Innovation and Knowledge Centre Regenerative Therapies and Devices Tranche 2 IKC RTD
Lead Research Organisation:
University of Leeds
Department Name: Mechanical Engineering
Abstract
The Innovation and Knowledge Centre in Regenerative Therapies and Devices has established a sustainable platform to address the creation of new technologies in Regenerative Therapies and Devices. Through strategic prioritisation and development of key technology areas we have sought to promote their accelerated adoption, with increased reliability, within a complex global marketplace with increasing cost constraints. Therapies and devices which facilitate the regeneration of body tissues offer the potential to revolutionise healthcare and be a catalyst for economic growth, creating a new business sector within healthcare technology.
The IKCRTD has built upon the culture and research landscape of the University and its partners (industry, NHS and intermediaries/users) through the development of new innovation infrastructure and practices which deliver major clinical, health and industry outcomes.
In the first two years of operation IKCRTD has:
Established a high quality research and innovation platform that is underpinned by:
£85m new research income
Established academic supply chain, new research centre with 250 researchers
University investment for a new Medical Technologies Innovation building to create a community to stimulate innovation.
Embedded successful sustainable innovation through:
The development of a robust sustainability model
Strategic identification and prioritisation of key market sectors
Contributing to the development of 35 new products that have reached the market
Developing a culture of innovation across academic, industry and clinical partnerships.
Established a significant profile and reputation through:
Significant political visits and media coverage
Widened reach and connections across the UK through strategic alignment with Regener8
Established a Medical Technologies brand to facilitate companies, academics and clinical partners to collaborate with the centre.
Established robust innovation management through:
Recruited and established core team and set up governance structures
Established an innovation pipeline, stage gates and the criteria for project progression
A defined IP portfolio, 11 Proof of Concept and 4 Co-Development projects directly funded
Pipeline of 107 collaborative innovation projects
Engagement with 34 company partners
Access to wider network of 200 plus potential collaborative companies.
The IKCRTD has built upon the culture and research landscape of the University and its partners (industry, NHS and intermediaries/users) through the development of new innovation infrastructure and practices which deliver major clinical, health and industry outcomes.
In the first two years of operation IKCRTD has:
Established a high quality research and innovation platform that is underpinned by:
£85m new research income
Established academic supply chain, new research centre with 250 researchers
University investment for a new Medical Technologies Innovation building to create a community to stimulate innovation.
Embedded successful sustainable innovation through:
The development of a robust sustainability model
Strategic identification and prioritisation of key market sectors
Contributing to the development of 35 new products that have reached the market
Developing a culture of innovation across academic, industry and clinical partnerships.
Established a significant profile and reputation through:
Significant political visits and media coverage
Widened reach and connections across the UK through strategic alignment with Regener8
Established a Medical Technologies brand to facilitate companies, academics and clinical partners to collaborate with the centre.
Established robust innovation management through:
Recruited and established core team and set up governance structures
Established an innovation pipeline, stage gates and the criteria for project progression
A defined IP portfolio, 11 Proof of Concept and 4 Co-Development projects directly funded
Pipeline of 107 collaborative innovation projects
Engagement with 34 company partners
Access to wider network of 200 plus potential collaborative companies.
Planned Impact
IKCRTD is developing and delivering innovation from fundamental research in regenerative therapies and devices and in broader aspects of medical technologies.
We are currently providing knowledge, unique capabilities and intellectual assts to 34 companies through 107 collaborative projects, 22 of these companies are new collaborators since the start of the IKC. Tranche two funding will allow us to substantially increase the innovation management capacity and support, the number of proof of concept projects to advance fundamental research findings through assessed technology solutions, making them ready for product development and investment with reduced risk. Additionally IKCRTD will support a further two larger scale Co-Development projects in partnership with companies.
IKCRTD is delivering highly skilled multidisciplinary scientists and engineers to industry, with enhanced innovation skills and experience in medical technologies innovation.
As a national centre of excellence in regenerative medicine and therapies, IKCRTD is providing a centre of excellence providing the country with access to knowledge, IP, unique capabilities and intellectual assets, supplying industry directly and where appropriate acting to signpost needs to other academic institutions and collaborators.
IKCRTD is directly addressing and identifying clinical needs and providing a supportive environment for tripartite academic, clinical and industry interactions to support the successful development of new medical and regenerative technologies.
IKCRTD will address broader societal needs through the delivery of emergent healthcare technology solutions to the ageing population and will raise the profile of successful science and innovation to society at large.
We are currently providing knowledge, unique capabilities and intellectual assts to 34 companies through 107 collaborative projects, 22 of these companies are new collaborators since the start of the IKC. Tranche two funding will allow us to substantially increase the innovation management capacity and support, the number of proof of concept projects to advance fundamental research findings through assessed technology solutions, making them ready for product development and investment with reduced risk. Additionally IKCRTD will support a further two larger scale Co-Development projects in partnership with companies.
IKCRTD is delivering highly skilled multidisciplinary scientists and engineers to industry, with enhanced innovation skills and experience in medical technologies innovation.
As a national centre of excellence in regenerative medicine and therapies, IKCRTD is providing a centre of excellence providing the country with access to knowledge, IP, unique capabilities and intellectual assets, supplying industry directly and where appropriate acting to signpost needs to other academic institutions and collaborators.
IKCRTD is directly addressing and identifying clinical needs and providing a supportive environment for tripartite academic, clinical and industry interactions to support the successful development of new medical and regenerative technologies.
IKCRTD will address broader societal needs through the delivery of emergent healthcare technology solutions to the ageing population and will raise the profile of successful science and innovation to society at large.
Organisations
- University of Leeds (Lead Research Organisation)
- Biotechnology and Biological Sciences Research Council (Co-funder)
- Simpleware Ltd (Collaboration)
- Biomet, Inc (Collaboration)
- LEEDS TEACHING HOSPITALS NHS TRUST (Collaboration)
- RD Biomed (Collaboration)
- Simulation Solutions (Collaboration)
- Biocomposites (Collaboration)
- Neu Biomechanics (Collaboration)
- Credentis (Collaboration)
- Leeds General Infirmary (Collaboration)
- Corin Group PLC (Collaboration)
- Tissue Regenix Ltd (Collaboration)
- Mathys (Collaboration)
- North American Science Associates Inc (Collaboration)
- University Medical Center Utrecht (UMC) (Collaboration)
- UNIVERSITY OF LEEDS (Collaboration)
- NHS Blood and Transplant (NHSBT) (Collaboration)
- Neotherix Ltd (Collaboration)
- Collagen Solutions (Collaboration)
- Avacta Group (Collaboration)
- Depuy International (Collaboration)
- Invibio (Collaboration)
- Corline (Collaboration)
- Victrex (United Kingdom) (Project Partner)
- Credentis (Switzerland) (Project Partner)
Publications
Ruddle R
(2016)
The Design and Evaluation of Interfaces for Navigating Gigapixel Images in Digital Pathology
in ACM Transactions on Computer-Human Interaction
Sariali E
(2012)
Effect of cup abduction angle and head lateral microseparation on contact stresses in ceramic-on-ceramic total hip arthroplasty.
in Journal of biomechanics
Sariali E
(2012)
Spectral characterization of squeaking in ceramic-on-ceramic total hip arthroplasty: comparison of in vitro and in vivo values.
in Journal of orthopaedic research : official publication of the Orthopaedic Research Society
Sharma R
(2016)
Label-free electrochemical impedance biosensor to detect human interleukin-8 in serum with sub-pg/ml sensitivity.
in Biosensors & bioelectronics
Smith AJ
(2017)
Rapid cell separation with minimal manipulation for autologous cell therapies.
in Scientific reports
Smith AJ
(2017)
Rapid cell separation with minimal manipulation for autologous cell therapies.
in Scientific reports
Tatterton M
(2012)
The use of antithrombotic therapies in reducing synthetic small-diameter vascular graft thrombosis.
in Vascular and endovascular surgery
Taylor SD
(2012)
Comparison of human and animal femoral head chondral properties and geometries.
in Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine
Thangarajah T
(2018)
Application of a Demineralized Cortical Bone Matrix and Bone Marrow-Derived Mesenchymal Stem Cells in a Model of Chronic Rotator Cuff Degeneration.
in The American journal of sports medicine
Description | High quality research and innovation platform £100m new research income Established academic supply chain and translational capability across 250 researchers Active collaborations and technology validation with 9 UK HEIs, 18 academic and clinical partners New Medical Technologies building and a new post of Director of Innovation in Medical Technologies Successful sustainable innovation , re-funded until 2020 through phase 2 Defined robust sustainability model Strategically identified and prioritised key market sectors that offer significant opportunity Developed a culture of innovation across academic, industry and clinical partnerships Sharing innovation good practice with 10 UK HEIs and other innovation hubs at Leeds 166 collaborative projects, 66 industry co-investors Established profile and reputation Robust brand identity and reach across the UK and beyond through targeted marketing and communications Strategic alignment with Regener8 giving access to a 240 industry members, 328 academics and 21 clinicians across UK High profile events with national partners to engage the community in issues that impact on medical and regenerative technology innovation. Significant political visits and media coverage Successful innovation and translation Established Innovation system, pipeline, stage gates and criteria for progression Defined IP portfolio and directly funded 50 Proof of Concept projects Pipeline of 166 collaborative innovation projects with industry, of which 48 directly IKC funded Contributed to the development of 75 new products services . Generated £107m investment in private sector partners for development of our IP/technology |
Exploitation Route | Exploitation and commercialisation by our industry partners and NHS 1, New simulation methods, new equipment and new standards for pre clinical evaluation of joint replacements industry partner Simulation Solutions 2, New and improved, longer lasting joint replacements , industry partners DePuy Synthes, Invibio, Mathys 3, New acellular scaffolds for tissue regeneration Applications , wound care, ligament repair and replacement, heart valve replacement, industry partner Tissue Regenix 4, New acellular scaffolds for tissue regeneration with grafts derived from human tissue Applications wound care and heart valve repair, partner NHS Blood and Transplant |
Sectors | Healthcare |
URL | http://www.medical-technologies.co.uk |
Description | High quality research and innovation platform £95m new research income Established academic supply chain and translational capability across 250 researchers Active collaborations and technology validation with 10 UK HEIs, 18 academic and clinical partners New Medical Technologies building and a new post of Director of Innovation in Medical Technologies Successful sustainable innovation system renewed to 2020 Strategically identified and prioritised key market sectors that offer significant opportunity for growth estimated as $1bn by 2020 Developed a culture of innovation across academic, industry and clinical partnerships Sharing innovation good practice with 10 other UK HEIs and other innovation hubs at Leeds 166 collaborative projects, 66 industry co-investors, 50 proof of concept projects Established profile and reputation Robust brand identity and reach across the UK and beyond through targeted marketing and communications Strategic alignment with Regener8 giving access to a 240 industry members, 328 academics and 21 clinicians across UK High profile events with national partners to engage the community in issues that impact on medical and regenerative technology innovation. Significant political visits and media coverage Successful innovation and translation Established Innovation system, pipeline, stage gates and criteria for progression Defined IP portfolio and directly funded 50 Proof of Concept Pipeline of 166 collaborative innovation projects with industry, of which 50 directly IKC funded Contributed to the development of 75 new products or services with uptake by external partners Generated £107m investment in private sector partners in he private sector for development of our IP/technology and collaborative projects Examples and case studies of impact 1, New simulation methods, new equipment and new standards for pre clinical evaluation of joint replacements industry partner Simulation Solutions. Newly developed equipment sold in UK Europe Asia and USA 2, New and improved, longer lasting joint replacements , industry partners DePuy Synthes, Invibio, Mathys, sold in Uk, Europe, USA and world wide 3, New acellular scaffolds for tissue regeneration Applications , wound care, ligament repair and replacement, heart valve replacement, industry partner University spin out Tissue Regenix Multiple products manufactured and sold in UK, USA and in Europe 4, New acellular scaffolds for tissue regeneration with grafts derived from human tissue Applications wound care and heart valve repair, partner NHS Blood and Transplant, in clinical use in Uk 5, Novel peptide based dental biomaterials for tooth repair filing without drilling , Start up Credentis, multiple commercial products in use across Europe |
First Year Of Impact | 2011 |
Sector | Healthcare |
Impact Types | Societal Economic |
Description | Chair of ISO TC150/SC4 Bone and Joint Replacements |
Geographic Reach | Multiple continents/international |
Policy Influence Type | Membership of a guideline committee |
Impact | New international standards published, including a test method developed at the University of Leeds (ISO14242-4). |
Description | Presented 'provocation' and participated in Wellcome Health Exchange - Wellcome Trust discussion on healthy aging research chaired by Eliza Manningham-Buller (Ruth Wilcox) |
Geographic Reach | National |
Policy Influence Type | Membership of a guideline committee |
Description | international standards committee chair |
Geographic Reach | Asia |
Policy Influence Type | Membership of a guideline committee |
Impact | international pre clinical testing standards |
Description | Biocomposites |
Amount | £200,000 (GBP) |
Funding ID | LMJ |
Organisation | Biocomposites |
Sector | Private |
Country | United Kingdom |
Start | 01/2013 |
End | 01/2016 |
Description | Biomedical research unit |
Amount | £6,000,000 (GBP) |
Funding ID | Leeds musculoskeletal biomedical research unit |
Organisation | National Institute for Health Research |
Sector | Public |
Country | United Kingdom |
Start | 03/2014 |
End | 03/2017 |
Description | British Heart Foundation Research Grant |
Amount | £798,506 (GBP) |
Organisation | British Heart Foundation (BHF) |
Sector | Charity/Non Profit |
Country | United Kingdom |
Start |
Description | CCTMIH Manufacture of Future Fibrous Products Research Fellowship |
Amount | £250,000 (GBP) |
Organisation | University of Leeds |
Sector | Academic/University |
Country | United Kingdom |
Start | 03/2019 |
End | 03/2021 |
Description | CDT 2014-22 |
Amount | £4,000,000 (GBP) |
Funding ID | CDT TERM |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 05/2014 |
End | 09/2022 |
Description | Capital equipment CDT |
Amount | £240,000 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 11/2015 |
End | 04/2019 |
Description | Capital equipment hip and knee simulators |
Amount | £920,000 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 03/2015 |
End | 04/2020 |
Description | Catalyst Medical Technologies |
Amount | £3,000,000 (GBP) |
Organisation | Higher Education Funding Council for England |
Sector | Public |
Country | United Kingdom |
Start | 09/2015 |
End | 10/2018 |
Description | Clothworkers Foundation/UoL - CCTMIH Equipment |
Amount | £500,000 (GBP) |
Organisation | University of Leeds |
Sector | Academic/University |
Country | United Kingdom |
Start | 12/2018 |
End | 12/2019 |
Description | DECOVID |
Amount | £74,532 (GBP) |
Organisation | Alan Turing Institute |
Sector | Academic/University |
Country | United Kingdom |
Start | 03/2020 |
End | 04/2021 |
Description | DTC 208-2017 |
Amount | £7,000,000 (GBP) |
Funding ID | DTC |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 05/2008 |
End | 09/2017 |
Description | DTP |
Amount | £2,000,000 (GBP) |
Funding ID | DTP |
Organisation | DePuy Synthes |
Sector | Private |
Country | United States |
Start | 01/2014 |
End | 01/2016 |
Description | Development of Prototype Device for Minimally Invasive Delivery of Osteospheres for Treatment of Osteoporosis (MIDOs) |
Amount | £1,100,509 (GBP) |
Funding ID | II-C3-0714-20001 |
Organisation | National Institute for Health Research |
Sector | Public |
Country | United Kingdom |
Start | 06/2015 |
End | 01/2018 |
Description | EPSRC - VaxHub Thermostable Formulations |
Amount | £192,000 (GBP) |
Organisation | University of Leeds |
Sector | Academic/University |
Country | United Kingdom |
Start | 04/2019 |
End | 07/2020 |
Description | EPSRC Healthcare Technology Challenge |
Amount | £1,200,000 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 03/2013 |
End | 04/2016 |
Description | EPSRC IAA Feasibility Study Award (Steve Russell - Collagen wound dressing) |
Amount | £10,000 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start |
Description | EPSRC cartilage programme |
Amount | £4,600,000 (GBP) |
Funding ID | EPG01121721 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 05/2009 |
End | 06/2015 |
Description | European Research Council advanced award |
Amount | £2,000,000 (GBP) |
Funding ID | Proposal 267114 |
Organisation | European Research Council (ERC) |
Sector | Public |
Country | Belgium |
Start | 03/2011 |
End | 04/2016 |
Description | European Rheumatology Research Fountation |
Amount | € 300,000 (EUR) |
Organisation | The European League Against Rheumatism (EULAR) |
Sector | Private |
Country | Switzerland |
Start | 09/2014 |
End | 09/2017 |
Description | Healthcare Impact Partnership |
Amount | £1,025,492 (GBP) |
Funding ID | EP/N02480X/1 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 05/2016 |
End | 05/2021 |
Description | Healthcare Technologies Programme Grant |
Amount | £3,962,447 (GBP) |
Funding ID | EP/N02480X/1 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 09/2016 |
End | 09/2021 |
Description | Impact acceleration award |
Amount | £36,883 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 03/2014 |
End | 02/2015 |
Description | Industry Biocomposites |
Amount | £150,000 (GBP) |
Organisation | Biocomposites |
Sector | Private |
Country | United Kingdom |
Start | 06/2015 |
End | 07/2016 |
Description | Industry Invibio |
Amount | £300,000 (GBP) |
Organisation | Invibio |
Sector | Private |
Country | United Kingdom |
Start | 09/2015 |
End | 10/2017 |
Description | Intrinsic regeneration of osteoarthritic cartilage by unloading involves per-articular stem cell activity: a joint effort.(POC017, McGonagle, UoL) |
Amount | € 300,000 (EUR) |
Organisation | Foreum |
Sector | Charity/Non Profit |
Country | Switzerland |
Start | 01/2015 |
End | 01/2019 |
Description | Marie-Curie IIF |
Amount | € 220,000 (EUR) |
Funding ID | BoNE-GrAFT |
Organisation | European Union |
Sector | Public |
Country | European Union (EU) |
Start | 11/2017 |
End | 10/2019 |
Description | Mecical technologies Innovation and Knowledge Centre Phase 2 Regenerative Devices |
Amount | £4,000,000 (GBP) |
Funding ID | EP/N00941X/1 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 06/2015 |
End | 07/2020 |
Description | Medcial engineering centre |
Amount | £160,000 (GBP) |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 06/2015 |
End | 07/2019 |
Description | Medical Research Council Confidence in Concept Award (Steve Russell - Collagen wound dressing) |
Amount | £100,000 (GBP) |
Organisation | Medical Research Council (MRC) |
Sector | Public |
Country | United Kingdom |
Start |
Description | Medical Technologies IKC Phase 2 Regenerative Devices |
Amount | £3,000,000 (GBP) |
Funding ID | EP/N00941X/1 |
Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
Sector | Public |
Country | United Kingdom |
Start | 06/2015 |
End | 06/2020 |
Description | Medical engineering centre |
Amount | £4,200,000 (GBP) |
Funding ID | WELMEC |
Organisation | Wellcome Trust |
Sector | Charity/Non Profit |
Country | United Kingdom |
Start | 09/2014 |
End | 09/2015 |
Description | NHS Yorkshire & Humber Deanery |
Amount | £110,000 (GBP) |
Organisation | NHS England |
Sector | Public |
Country | United Kingdom |
Start | 03/2015 |
End | 02/2016 |
Description | NHSBT |
Amount | £200,000 (GBP) |
Funding ID | EI |
Organisation | NHS Blood and Transplant (NHSBT) |
Sector | Public |
Country | United Kingdom |
Start | 01/2014 |
End | 01/2017 |
Description | NIHR Invention for Innovation (i4i) Programme (Pete Culmer IAP) |
Amount | £445,000 (GBP) |
Organisation | National Institute for Health Research |
Sector | Public |
Country | United Kingdom |
Start |
Description | Research England Grow MedTech Proof of Concept: POC 000077 |
Amount | £79,993 (GBP) |
Organisation | United Kingdom Research and Innovation |
Sector | Public |
Country | United Kingdom |
Start | 09/2019 |
End | 05/2021 |
Description | Smart Multifunctional Dental Implants (I-SMaRD) |
Amount | € 5,100,000 (EUR) |
Funding ID | H2020-NMBP-TR-IND-2020-953128 |
Organisation | European Commission |
Sector | Public |
Country | European Union (EU) |
Start | 03/2021 |
End | 03/2025 |
Description | Tissue regenix |
Amount | £60,000 (GBP) |
Funding ID | EI |
Organisation | Tissue Regenix Ltd |
Sector | Private |
Country | United Kingdom |
Start | 01/2016 |
End | 01/2018 |
Description | invibio |
Amount | £400,000 (GBP) |
Funding ID | LMJ |
Organisation | Invibio |
Sector | Private |
Country | United Kingdom |
Start | 01/2014 |
End | 12/2016 |
Description | mathys |
Amount | £400,000 (GBP) |
Funding ID | LMJ |
Organisation | Mathys |
Sector | Private |
Country | Switzerland |
Start | 01/2014 |
End | 01/2016 |
Description | senior investigator |
Amount | £100,000 (GBP) |
Funding ID | LMBRU |
Organisation | National Institute for Health Research |
Sector | Public |
Country | United Kingdom |
Start | 03/2014 |
End | 04/2015 |
Title | Ankle joint simulation |
Description | Ankle joint simulation system |
Type Of Material | Model of mechanisms or symptoms - human |
Provided To Others? | No |
Impact | Wear prediction in total ankle joint |
Title | Hip Joint simulator |
Description | In vitro simulator for artificial hip joints |
Type Of Material | Model of mechanisms or symptoms - in vitro |
Year Produced | 2013 |
Provided To Others? | Yes |
Impact | Method commercialised by Simulation Solutions |
Title | Knee joint simulator |
Description | artificial knee joint simulator |
Type Of Material | Model of mechanisms or symptoms - in vitro |
Year Produced | 2013 |
Provided To Others? | Yes |
Impact | Simulator and simulation method commercialised by simulation solution |
Title | Natural knee simulator |
Description | Simulation system for natural knee |
Type Of Material | Model of mechanisms or symptoms - in vitro |
Year Produced | 2013 |
Provided To Others? | Yes |
Impact | Simulator commercially available, Simulation Solutions |
Title | POC015 Methods for histological staining of sheep tissue |
Description | This relates to new methods, specifically a whole battery of methods to stain sheep tissue were developed that were not available previously. |
Type Of Material | Biological samples |
Year Produced | 2017 |
Provided To Others? | No |
Impact | New methods developed; whole battery of methods to stain sheep tissue were developed that were not available previously. These methods have been made available to the wider team and subsequent research projects. |
Title | Patellar simulation |
Description | Simulation of mechanics and wear of patellae femoral joint |
Type Of Material | Model of mechanisms or symptoms - human |
Year Produced | 2015 |
Provided To Others? | Yes |
Impact | Determination of wear in patellar femoral joint |
Title | natural hip simulator |
Description | Simulation system for natural hip |
Type Of Material | Model of mechanisms or symptoms - mammalian in vivo |
Year Produced | 2014 |
Provided To Others? | Yes |
Impact | System commercially availa le from Simulation Solutions |
Title | spine simulator |
Description | Spinal disc simulator |
Type Of Material | Model of mechanisms or symptoms - in vitro |
Year Produced | 2012 |
Provided To Others? | Yes |
Impact | Commercialised by Simulation solutions |
Title | Biomechanical and biotribological simulation model natural hip |
Description | Biomechanical and biotribological model of natural hip |
Type Of Material | Computer model/algorithm |
Year Produced | 2013 |
Provided To Others? | Yes |
Impact | used in follow on research |
Title | Biomechanical model of functional spinal unit |
Description | model of functional spinal unit |
Type Of Material | Computer model/algorithm |
Year Produced | 2014 |
Provided To Others? | Yes |
Impact | used in follow on research |
Title | Biotribological model naturala knee |
Description | Biotribological model natural knee |
Type Of Material | Computer model/algorithm |
Year Produced | 2014 |
Provided To Others? | Yes |
Impact | Used in follow on research on regenerative devices |
Title | Data associated with "PEEK-OPTIMA (Trademark) as an Alternative to Cobalt Chrome in the Femoral Component of Total Knee Replacement: A Preliminary Study". |
Description | The dataset contains material to supplement the paper "PEEK-OPTIMA (Trademark) as an Alternative to Cobalt Chrome in the Femoral Component of Total Knee Replacement: A Preliminary Study" including: wear rates of UHMWPE tibial components articulating against PEEK-OPTIMA (Trademark) and cobalt chrome femoral components under two kinematic conditions, surface roughness analysis of PEEK-OPTIMA and cobalt chrome femoral components following wear simulation using a contacting Form Talysurf and measurements of the bulk lubricant temperature using a thermocouple. |
Type Of Material | Database/Collection of data |
Year Produced | 2016 |
Provided To Others? | Yes |
Impact | None |
URL | http://archive.researchdata.leeds.ac.uk/74/ |
Title | Data associated with "Third body wear of UHMWPE-on-PEEK-OPTIMAâ„¢" |
Description | The dataset contains material to supplement the paper "Third body wear of UHMWPE-on-PEEK-OPTIMAâ„¢" including: measurements of the surface topography of PEEK and cobalt chrome plates following third body damage simulation with particles of PMMA cement and wear factors of UHMWPE against PEEK and cobalt chrome plates damaged both with cement particles and scratched with a diamond stylus. |
Type Of Material | Database/Collection of data |
Year Produced | 2020 |
Provided To Others? | Yes |
Impact | Pre-clinical data that reduces need for in vivo animal models |
URL | http://archive.researchdata.leeds.ac.uk/658/ |
Title | Data associated with "Wear and Friction of UHMWPE-on-PEEK OPTIMAâ„¢" |
Description | The dataset contains material to supplement the paper "Wear and Friction of UHMWPE-on-PEEK OPTIMAâ„¢" by Cowie R M., Briscoe A, Fisher J, Jennings LM (2019) J. Mech. Behav. Biomed. Mater. Volume 89, January 2019, Pages 65-71. https://doi.org/10.1016/j.jmbbm.2018.09.021 |
Type Of Material | Database/Collection of data |
Year Produced | 2018 |
Provided To Others? | Yes |
Impact | None |
URL | http://archive.researchdata.leeds.ac.uk/423/ |
Title | Dataset supporting the publication 'Computationally Efficient Modelling of Hip Replacement Separation Due to Small Mismatches in Component Centres of Rotation' |
Description | Patient imaging and explant analysis has shown evidence of edge loading of hard-on-hard hip replacements in vivo. Experimental hip simulator testing under edge loading conditions has produced increased, clinically-relevant, wear rates for hard-on-hard bearings when compared to concentric conditions. Such testing, however, is time consuming and costly. A quick running computational edge loading model (Python Edge Loading (PyEL) - quasi-static, rigid, frictionless), capable of considering realistic bearing geometries, was developed. The aim of this study was to produce predictions of separation within the typical experimental measurement error of ~0.5 mm. The model was verified and validated against comparable finite element (FE) models (including inertia and friction) and pre-existing experimental test data for 56 cases, covering a variety of simulated cup orientations, positions, tissue tensions, and loading environments. The PyEL model agreed well with both the more complex computational modelling and experimental results. From comparison with the FE models, the ashumption of no inertia had little effect on the maximum separation prediction. With high contact force cases, the ashumption of no friction had a larger effect (up to ~5% error). The PyEL model was able to predict the experimental maximum separations within ~0.3 mm. It could therefore be used to optimise an experimental test plan and efficiently investigate a much wider range of scenarios and variables. It could also help explain trends and damage modes seen in experimental testing through identifying the contact locations on the liner that are not easily measured experimentally. |
Type Of Material | Database/Collection of data |
Year Produced | 2019 |
Provided To Others? | Yes |
Impact | not yet any impact |
URL | http://archive.researchdata.leeds.ac.uk/561/ |
Title | Supplementary data associated with research paper: Decellurised intervertebral discs: A potential replacement for degenerate human intervertebral discs |
Description | Supplementary data associated with research paper: Decellurised intervertebral discs: A potential replacement for degenerate human intervertebral discs. Dataset comprised of histological images of bovine and human intervertebral disc (IVD) tissue regions; DNA and glycosaminoglycan assay data for bovine and human IVD tissue regions and biomechanical data for the compression testing of bovine IVDs. Date provided for cellular and decellularised samples. |
Type Of Material | Database/Collection of data |
Year Produced | 2020 |
Provided To Others? | Yes |
Impact | not yet any impact |
URL | http://archive.researchdata.leeds.ac.uk/766/ |
Title | wear simulation model artificial hip |
Description | wear simulation model artificial hip |
Type Of Material | Computer model/algorithm |
Year Produced | 2010 |
Provided To Others? | Yes |
Impact | applied in industry contract research |
Title | wear simulation model artificial knee |
Description | wear simulation model artificial knee |
Type Of Material | Computer model/algorithm |
Year Produced | 2012 |
Provided To Others? | Yes |
Impact | used in industry contract research |
Description | Avacta |
Organisation | Avacta Group |
Country | United Kingdom |
Sector | Private |
PI Contribution | Electronic Biomarker Detection (eTect); Use of spectroscopy for non-invasive phenotyping of stem cells; Use of di-electrophoresis for minimally manipulated stem cell enrichment. |
Start Year | 2010 |
Description | Biocomposites Ltd |
Organisation | Biocomposites |
Country | United Kingdom |
Sector | Private |
PI Contribution | Calcium Phosphate Bone Void Filler - A Pin-on-Plate Study; Calcium Sulphate Bone Void Filler Comparison - A Pin-on-Plate Study |
Collaborator Contribution | participate in research and publication |
Impact | Publication |
Start Year | 2014 |
Description | Biomet |
Organisation | Biomet, Inc |
Department | Biomet UK |
Country | United Kingdom |
Sector | Private |
PI Contribution | Evaluate biomechanics and tribology of new ankle implant. |
Start Year | 2011 |
Description | BoNE-GraFT EU Fellowship |
Organisation | Leeds General Infirmary |
Country | United Kingdom |
Sector | Hospitals |
PI Contribution | Leeds General Infirmary (Prof. P. Giannoudis) LIRMM (Dr. Elena Jones) New collaboration |
Collaborator Contribution | The project aims to develop a strong cortical bone templates for integrative manufacturing of bone tissues. |
Impact | New collaboration |
Start Year | 2017 |
Description | Corin |
Organisation | Corin Group PLC |
Country | United Kingdom |
Sector | Private |
PI Contribution | Metal on metal hip wear |
Collaborator Contribution | materials |
Impact | multidiciplinary |
Start Year | 2009 |
Description | Corline |
Organisation | Corline |
Country | Sweden |
Sector | Private |
PI Contribution | Heparin coated acellular vascular grafts |
Start Year | 2011 |
Description | Credentis |
Organisation | Credentis |
Country | Switzerland |
Sector | Private |
PI Contribution | Use of Self assembling peptide(SAP) technology for hard tissue engineering (dental applications) |
Collaborator Contribution | materilas |
Impact | Ip piublications |
Start Year | 2014 |
Description | DePUY International Ltd |
Organisation | Depuy International |
Country | United Kingdom |
Sector | Private |
Start Year | 2004 |
Description | DePuy |
Organisation | Depuy International |
Country | United Kingdom |
Sector | Private |
PI Contribution | Thirty-three projects. |
Collaborator Contribution | funds , materilas staff |
Impact | publications |
Start Year | 2013 |
Description | Depuy International Ltd |
Organisation | Depuy International |
Country | United Kingdom |
Sector | Private |
Start Year | 2004 |
Description | IKC Tissue Engineering Leeds for periodontium tissue engineering |
Organisation | University of Leeds |
Department | Medical Technologies IKC |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | The IKC Tissue Engineering team has funded a seed-corn project to support the Marie-Curie Fellowship project of Dr. Antonios Anastasiou. This short-term project is linked with main stream Marie-Curie PReFacto project at Leeds. In this project, the cell growth study is being carried out for ascertaining the suitability of laser-irradiated chitosan/calcium phosphate minerals for engineering a novel tissue template for restoring damaged periodontium. |
Collaborator Contribution | IKC is funding the seedcorn project. |
Impact | Not yet |
Start Year | 2016 |
Description | Invibio |
Organisation | Invibio |
Country | United Kingdom |
Sector | Private |
PI Contribution | Four projects: PEEK low con knees; Investigation of biocompatibilty of PEEK wear debris; Investigation of PEEK as cervical disc bearing material; Low Cost Polymer Knee |
Start Year | 2010 |
Description | LMBRU LTHT |
Organisation | Leeds Teaching Hospitals NHS Trust |
Country | United Kingdom |
Sector | Public |
PI Contribution | patient specific and population based simulation an d modelling publications and outputs |
Collaborator Contribution | clinical imaging patient data retrieval bank patient participation |
Impact | publications simulation methods new standards joint grant applications |
Start Year | 2015 |
Description | Mathys Medical |
Organisation | Mathys |
Country | Switzerland |
Sector | Private |
PI Contribution | Four projects including: Evaluation of potential ceramic matrix hips Ceramic matrix composite hip Wear of Experimental Ceramics in Total Hip Replacement - A Hip Joint Simulator Study (Mathys IV) Wear of Experimental Ceramics in Total Hip Replacement - A Hip Joint Simulator Study (Mathys V) |
Collaborator Contribution | materials , research methods , analysis |
Impact | papres |
Start Year | 2013 |
Description | NAMSA |
Organisation | North American Science Associates Inc |
Country | United States |
Sector | Private |
PI Contribution | In vivo testing of dCell bone to detremine osseointegration and biocompatibility |
Collaborator Contribution | undertaking research work |
Impact | pubication |
Start Year | 2015 |
Description | NHS NBTS |
Organisation | NHS Blood and Transplant (NHSBT) |
Department | National Blood Service |
Country | United Kingdom |
Sector | Public |
PI Contribution | 8 projects in collaboration with NHS NBTS Acellular bone ligament graft (Human) Acellular bone meniscus bone graft (Human) Acellular OC graft (Human) Allo vascular graft Allo heart valve Biocompatibility of acellular allogeanic dermis Acellular allogeneic aorta Development of dCELL bone-patella-bone allograft for anterior cruciate ligament replacement |
Collaborator Contribution | funds time |
Impact | multidiciplinary |
Start Year | 2010 |
Description | National Blood Service |
Organisation | NHS Blood and Transplant (NHSBT) |
Department | National Blood Service |
Country | United Kingdom |
Sector | Public |
Start Year | 2003 |
Description | Neotherix |
Organisation | Neotherix Ltd |
Country | United Kingdom |
Sector | Private |
PI Contribution | Repair of oral and peridontal defects using regenerative and antibacterial strategies delivered by a novel tissue scaffold vehicle Polymeric scaffolds functionalised for periodontal repair |
Collaborator Contribution | materials |
Impact | multidisciplinary |
Start Year | 2015 |
Description | Neu Biomechanics, BiteCiC |
Organisation | Neu Biomechanics |
Country | United Kingdom |
Sector | Private |
PI Contribution | Evaluation of coating wear |
Start Year | 2010 |
Description | RD Biomed |
Organisation | RD Biomed |
Country | United Kingdom |
Sector | Private |
PI Contribution | Use of a novel therapeutic device for treatment of periodontal disease Penetration of a new market (dental) for an existing diagnostic device |
Start Year | 2010 |
Description | Simpleware |
Organisation | Simpleware Ltd |
Country | United Kingdom |
Sector | Private |
PI Contribution | Development of finite element simulation tools to capture patient variation for the analysis of orthopaedic devices across a patient cohort |
Collaborator Contribution | software |
Impact | papers |
Start Year | 2014 |
Description | Simulation Solutions |
Organisation | Simulation Solutions |
Country | United Kingdom |
Sector | Private |
PI Contribution | 10 projects in collaboration with Simulation Solutions: High flex knee simulator Natural knee simulator Natural hip simulator Natural spine simulator Natural joint friction simulator knee joint simulator SOP for hip simulator SOP for knee simulator Natural Knee Simulation System Electro mechanical hip simulator method SOP and training |
Collaborator Contribution | equipment development |
Impact | publications |
Start Year | 2014 |
Description | Supply of GMP Collagen |
Organisation | Collagen Solutions |
Country | United Kingdom |
Sector | Private |
PI Contribution | Information of collagen materials manufacturing |
Collaborator Contribution | FoC supply of commercial grade GMP collagen |
Impact | Manufacture of collagen fibres and gels |
Start Year | 2014 |
Description | Tissue Regenix |
Organisation | Tissue Regenix Ltd |
Country | United Kingdom |
Sector | Private |
PI Contribution | A total of 12 projects collaborating with Tissue Regenix Acellular ligament graft (Animal) Acellular bone meniscus bone graft (Animal) Acellular OC graft (Animal) Xeno vascular patch Xeno heart valve Decellularised bladder Decellularised meniscus (see also 12b) Acellular porcine flexor tendon graft Development of the dCELL Partial Meniscus In vivo testing of dCell bone to determine osseointegration and biocompatibility In vivo evaluation of decellularised porcine pulmonary roots. Long Term Evaluation of an Acellular Bovine Arterial Graft in an Ovine Arteriovenous Access Model |
Start Year | 2009 |
Description | Tissue Regenix Ltd |
Organisation | Tissue Regenix Ltd |
Country | United Kingdom |
Sector | Private |
PI Contribution | research |
Collaborator Contribution | materials Ip |
Impact | papers |
Start Year | 2014 |
Description | Understanding repair activity in knee joint distraction |
Organisation | University Medical Center Utrecht (UMC) |
Country | Netherlands |
Sector | Academic/University |
PI Contribution | We discovered synovial fluid (SF) in OA contains MSCs, of which the number is elevated in the early stages of OA (Churchman S, Arthritis Rheumatism 2012; Jones E, Arthritis Rheumatism 2004). The discovery of this resident population of highly proliferative MSCs in SF whereby such cells have reproducibly good chondrogenic activity (Churchman S, A&R 2012) supports the concept that such MSCs, having a direct access to the damaged cartilage areas, and so may be key players in the reparative process as a result of joint distraction. Crucially, our collaboration (UK/NL) has recently shown that SF resident MSCs adhere to sites of cartilage injury in a canine OA model and that this adhesion is related to synovial fluid hyaluronan. |
Collaborator Contribution | Our collaborators have demonstrated that application of unloading by knee joint distraction (6-8 wks) leads to prolonged (>5 yrs currently) intrinsic cartilage repair in combination with meaningful clinical efficacy in osteoarthritis in humans (Mastbergen S, Nat Rev Rheumatol 2013; Intema F, ARD 2011; Wiegant K, OAC 2013). As this intrinsic cartilage repair activity is unique but not fully understood. |
Impact | Submitted manuscript, Annals of Rheumatic Disease. Synovial fluid hyaluronan regulates multipotential stromal cell attachment to cartilage. A novel mechanism contributing to knee joint distraction repair in osteoarthritis. |
Start Year | 2011 |
Title | ACELLULAR VASCULAR PRODUCTS |
Description | A product comprising a natural acellular xenogenic vascular tissue matrix having at least an80% reduction in DNA content as compared to an untreated control vascular tissue matrix and being antigenically inert by being substantially free of epitopes capable of reacting with pre-formed human antibodies and also without having the ability to substantially activate complement. The invention also includes methods of preparing such products and uses of the products especially in bypass surgery. |
IP Reference | WO2012042250 |
Protection | Patent application published |
Year Protection Granted | 2012 |
Licensed | Yes |
Impact | This IP has been assigned to Tissue Regenix (AIM listed Leeds spin out company), which is developing a portfolio of products based on this IP as well as three other patents we have assigned. Products such as a vascular patch for peripheral vascular reconstruction (clinical trial in 2009). |
Title | COMBINATION OF MATERIAL FOR JOINT PROSTHESIS |
Description | An orthopaedic joint prosthesis comprises first and second articulating components having respective bearing surfaces in contact with one another. The material of the first bearing surface (14) comprises a metallic material and the material of the second bearing surface (6) comprises a ceramic material. The hardness of the metallic material is at least about 2500 MPa, and the hardness of the ceramic material is greater than that of the metallic material by at least about 4000 MPa. |
IP Reference | WO0117464 |
Protection | Patent granted |
Year Protection Granted | 2001 |
Licensed | Yes |
Impact | Clinical trials started 2006. Now marketed world wide. FDA IDE study underway in USA. A revenue sharing arrangement is in place between us and DePuy International. |
Title | COMPOSITE BONE IMPLANTS |
Description | The invention provides natural multi-composite bone implants such as bone-connective tissue-bone and osteochondral implants for the replacement and/or repair of, for example and in particular a damaged or defective bone-meniscus-bone joint or a bone-patella tendon-bone joint or osteochondral lesions, methods of preparing the composites and uses thereof. The invention also provides natural or native composite bone-connective tissue- bone and osteochondral matrices or scaffolds that are substantially decellularised for subsequent transplantation/implantation. |
IP Reference | WO2014037713 |
Protection | Patent application published |
Year Protection Granted | 2014 |
Licensed | No |
Impact | Proof of concept phase in large animal model completed for bone-tendon-bone, discussions ongoing with a company on development re licensing |
Title | Composition |
Description | The present invention relates to a photosensitive composition comprising synthetic nanocrystalline hydroxyapatite or a synthetic precursor thereof doped with a rare earth ion, the use of the composition in restorative or cosmetic dentistry, a process for preparing the composition and a method of generating an image of an exposed dentinal surface of a tooth. |
IP Reference | WO2012046082 |
Protection | Patent application published |
Year Protection Granted | 2012 |
Licensed | Yes |
Impact | This IP is supporting three projects: an EPSRC Health Technology Challenge project, an Innovate UK project, and a European funded Marie-Curie award with industrial partners which aims to produce commercial products. IPGroup and commercialisation team scoping out POC in vivo trial to evaluate the technology with the possibility of forming a spin-out company, two other patents would also be bought into this project. |
Title | DECELLULARISATION OF MATRICES |
Description | A method of preparing matrices or tissue engineered biomaterials for implantation, and in particular to a method of improving decellularisation of matrices or tissue engineered biomaterials prior to implantation. The method employs a single anionic detergent in combination with protease inhibitors. |
IP Reference | WO02096476 |
Protection | Patent granted |
Year Protection Granted | 2002 |
Licensed | Yes |
Impact | Now under commercial development by Tissue Regenix group PLC Also under development by NHS Blood & Transplant Tissue Services for application to allogeneic donor arteries |
Title | Decellularised human livers |
Description | The process could be applied to human donor organs thus increasing the number of such organs available for transplantation. This IP has not been patented and may still be confidential. |
IP Reference | |
Protection | Copyrighted (e.g. software) |
Year Protection Granted | 2014 |
Licensed | No |
Impact | Too early for notable impacts. |
Title | IMPROVEMENTS IN AND RELATING TO COLLAGEN BASED MATERIALS |
Description | There are provided collagen based polymeric materials comprising collagen molecules and/or collagen derived molecules which have been functionalised by the addition of one or more ethylenically unsaturated moieties and which have been cross-linked via said moieties. Also provided are collagen based compositions and methods of producing collagen based polymeric materials. |
IP Reference | WO2014147415 |
Protection | Patent application published |
Year Protection Granted | 2014 |
Licensed | No |
Impact | NDA signed with potential industrial partner. MTA signed with a manufacturer (discussions in progress) and a manufacturing feasibility evaluation currently underway. |
Title | IMPROVEMENTS RELATING TO DECELLULARISATION OF TISSUE MATRICES FOR BLADDER IMPLANTATION |
Description | The invention provides an improved method of producing a natural, acellular matrix scaffold for subsequent use in tissue-engineered replacement of tissues such as the bladder. Decellularisation is carried out on an expanded or distended bladder and the product retains the strength and compliance of natural material. The invention also provides use of the matrix scaffolds as wound healing material and to investigate tissue structure and function in vitro. |
IP Reference | WO2007110634 |
Protection | Patent granted |
Year Protection Granted | 2007 |
Licensed | Yes |
Impact | This IP has supported a spin-out (Tissue Regenix) and its development of products. It is one of the four patents licensed to Tissue Regenix to date. |
Title | MAGNETOMETER FOR MEDICAL USE |
Description | A medical magnetometer (10) comprising one or more induction coils (2) for detecting a time varying magnetic field of a region of a subject's body, such as the heart. Each coil has a maximum outer diameter of 4 to 7 cm, and a configuration such that the ratio of the coil's length to its outer diameter is at least 0.5, and the ratio of the coil's inner diameter to its outer diameter is 0.5 or less. Each induction coil (2) is coupled to a respective detection circuit comprising a low impedance pre-ampiifier (3), a low pass filter (5), a notch filter (6) to remove line noise, and an averaging element (7). Each detection circuit produces an output signal (9) for use to analyse the time varying magnetic field of the region of the subject's body. |
IP Reference | WO2014006387 |
Protection | Patent application published |
Year Protection Granted | 2014 |
Licensed | Yes |
Impact | IP is currently licensed to a Leeds spin-out (Creavo Medical Technologies Ltd, previously known as Quantum Imaging Ltd). Primary focus at present is the development of cardiac focussed devices, such as the VitalScan machine to support rule out triaging of patients presenting with chest pain in an emergency room setting. |
Title | METHOD AND APPARATUS FOR MANIPULATING PARTICLES |
Description | A method and apparatus for manipulating polarizable dielectric particles. The method includes positioning a liquid containing the particles above a surface of a piezoelectric material (2). The method also includes inducing a shear-horizontal surface acoustic wave in the piezoelectric material (2), thereby to form a time-varying non-uniform evanescent electric field extending into the liquid. The method further includes using the time-varying non-uniform evanescent electric field to apply a force to at least some of the particles (50, 52) by dielectrophoresis. |
IP Reference | WO2015022481 |
Protection | Patent application published |
Year Protection Granted | 2015 |
Licensed | Yes |
Impact | Spin out of company based on this technology called Relitect. |
Title | METHODS AND DEVICES FOR DETECTING STRUCTURAL CHANGES IN A MOLECULE MEASURING ELECTROCHEMICAL IMPEDANCE |
Description | The invention relates to a method of detecting a structural change in a molecule, said molecule being attached to a surface, said surface being electrically conductive, wherein the phase of the electrochemical impedance at said surface is monitored, and wherein a change in the phase in the electrochemical impedance at said surface indicates a change in the structure of said molecule. The invention further relates to methods for making arrays having molecules such as, polypeptides attached to electrically conductive surfaces such as electrodes, and to arrays. |
IP Reference | WO2008032066 |
Protection | Patent application published |
Year Protection Granted | 2008 |
Licensed | No |
Impact | This IP should support a spin-out company (Phase DX) in the near future. |
Title | Method and apparatus for manipulating particles (DEP-SAW) |
Description | This invention relates to a method and apparatus for manipulating particles. The patent has not been published yet so may still be confidential. |
IP Reference | |
Protection | Copyrighted (e.g. software) |
Year Protection Granted | 2013 |
Licensed | No |
Impact | The manipulation of particles finds application in a wide range of fields, many of which are medical in nature. |
Title | NETWORKS |
Description | There is described a material comprising ribbons, fibrils or fibres characterised in that each of the ribbons, fibrils or fibres have an antiparallel arrangement of peptides in a beta-sheet tape-like substructure. |
IP Reference | WO2004007532 |
Protection | Patent granted |
Year Protection Granted | 2004 |
Licensed | Yes |
Impact | A spin-out company (Credentis AG). |
Title | NOVEL PEPTIDE COMPLEXES |
Description | The invention relates to novel self-assembling peptide complexes comprising a charged peptide and a polysaccharide, methods of producing them and uses therefor. The novel self-assembling peptide complexes of the present invention have particular utility in the restoration of biomechanical or biochemical function of a variety of biological tissues, for example and without limitation, in degenerated spinal discs, osteoarthritic joints, damaged cartilage, meniscus, ligaments, tendons, dental, ophthalmic and cardiovascular and blood vessel tissues. The invention provides inter alia methods of repairing and or restoring biomechanical or biochemical function of biological tissues and scaffolds for the support of cell growth. |
IP Reference | US2016058871 |
Protection | Patent granted |
Year Protection Granted | 2016 |
Licensed | No |
Impact | Follow on funding obtained for first in vivo study |
Title | ORTHOPAEDIC MEDICAL DEVICE |
Description | This present invention provides an orthopaedic medical device, in particular an arthroscopic aid, for stimulating the release of cells and/or encouraging migration of cells to a surgical site or an injury site. The invention includes methods of increasing a cell population at a surgical site or injury, a method of improving surgical outcome of synovial joint procedures and methods of delivering intra-operative minimally manipulated cells to a synovial joint. |
IP Reference | US2018161022 |
Protection | Patent application published |
Year Protection Granted | 2018 |
Licensed | Yes |
Impact | Xiros have an exclusive license to use and sell, in all species but University still are able to use technology for research and teaching. |
Title | On-chip spectroscopy system |
Description | This IP has not been patented and may still be confidential. |
IP Reference | |
Protection | Protection not required |
Year Protection Granted | 2008 |
Licensed | No |
Impact | No notable impacts as yet. |
Title | Orthopaedic medical device |
Description | A UK priority patent filing has been made but not yet published. The invention relates to an orthopaedic medical device, in particular an arthroscopic aid, for stimulating the release of cells and/or encouraging migration of cells to a surgical site. |
IP Reference | |
Protection | Copyrighted (e.g. software) |
Year Protection Granted | 2014 |
Licensed | No |
Impact | A first in man clinical trial is being planned. |
Title | PREPARATION OF TISSUE FOR MENISCAL IMPLANTATION |
Description | The present invention relates to a method of preparing a tissue matrix and its subsequent use in the replacement and/or repair of a damaged or defective meniscus. The invention also provides meniscal tissue that is substantially decellularised. |
IP Reference | WO2008059244 |
Protection | Patent granted |
Year Protection Granted | 2008 |
Licensed | Yes |
Impact | This IP has supported a spin-out (Tissue Regenix) and its development of products. It is one of the four patents licensed to Tissue Regenix. |
Title | Regional anaesthetic delivery system |
Description | Unpatented know-how on a regional anaesthetic delivery system. |
IP Reference | |
Protection | Copyrighted (e.g. software) |
Year Protection Granted | 2013 |
Licensed | No |
Impact | Confidentiality agreements in place with various potential partners but no notable impacts yet. |
Title | SCAFFOLD PROTEINS DERIVED FROM PLANT CYSTATINS |
Description | The present invention relates to scaffold proteins derived from plant cystatins and to nucleic acids encoding them. The scaffolds are highly stable and have the ability to display peptides. The scaffolds are particularly well suited for constructing libraries, e.g. in phage display or related systems. The invention also related to various uses of the scaffolds, including in therapy, diagnosis, environmental and security monitoring, synthetic biology and research, and to cells and cell cultures expressing the scaffold proteins. |
IP Reference | WO2014125290 |
Protection | Patent application published |
Year Protection Granted | 2014 |
Licensed | Yes |
Impact | This IP was exclusively licensed to Avacta Life Sciences Ltd in the field of life sciences research reagents and diagnostics. Avacta pay royalties based on the University providing a screening service to Avacta and also for catalogue sales. |
Title | SURGICAL RETRACTION DEVICE AND PROCEDURE |
Description | The present invention provides a retraction device comprising, a shaft, a plurality of arms supported by the shaft, the arms being configured to be moveable between a first orientation in which the device assumes an insertion profile for passage of the device through a surgical incision, and a second orientation in which the device assumes a retraction profile. At least one of the plurality of the arms is adapted to be adjustable between a first length and a second length. |
IP Reference | WO2017134415 |
Protection | Patent application published |
Year Protection Granted | 2017 |
Licensed | No |
Impact | None yet, commercial device undergoing prototyping. Patent arose based on refinements made during i4i project, continuing work performed during IKC POC project. |
Title | SURGICAL RETRACTION DEVICE AND PROCEDURE |
Description | The present invention provides a retraction device comprising, a shaft, a plurality of arms supported by the shaft, the arms being configured to be moveable between a first orientation in which the device assumes an insertion profile for passage of the device through a surgical incision, and a second orientation in which the device assumes a retraction profile. At least one of the plurality of the arms is adapted to be adjustable between a first length and a second length. |
IP Reference | WO2017134415 |
Protection | Patent application published |
Year Protection Granted | 2017 |
Licensed | No |
Impact | Two companies are potentially interested in using this IP. |
Title | Tissue sensors for medical diagnosis |
Description | Optical sensors for the diagnosis of a range of medical conditions. |
IP Reference | |
Protection | Protection not required |
Year Protection Granted | 2012 |
Licensed | No |
Impact | A licence, with revenue sharing provisions, with another University. |
Title | ULTRASONIC MODIFICATION OF SOFT TISSUE MATRICES |
Description | The present invention provides a method of, and apparatus for, utilising ultrasonic energy so as to mechanically disrupt the collagenous architecture of biological matrices in a controlled manner so that the tissue can be rapidly recellularised in continuous form. The present invention also provides for the production of tissue matrices with improved recellularisation properties, cell stratification or patterning. |
IP Reference | WO2004103461 |
Protection | Patent granted |
Year Protection Granted | 2004 |
Licensed | Yes |
Impact | This IP is used in various of our Proof of Concept projects. It has also supported a spin-out company, and a portfolio of products is under development by them. |
Title | VIRTUAL MICROSCOPY |
Description | Computer implemented methods and data processing apparatus are described for displaying virtual slide images. Images of a plurality of slides are automatically displayed in a first region of a display device at a first magnification. The slides comprise all the slides including material from a same specimen. An image of at least one of the slides is displayed in a second region at a second magnification greater than the first magnification. At least the image displayed in the second region is changed responsive to receiving user input. Methods for automatically determining a slide layout pattern and methods for virtually melding glass slide images into a single image are also described. |
IP Reference | US2012320094 |
Protection | Patent application published |
Year Protection Granted | 2012 |
Licensed | No |
Impact | IP portfolio assigned to Roche (Ventana Medical Systems) as part of asset sale of technology, deal completed July 2015. EP and GB patents still pending. US patent granted. |
Title | Visual parameter optimisation software |
Description | Software and an algorithm for use with image analysis/process engineering. |
IP Reference | |
Protection | Copyrighted (e.g. software) |
Year Protection Granted | 2013 |
Licensed | No |
Impact | This software was developed for the optimization of image processing algorithms. Today, this is done in a time-consuming way that relies on trial-and-error. Our software enables users to make better choices of parameter values, to do so faster, and to better understand the influence of the parameters on image processing. The software is applicable to image processing, in general, although our research has focussed on applications in biomedical research. |
Title | Arthroscopic device for stimulating synovial mesenchymal stem cells in the knee |
Description | The arthroscopic device is currently (as of Jan 2017) in a small scale clinical evaluation study at Leeds Teaching Hospitals funded through NIHR funded Leeds Musculoskeletal Biomedical Research Unit, led and managed by Prof Dennis McGonagle, Dr Tom Baboolal with Consultant Mr Owen Wall. |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Early clinical assessment |
Year Development Stage Completed | 2017 |
Development Status | Actively seeking support |
Impact | IKC funded Proof of Concept (POC) Project supported early development of the new medical device. This supported device design and testing, prototype manufacture and subsequent manufacture of devices for use in the clinical evaluation. The POC also supported generation of data used in patent filing. |
Title | ISO accredited simulation test laboratory |
Description | ISO accredited simulation test laboratory for pre clinical testing and trials widely used by customers around globe |
Type | Support Tool - For Medical Intervention |
Current Stage Of Development | Wide-scale adoption |
Year Development Stage Completed | 2013 |
Development Status | Under active development/distribution |
Impact | uptake by wide range of companies |
Title | Synovium Brushing to Augmented Microfracture for Improved Cartilage Repair (AURA). ClinicalTrials.gov Identifier: NCT02696876 (POC017, McGonagle, UoL) |
Description | Exclusive world wide licence agreement of patent with medical device company Xiros Ltd. . Device currently being assessed in clinical trials, funded through NIHR Leeds Biomedical Research CEntre The device stimulates resident synovial stem cells and releases them into the joint space to facilitate repair and regeneration of cartilage and other structures in the knee. |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Early clinical assessment |
Year Development Stage Completed | 2017 |
Development Status | Under active development/distribution |
Clinical Trial? | Yes |
Impact | LIcence of technology to Xiros for commercialisation |
URL | https://clinicaltrials.gov/show/NCT02696876 |
Title | acellular bone |
Description | under development and in in vivo trials |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Refinement. Non-clinical |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | under development and in animal trials |
Title | acellular bone cartilage osteochondral graft |
Description | under development |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Initial development |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | under developemnt |
Title | acellular bone cartilage osteochondral graft |
Description | under development NHSBT |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Initial development |
Year Development Stage Completed | 2015 |
Development Status | Under active development/distribution |
Impact | under development |
Title | acellular bone patellar bone graft |
Description | under development by NHSBT |
Type | Therapeutic Intervention - Surgery |
Current Stage Of Development | Refinement. Non-clinical |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | under development by NHSBT |
Title | acellular dcell vascular patch |
Description | licensed to and commercialised by Tissue Regenix |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Small-scale adoption |
Year Development Stage Completed | 2010 |
Development Status | Under active development/distribution |
Clinical Trial? | Yes |
Impact | First dcell clinical product |
URL | https://clinicaltrials.gov/show/NCT00958230 |
Title | acellular dcell dermis |
Description | commercialised by Tissue regenix from 2014 |
Type | Therapeutic Intervention - Medical Devices |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | sold and distributed in USA |
Title | acellular dermis |
Description | supplied as clinical product by NHSBT |
Type | Therapeutic Intervention - Surgery |
Current Stage Of Development | Small-scale adoption |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | supplied by NHSBT, improved wound healing in chronic leg ulcers |
Title | acellular heart valve |
Description | clinical application through human tissue bank |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Small-scale adoption |
Year Development Stage Completed | 2010 |
Development Status | Under active development/distribution |
Impact | proof of clinical use acellular technology |
Title | acellular vascular graft |
Description | under development by NHSBT and Tissue Regenix |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Refinement. Non-clinical |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Impact | Under development by NHSBT an dTissue Regenix |
Title | all polymer knee |
Description | collaborative development with Invibio |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Initial development |
Year Development Stage Completed | 2015 |
Development Status | Under active development/distribution |
Impact | collaborative development with Invibio |
Title | ceramic on ceramic hip |
Description | Mathys |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Market authorisation |
Year Development Stage Completed | 2012 |
Development Status | Under active development/distribution |
Impact | successfully adopted an d commercilised |
Title | ceramic on ceramic and ceramic on metal hip |
Description | commercialised by DePuy and by Mathys |
Type | Therapeutic Intervention - Medical Devices |
Year Development Stage Completed | 2015 |
Development Status | Under active development/distribution |
Impact | successfully adopted an d commercilised |
Title | dcell ligament |
Description | Under commercial development by tissue Regenix, progressing to CE mark and product launch |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Refinement. Non-clinical |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Clinical Trial? | Yes |
Impact | under commercial development by Tissue Regenix in clinical trial started 2015 proceeding to Ce mark and product launch 2017 |
URL | https://clinicaltrials.gov/show/NCT02540811 |
Title | dcell meniscus |
Description | Developed by tissue Regenix In clinical trial started 2015 |
Type | Therapeutic Intervention - Medical Devices |
Current Stage Of Development | Late clinical evaluation |
Year Development Stage Completed | 2014 |
Development Status | Under active development/distribution |
Clinical Trial? | Yes |
Impact | first in man clinical trial started 2015 |
URL | https://clinicaltrials.gov/show/NCT02270905 |
Title | finite element simulation tools to capture patient variation for the analysis of orthopaedic devices across a patient cohort |
Description | This project has been led by Dr Ruth Wilcox in partnership with Simpleware Limited. The development of the software add-on has been completed and the final validations with the Leeds data set-set are coming to an end. It is anticipated that a technology demonstrator project will now be undertaken with a company that can demonstrate the utility of the software for evaluating spinal implants. The commercial team is now engaged and discussions with Simpleware around a possible license deal are on-going. It is envisaged that as part of this license deal Simpleware will engage Leeds expertise as part of their offer to companies. In addition Leeds personnel will retain the right to undertake consultancy in their own capacity. |
Type Of Technology | Software |
Year Produced | 2013 |
Impact | further research |
Title | hip joint simulator |
Description | hip joint simulator |
Type Of Technology | Physical Model/Kit |
Year Produced | 2012 |
Impact | commercial product Simulation solutions |
Title | knee joint simulator |
Description | knee joint simulator |
Type Of Technology | Physical Model/Kit |
Year Produced | 2013 |
Impact | Commercial product simulation solutions |
Title | natural hip simulator |
Description | natural hip simulator |
Type Of Technology | Physical Model/Kit |
Year Produced | 2014 |
Impact | commercial product simulation solutions |
Title | natural knee simulator |
Description | natural knee simulator |
Type Of Technology | Physical Model/Kit |
Year Produced | 2013 |
Impact | commercialised by simulation solutions |
Title | spinal disc simulator |
Description | spinal disc simulator |
Type Of Technology | Physical Model/Kit |
Year Produced | 2010 |
Impact | commercial product simulation solutions |
Company Name | Creavo |
Description | Creavo develops non-invasive diagnostic techniques to detect ischemia and other circulatory conditions. |
Year Established | 2014 |
Impact | A new cardiac scanning device that could save the NHS £200 million a year is being trialled at four of the UK's largest emergency departments (Bristol, Nottingham, Leicester and Sheffield). The British-made Vitalscan device, which has been developed by Creavo Medical Technologies and could revolutionise the way patients with chest pain are managed in emergency departments, works by conducting a non-invasive three to five-minute scan at a patient's bedside to rule out significant cardiac conditions, such as heart attacks. Data from the York Health Economics Consortium shows that 1.3 million A&E admissions in 2014/15 were due to chest pain. Of these, 63% ultimately had no cardiac-related condition but, the majority would still have gone through the same costly cardiac triage process of someone having a heart attack. Vitalscan has the potential to identify a significant proportion of these patients which would radically change the management of chest pain patients entering emergency departments. Conservative estimates indicate that the device could save the NHS £200 million a year, the equivalent of £3.85 million a week and £382 a minute, easing pressure on bed space in A&E departments and reducing patient anxiety by getting patients to the correct treatment more quickly. Steve Parker, CEO Creavo Medical Technologies says: "Cardiac-related chest pain is one of the biggest issues facing emergency departments in the western world due to the economic burden it places on healthcare services and the disruption it causes to inpatient care. "The triage process for someone entering an emergency department with chest pain can take anywhere from six to 24 hours which places a huge amount of strain on resources. "Early results from smaller sets of clinical trials indicate that Vitalscan can quickly identify and rule out significant ischemic heart disease so it prevents patients who aren't suffering from a cardiac-related condition from having to go through the lengthy, costly chest pain triage process, easing the burden on emergency departments at a time when they are facing unprecedented pressures." Creavo Medical Technologies was established to commercialise the work undertaken by Professor Ben Varcoe at the University of Leeds to develop Vitalscan, a portable, passive magnetocardiography device that measures the electromagnetic fluctuations of the heart, while maintaining the accuracy and efficacy of older SQUID devices. The start of clinical trials at Sheffield Teaching Hospitals NHS Foundation Trust, University Hospitals of Leicester NHS Trust, North Bristol NHS Trust and Nottingham University Hospitals NHS Trust marks the largest ever clinical trial of a magnetocardiography device. This will be followed by a second stage starting at three centres in the United States at Mayo Clinic Rochester, Cincinnati and Baylor Texas. |
Website | http://www.quantumimaging.eu |
Company Name | Relitect |
Description | Relitect has developed a new technique for detecting the binding of molecules in laboratory experiments. |
Year Established | 2014 |
Impact | March 2015 - Relitect secured a £750K tranched investment from IP Group Plc and Scottish Enterprise's investment arm, the Scottish Investment Bank to develop its novel high sensitivity diagnostic/science technology. 20th April 2015 - Relitect moves to new laboratory facilities at Biocity Scotland -www.biocity.co.uk/biocity/scotland |
Website | http://www.relitect.com |
Company Name | Tissue Regenix Limited |
Description | Tissue Regenix Group is a medical technology company that is focused on developing regenerative products using innovative platform technologies to transform patient care and provide differentiated clinical outcomes in key clinical areas. |
Year Established | 2006 |
Impact | aim listed d raised £0m investment value £150m 4 clinical products |
Website | http://www.tissueregenix.com |
Description | 30th Annual Meeting of the Wound Healing Society |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Presentation by Dr. Tronci on Photoactive Type I (atelo) collagen as Building Blocks of Advanced Wound Dressings |
Year(s) Of Engagement Activity | 2018 |
Description | Arthroscopic Brush can promote stem cell healing. 2017. Regen Magazine. Issue 08, pages 20-21. (POC017, McGonagle; UoL) |
Form Of Engagement Activity | A magazine, newsletter or online publication |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Industry/Business |
Results and Impact | Arthroscopic Brush can promote stem cell healing. 2017. Regen Magazine. Issue 08, pages 20-21. |
Year(s) Of Engagement Activity | 2017 |
URL | https://issuu.com/medtechleeds/docs/regen_magazine_web |
Description | Article: Regen Med Nears the Market - GEN |
Form Of Engagement Activity | A magazine, newsletter or online publication |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Supporters |
Results and Impact | Article published by Genetic Engineering and Biotechnology news about the IKC and Regener8 Increased memberships to Regener8 |
Year(s) Of Engagement Activity | 2012 |
URL | http://www.genengnews.com/gen-articles/regen-med-nears-the-market/4597/ |
Description | Ask the Expert - Clinically Led Manufacture |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Four separate presentations given by: - Prof Nikos Donos, Head of the Clinical Oral Research Center at the Institute of Dentistry, Barts & The London School of Medicine and Dentistry, Queen Mary University of London (QMUL) in collaboration with SJ Russell. - SJ Russell (Leeds) - P Giannoudis (Leeds) - M. Mehr (Geistlich Pharma AG) |
Year(s) Of Engagement Activity | 2018 |
URL | http://mede-innovation.ac.uk/event/mede-innovation-ask-expert-oct-18/ |
Description | Daily Mail. 30/01/2019: Tiny rake to repair crumbly old knees by collecting stem cells from the joint (POC017, McGonagle UoL) |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Public/other audiences |
Results and Impact | Daily Mail article - Tiny rake to repair crumbly old knees by collecting stem cells from the joint |
Year(s) Of Engagement Activity | 2019 |
URL | https://www.dailymail.co.uk/health/article-6642205/Tiny-rake-repair-crumbly-old-knees-collecting-ste... |
Description | Event Exhibition: Healthcare Innovation Expo, ExCel London |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Europe's largest, most exciting healthcare innovation event 13th & 14th March 2013. The IKC hosted an exhibition stand at the event to connect to potential clinical partners. Increased understanding of clinical needs. Increased engagement with clinicians. |
Year(s) Of Engagement Activity | 2013 |
URL | http://www.nic.nhs.uk/Pages/ArchivedNews-4.aspx |
Description | Event Exhibition: Innovate 13, Business Design Centre, London |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Supporters |
Results and Impact | 4,000 people from UK and international business, Government and academia attended to do business. Made contacts now members of the IKC community. |
Year(s) Of Engagement Activity | 2011,2013 |
URL | https://www.innovateuk.org/-/innovate-uk-11th-13th-march-2013 |
Description | Hosted laboratory visit for Leeds Biomedical Research Centre Patient Public Involvement group |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | Local |
Primary Audience | Patients, carers and/or patient groups |
Results and Impact | Hosted a laboratory tour and series of talks from academic members of the Institute of Medical and Biological Engineering for members of the Leeds PPI group |
Year(s) Of Engagement Activity | 2018 |
URL | https://youtu.be/cKfs50-NxJQ |
Description | Invited talk at conference |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | "A new regenerative medicine approach for urinary incontinence" presented at Incontinence: the Engineering Challenge XI Conference, Institution of Mechanical Engineers, London. |
Year(s) Of Engagement Activity | 2017 |
URL | http://events.imeche.org/ViewEvent?code=CON6475 |
Description | Keynote Lecture |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | The Society of Glass Technology holds annual conference in UK in which international participants present their work. In a 3-day International Meeting I gave a Keynote Lecture on the Phase Transformation in Calcium Phosphate based gels and colloids. The results from the EPSRC and EU funded projects were presented. I explained the mechanism of ultra-fast phase transformation arising as a result of irradiation from near-IR mode-locked lasers. A new approach for studying the phase transformation was studied and analysed by using thermal analysis techniques. |
Year(s) Of Engagement Activity | 2015 |
URL | http://www.glassreflections.sgt.org/ |
Description | Living With and Beyond Cancer Event. |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Took part in a celebration day at York Hospital to demonstrate the work of various groups in support of people living with and beyond cancer. |
Year(s) Of Engagement Activity | 2018 |
Description | MeDe Innovation Launch Conference (Leeds) |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Launch of MeDe Innovation: Delegates heard from respected industry and academic experts and learnt how the Centre is stimulating translation and connecting the medical device community in the UK in order to accelerate manufacturing processes through to business and the clinic. |
Year(s) Of Engagement Activity | 2014 |
Description | MeDe Innovation Launch Conference (Nottingham) |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | The MeDe Innovation Annual Conference 2015 'Advancing Orthopaedic Medical Device Manufacturing' will bring you up to the minute developments in the changing landscape of design and manufacture for orthopaedic medical devices. Our interdisciplinary one-day conference brings together experts from funders, research, industry, clinical, and regulation. A year on from our launch event, delegates will have the opportunity to consider: Medical Devices - An industry with unlimited potential: Opportunities and challenges in stratified design and innovative manufacture of orthopaedic medical devices in-clinic manufacture of personalised orthopaedic devices use of biological and biomimetic materials in medical devices and health technologies Getting great products to patients: Regulatory perspectives from the MHRA towards personalised and combination approaches for medical devices Changes to the pre-market approvals process to access opportunities in the USA from the FDA Centre for Devices and Radiological Health Creating new industries from pioneering innovative manufacturing research in the UK: Showcase of how EPSRC are creating a prosperous future for the UK through ground-breaking innovative manufacturing research How breadth of research is growing new technology-led companies, improving healthcare delivery and allowing economic competitiveness in the UK Presentations from research specialists in Additive Manufacturing, Composite Manufacturing and more Growing and supporting the national community Announcement of the Fresh Ideas Award winners from the Centre Co-Director Growing a Medical Devices and Regenerative Clinical Network led by the Centre Clinical Director Launch of the National MSK Medical Device Capability Database from the Centre National Outreach Manager Ample networking opportunities, exhibitions and panel discussion sessions |
Year(s) Of Engagement Activity | 2015 |
Description | Public lecture |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Public lecture to University of Huddersfield. |
Year(s) Of Engagement Activity | 2017 |
URL | http://www-old.hud.ac.uk/events/?view=fulltext&month=11&day=1&year=2017&id=d.en.224960×tamp=151... |
Description | Regen - Regener8 Annual Newsletter |
Form Of Engagement Activity | A magazine, newsletter or online publication |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Glossy review of annual activity of the Regener8 programme. Review sponsored by the MTIKC |
Year(s) Of Engagement Activity | 2014,2015,2016 |
Description | TI World Conference Programme - Keynote |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Keynote presentation on textile medical devices and healthcare to the World Textile Institute Conference |
Year(s) Of Engagement Activity | 2018 |
URL | http://www.tiworldconference.org/wp-content/uploads/2015/04/TIWC-2018-Programme-Final1.pdf |
Description | Talk at British Association for Surgery of the Knee (BASK), 2018 Annual Conference.(POC017 McGonagle, UoL) |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Talk at British Association for Surgery of the Knee |
Year(s) Of Engagement Activity | 2018 |
Description | Talk to Surgical Sixty Club |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Talk to Surgical Sixty Club |
Year(s) Of Engagement Activity | 2016 |
Description | Television programme "Who wants to live forever" ITV |
Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Public/other audiences |
Results and Impact | ITV Tonight Programme, aired 7:30pm, Thursday 5 July 2012. A look at how thousands are now celebrating their one hundredth birthday. John Fisher and Eileen Ingham present their research around "50 Active years after 50" as part of the programme. Further requests from TV producers about health innovations of the future. |
Year(s) Of Engagement Activity | 2013 |
URL | https://www.itv.com/itvplayer/tonight/series-16/episode-5-who-wants-to-live-forever- |
Description | Termis - Americas |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Tronci G; Liang H; Wood DJ; Russell SJ (2017) Functionalised Collagen Systems With Bespoke Molecular And Macroscopic Characteristics For Chronic Wound Management 2017 TERMIS - Americas Conference & Exhibition, pp. S74-S74. Charlotte, NC |
Year(s) Of Engagement Activity | 2017 |
Description | Urothelial cross-disciplinary research meeting |
Form Of Engagement Activity | A formal working group, expert panel or dialogue |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Professional Practitioners |
Results and Impact | Researchers met clinical professionals (pathology, paediatric urology, transplantation, adult urology and NHS R&D) for workshop to discuss ongoing bladder research and opportunities for engagement and translation. The activity sparked enthusiastic debate and identified minuted actions for individuals, with two follow on studies initiated. |
Year(s) Of Engagement Activity | 2019 |
Description | Workshop |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Postgraduate students |
Results and Impact | Workshop on basic science to a trainee clinical audience at the European Society for Paediatric Urology, Harrogate. |
Year(s) Of Engagement Activity | 2016 |
Description | public engagement |
Form Of Engagement Activity | Participation in an open day or visit at my research institution |
Part Of Official Scheme? | No |
Geographic Reach | Local |
Primary Audience | Public/other audiences |
Results and Impact | Civic visit to the laboratory by Lord Mayor of York and Sheriff plus their partners, with reporter. |
Year(s) Of Engagement Activity | 2016 |
Description | public engagement talk |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | Regional |
Primary Audience | Public/other audiences |
Results and Impact | Talk to York Vikings Rotary Club |
Year(s) Of Engagement Activity | 2016 |