extrusion, melt spinning, compounding, vacuum forming, compression moulding and blow moulding. The Materials Research Institute is home to the Applied Polymer Technologies (APT) Technology Gateway. APT is part of the Technology Gateway Network, a nationwide resource for industry based in the IoTs delivering solutions on near to market problems for industrial partners.

Learn More
Polymer Processing & Additive Manufacturing

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

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Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Composites Materials & Upscaling
The MRI specializes in the development of innovative thermoplastic composite materials for use in a variety of industrial applications. Polymer composites consist of a matrix polymer material with a reinforcing or non-reinforcing filler dispersed throughout. The matrix polymer acts to provide protection to the reinforcement material from both chemical and environmental attack; bonding to the reinforcement to permit transfer of load; and to hold the reinforcement in a fixed orientation.
Our research encompasses both fibrous and particulate reinforcement, with a focus on basalt fibre, nanoclay and halloysite tubes.

Learn More
Composites Materials & Upscaling

Funding Opportunities