Development of next-generation Intraocular lens combined with degradable drug delivery system toward prevention of Posterior Capsule Opacification
Lead Research Organisation:
University of East Anglia
Department Name: Pharmacy
Abstract
A cataract is an ophthalmic disease in which a normal clear eye lens becomes cloudy or opaque, leading to a decrease in vision. The eye lens is responsible for focusing light and producing a clear image on the retina at the back of the eye. Cataracts are typically an ongoing process of healthy ageing, but seldom develop rapidly. Cataracts are responsible for more than 51% of the world's blindness. In 2010, the WHO estimated that 20 million people were suffering from cataracts and that the prevalence is estimated to double, reaching 40 million in 2020. There are more than three million cataract surgeries performed in the US annually. The prevalence of age-related cataract increases with age; the average age of a cataract patient is approximately 68 years in the US, and 50 and 65 in China and the UK, respectively.
Cataracts are treated surgically by replacing the natural clouded lens with an artificial lens. During the procedure, the new lens is inserted into the remaining capsule, housing the new lens, and restoring visual acuity. Unfortunately, secondary blindness, also termed "secondary cataract" develops in a significant proportion of patients due to a wound-healing response known as posterior capsule opacification (PCO). Presently, the most common and effective treatment of PCO is laser capsulotomy, a procedure aimed to create a hole in the capsular bag to allow light to pass through again. However, this has many deleterious side effects and is also expensive for healthcare providers.
To reduce the complication of cataract surgery, artificial lenses have been extensively modified since they were first developed in 1952 by Harold Ridley. The new lens designs have helped reduce the impact of PCO progression, but prevention of PCO remains elusive. Lens manufacturing companies and research academics are continuously searching for new designs and materials to address PCO.
The overall aim of this proposal is to develop new lenses to restore high-quality vision following cataract surgery and prevent PCO formation. This research will unlock the potential of new lens design using emerging 3D printing technology as a new fabrication tool. This will have several advantages over the existing methods. The 3D printing method provides rapid prototype development of new lenses and takes weeks off the life cycle of lens development, expediting product development so lenses can reach patients quicker. There is also the potential to unlock new designs that would be impossible to produce by standard methods. These could potentially better the outcome of the surgery. This proposal also develops a drug delivery system to target the inflammation that occurs following surgery. The delivery system will enable controlled delivery of the drugs on-demand. Taken together, the new lens design, with local delivery of drugs, presents potential new therapies to treat cataract and prevent cataract complication.
This proposal will be led by Dr Aram Saeed who is an expert in drug delivery, polymer chemistry and development of medical devices, in collaboration with Prof Michael Wormstone, a world-leading expert in cataract and the PCO condition.
Cataracts are treated surgically by replacing the natural clouded lens with an artificial lens. During the procedure, the new lens is inserted into the remaining capsule, housing the new lens, and restoring visual acuity. Unfortunately, secondary blindness, also termed "secondary cataract" develops in a significant proportion of patients due to a wound-healing response known as posterior capsule opacification (PCO). Presently, the most common and effective treatment of PCO is laser capsulotomy, a procedure aimed to create a hole in the capsular bag to allow light to pass through again. However, this has many deleterious side effects and is also expensive for healthcare providers.
To reduce the complication of cataract surgery, artificial lenses have been extensively modified since they were first developed in 1952 by Harold Ridley. The new lens designs have helped reduce the impact of PCO progression, but prevention of PCO remains elusive. Lens manufacturing companies and research academics are continuously searching for new designs and materials to address PCO.
The overall aim of this proposal is to develop new lenses to restore high-quality vision following cataract surgery and prevent PCO formation. This research will unlock the potential of new lens design using emerging 3D printing technology as a new fabrication tool. This will have several advantages over the existing methods. The 3D printing method provides rapid prototype development of new lenses and takes weeks off the life cycle of lens development, expediting product development so lenses can reach patients quicker. There is also the potential to unlock new designs that would be impossible to produce by standard methods. These could potentially better the outcome of the surgery. This proposal also develops a drug delivery system to target the inflammation that occurs following surgery. The delivery system will enable controlled delivery of the drugs on-demand. Taken together, the new lens design, with local delivery of drugs, presents potential new therapies to treat cataract and prevent cataract complication.
This proposal will be led by Dr Aram Saeed who is an expert in drug delivery, polymer chemistry and development of medical devices, in collaboration with Prof Michael Wormstone, a world-leading expert in cataract and the PCO condition.
Planned Impact
WHO WILL BENEFIT FROM THIS RESEARCH
Outside academia, this work will be particularly of interest to intraocular lens manufacturing and pharmaceutical companies. The long-term aim of this project is to develop new therapies that will have a direct impact on cataract patients, improving the surgical outcome. Faster and cheaper production of the lens will have an economic benefit through new business development, developing new skills, staff training, and generation new jobs as well as making significant savings to the healthcare system through better patient outcomes and reduced ongoing care.
HOW WILL THEY BENEFIT
The current prototyping process for Intraocular Lenses (IOLs) is often an expensive and time-consuming process. The steps set out in this proposal will provide a new prototyping platform that could expedite and refine the IOL development process. Furthermore, the complexity of manufacturing premium IOLs, for example, Zephyr IOL by Anew IOL technologies, (which can reduce PCO significantly but requires extensive machining time), could be significantly reduced or eliminated. This would allow more economical production of premium IOLs, and enhance availability toe cataract patients, delivering cost saving to healthcare systems alongside better patient outcomes.
EXPLOITATION AND APPLICATION
A market research report (literature search and follow-up interviews with identified IOL companies) was completed in July 2017 (supported by UEA impact funds). This generated a significant amount of interest from leading IOL companies including HOYA, Zeiss, Morcher, Anew IOL technologies, and most recently from Swiss Advanced IOLs. A preliminary patent application, focusing on the new 3D printable formulation to fabricate optically clear, foldable and biocompatible IOL, could be sought in liaison with the Research and Innovation Office at UEA. This could include potential claims on the new IOL design and a 3D printable formulation with appropriate optical properties. Our working relationship with the industrial partners and their general awareness of our reputation could significantly increase the likelihood that our work can be further exploited and be fed into their future development.
COMMUNICATION TO THE GENERAL PUBLIC
We envisage that the development of new therapies to treat cataract and prevention of secondary cataract will be of significant interest to general public globally, in particular to those in the developing countries. Therefore, updates on research will be shared and distributed nationally and internationally via public press releases. We also share the findings by creating patient bulletin in layman term, and through engagement with eye research charities (Fight for Sight). Other avenues, for example, YouTube and other social media platforms, will be used to disseminate the outcomes of this proposal.
EDUCATING SCIENTIFIC WORKFORCE
This project will train research staff in multidisciplinary skills essential for a future career. This could be either in the academic sector or industrial settings. Addressing future challenges requires innovative technologies and translational research. Training highly skilled and specialist staff will drive innovations forward. This proposal will train staff in the application of emerging 3D printing technology, polymer science, as well as biological and clinical subjects like cataract and PCO.
Outside academia, this work will be particularly of interest to intraocular lens manufacturing and pharmaceutical companies. The long-term aim of this project is to develop new therapies that will have a direct impact on cataract patients, improving the surgical outcome. Faster and cheaper production of the lens will have an economic benefit through new business development, developing new skills, staff training, and generation new jobs as well as making significant savings to the healthcare system through better patient outcomes and reduced ongoing care.
HOW WILL THEY BENEFIT
The current prototyping process for Intraocular Lenses (IOLs) is often an expensive and time-consuming process. The steps set out in this proposal will provide a new prototyping platform that could expedite and refine the IOL development process. Furthermore, the complexity of manufacturing premium IOLs, for example, Zephyr IOL by Anew IOL technologies, (which can reduce PCO significantly but requires extensive machining time), could be significantly reduced or eliminated. This would allow more economical production of premium IOLs, and enhance availability toe cataract patients, delivering cost saving to healthcare systems alongside better patient outcomes.
EXPLOITATION AND APPLICATION
A market research report (literature search and follow-up interviews with identified IOL companies) was completed in July 2017 (supported by UEA impact funds). This generated a significant amount of interest from leading IOL companies including HOYA, Zeiss, Morcher, Anew IOL technologies, and most recently from Swiss Advanced IOLs. A preliminary patent application, focusing on the new 3D printable formulation to fabricate optically clear, foldable and biocompatible IOL, could be sought in liaison with the Research and Innovation Office at UEA. This could include potential claims on the new IOL design and a 3D printable formulation with appropriate optical properties. Our working relationship with the industrial partners and their general awareness of our reputation could significantly increase the likelihood that our work can be further exploited and be fed into their future development.
COMMUNICATION TO THE GENERAL PUBLIC
We envisage that the development of new therapies to treat cataract and prevention of secondary cataract will be of significant interest to general public globally, in particular to those in the developing countries. Therefore, updates on research will be shared and distributed nationally and internationally via public press releases. We also share the findings by creating patient bulletin in layman term, and through engagement with eye research charities (Fight for Sight). Other avenues, for example, YouTube and other social media platforms, will be used to disseminate the outcomes of this proposal.
EDUCATING SCIENTIFIC WORKFORCE
This project will train research staff in multidisciplinary skills essential for a future career. This could be either in the academic sector or industrial settings. Addressing future challenges requires innovative technologies and translational research. Training highly skilled and specialist staff will drive innovations forward. This proposal will train staff in the application of emerging 3D printing technology, polymer science, as well as biological and clinical subjects like cataract and PCO.
People |
ORCID iD |
| Aram Saeed (Principal Investigator) | |
| Ian Wormstone (Co-Investigator) |
Publications
Falcon N
(2021)
Prefunctionalised PLGA microparticles with dimethylaminoethyl moieties promote surface cell adhesion at physiological condition
in European Polymer Journal
| Description | We developed a new method to make artificial lenses for the treatment of cataracts using 3D printing technologies. We have also shown that this technique could be used to develop devices that can release drugs inside the eye so that the patient doesn't need to take repeated medications like eye drops following cataract surgery. Since the last update, we have successfully expanded our resin formulations with specifications that are comparable with the existing commercial units. We have performed vigorous testing in clinically relevant cell lines to ensure their long term safety and that no toxic residuals leave the implanted lens. We have also developed drug-eluting devices containing medications that are often prescribed to cataract patients following surgery. With these drug-eluting devices, the patient would require less use of eye drops which often can be linked with adherence issues. |
| Exploitation Route | Since the last update, our patent application has moved to national stages both in US and EU. We have worked with national and international companies to support the release of their product prototypes. We are currently working on publication from this project (following the standard hold from the patent application), once this publication is successful, we will perform the press release and engage with national and international companies. We also aim to form a new consortium around lens materials, drug-eluting implants and physical and chemical and pharmacological characterisation to further advance this innovation and bring it closer to the market and patients. |
| Sectors | Chemicals,Education,Electronics,Healthcare,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
| Description | We have developed a new method and resin formulation to prototype artificial eye lenses. This method can be used instead of standards machining and moulding techniques and the advantage of our platform is many folds, including 1) fabrication of prototypes in days rather than in months using existing tools, 2) unlimited customisation and design testing, 3) fabrication of complex designs that are impossible with current methods. From this, we have supported a national and international company to release their new products to their specifications. Further optimisation and analysis are required. We have also engaged with regional cataract surgeons and our discussion has led to further discussion on how these new technologies can improve the clinical outcome for cataract patients. We anticipate the knock-on effect of these engagements could lead to further interest in our platform from the lens manufacturing companies who wish to meet clinical needs in this field. |
| First Year Of Impact | 2021 |
| Sector | Chemicals,Creative Economy,Education,Healthcare,Manufacturing, including Industrial Biotechology,Pharmaceuticals and Medical Biotechnology |
| Impact Types | Societal |
| Description | Proof Of Concept Award |
| Amount | £15,000 (GBP) |
| Organisation | University of East Anglia |
| Sector | Academic/University |
| Country | United Kingdom |
| Start | 01/2021 |
| Description | Unpacking and validating the interaction of new intraocular lenses with the human eye capsular bag model will validate and speed the clinical transition of this class II medical device from prototype to clinical use |
| Amount | £51,000 (GBP) |
| Organisation | University of East Anglia |
| Sector | Academic/University |
| Country | United Kingdom |
| Start | 04/2023 |
| End | 05/2024 |
| Description | Work Placement in Lens Manufacturing Company |
| Amount | £6,750 (GBP) |
| Organisation | University of East Anglia |
| Sector | Academic/University |
| Country | United Kingdom |
| Start | 01/2022 |
| End | 07/2022 |
| Description | Drug Delivery Device |
| Organisation | VisusNano Ltd |
| Country | United Kingdom |
| Sector | Private |
| PI Contribution | Development of a new controlled Delivery device for eye |
| Collaborator Contribution | We developed formulation and method of fabrication for controlled delivery device for eye. this partnership is on going |
| Impact | All the project milestones were achieved on this project including the method for drug encapsulation, fabrication of the drug-eluting units, method of attachment of the drug-eluting parts to the medical device. We have also studied the release profile of the drug from the fabricated parts and should the desirable long-term release in clinically relevant conditions. We are added more pharmacological drugs and analysed their release profile to validate the use of this platform for a broad spectrum drug loading and release of a variety of pharmacological agents. We have also analysed the safety profile in relevant culture conditions and the results showed these drug-loaded units are well tolerated over a long culture period. |
| Start Year | 2020 |
| Title | FUNCTIONALISED BIODEGRADABLE POLYESTER POLYMERS |
| Description | Described herein is a biodegradable polymer comprising an amine-terminated polyester polymer. Also described herein are microparticles comprising the biodegradable polymer; a method of producing the biodegradable polymer comprising initiating a ring- opening polymerisation of a cyclic ester with an amino alcohol initiator; and a variety of uses for the biodegradable polymer, including in tissue engineering and regenerative medicine, for example, as a microcarrier for biologics. |
| IP Reference | WO2022185082 |
| Protection | Patent / Patent application |
| Year Protection Granted | 2022 |
| Licensed | No |
| Impact | In the development stage but aims to create a composition comprising cells supported on the biodegradable polymer wherein the composition may be a supported tissue and/or wherein the cells may comprise stem cells (e.g., embryonic stem cells, tissue-specific stem cells, mesenchymal stem cells, hematopoietic stem cells, or induced pluripotent stem cells), b cells, antibody generating cells, chimeric immunoreceptor T cells (CAR T cells), or specialised cells (e.g., bone cells, skin cells, muscle cells, cardiac cells, lung cells, or intestinal cells) or a mixture thereof. |
| Title | INTRAOCULAR DEVICES |
| Description | Described herein are methods of stereolithographically printing intraocular devices, in particular intraocular lenses, as well as stereolithographic compositions for use therein. The stereolithography composition may comprise: a photoinitiator; a monofunctional aryl acrylate monomer, wherein the acrylate group of the monofunctional aryl acrylate monomer is of the formula -0-(C=0)-CH=CH2; and a multifunctional methacrylate or acrylate cross-linker, wherein the monofunctional aryl acrylate monomer is present in the composition in a greater amount than the multifunctional methacrylate or acrylate cross-linker. |
| IP Reference | WO2020049307 |
| Protection | Patent application published |
| Year Protection Granted | 2020 |
| Licensed | No |
| Impact | The patent generated interest from national and international companies through contract research and consultancy work. |
| Description | Developing and fabricating an Intraocular Lens for the treatment of cataract surgery. |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Industry/Business |
| Results and Impact | International Conference on the Lens - the presentation was recorded and play virtually to the audience. |
| Year(s) Of Engagement Activity | 2022 |
| Description | Development of eye lens using additive manufacturing process |
| Form Of Engagement Activity | A formal working group, expert panel or dialogue |
| Part Of Official Scheme? | No |
| Geographic Reach | Regional |
| Primary Audience | Other audiences |
| Results and Impact | Engagement with Cataract experts in the local and regional hospitals to showcase the new development from our project and to exchange knowledge and trend in the current start of the art and future development to improve the clinical outcome for cataract patients. |
| Year(s) Of Engagement Activity | 2022 |
| Description | Evaluating the feasibility of using portable lens prototyping and manufacturing techniques to support access to premium lenses in developing countries |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Professional Practitioners |
| Results and Impact | We held a research presentation for potential international cataract surgeon partners (in the Kurdistan Region of Iraq) in developing countries. Our pathway to impact involves engaging with international cataract surgeons and scientists to discuss the feasibility of developing new lenses using portable platforms. We anticipate that the collaboration will grow and we will facilitate further research collaborations to test the feasibility of our research platform, which involves using portable manufacturing techniques to lower the cost and enhance access to premium lenses. |
| Year(s) Of Engagement Activity | 2022 |
| Description | Fabrication of Intraocular lens and in vitro testing |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Professional Practitioners |
| Results and Impact | The Oslo Eye Research Centre is actively looking for innovative solutions to treat ocular-related diseases, including cataracts. During the research presentation, we demonstrated novel manufacturing and prototyping techniques for Intraocular Lenses (IOLs) and the combination of drug-eluting lenses to treat cataracts and related conditions |
| Year(s) Of Engagement Activity | 2022 |
| Description | Norwich Science Festival |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | National |
| Primary Audience | Schools |
| Results and Impact | Norwich Science Festival is running locally in the Eastern Region with local and national companies, School, University and Other government institutions participate. There are a large number of audience including the general public, regional school, regional business and policymakers. At this event. We had a table activity show casting Cataract, including leaflets about the incident of cataract, causes of cataract, current treatment and discussing the potential of new technologies. We had full days of contact with the audience, from children to patient to cataract surgeon. Dr Aram Saeed also had an invited talk on Cataracts at the festival where the general public attended. The talk was focused on the causes of cataract and how they affect the quality of life and what are the current and future treatment to manage the condition. This was very well received and attended. |
| Year(s) Of Engagement Activity | 2019 |
| URL | https://norwichsciencefestival.co.uk/about-us/past-norwich-science-festivals/norwich-science-festiva... |
| Description | Rapid prototyping techniques to create artificial lenses with drug-eluting components |
| Form Of Engagement Activity | A formal working group, expert panel or dialogue |
| Part Of Official Scheme? | No |
| Geographic Reach | Regional |
| Primary Audience | Professional Practitioners |
| Results and Impact | We held a presentation and discussion on the use of new lenses and drug-eluting components with local NNUH cataract surgeons, and explored the possibility of using the technology platform to address other unmet clinical needs in the ophthalmic field, such as cornea regeneration and glaucoma |
| Year(s) Of Engagement Activity | 2022 |
| Description | School visit (Cataract talk) Wymondham High - Norfolk |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Schools |
| Results and Impact | Wymondham High Academy is a state-funded co-educational academy school in the English county of Norfolk It can be found near the centre of the town of Wymondham, to the west of Norwich. It has around 1,650 pupils aged 11 to 18. I have been invited to talk to give a science talk on Cataract to inspire the students. This was a well-organised event. I have given one hour talk where I covered the anatomy of the eye, the light going through lenses and how our brain translates images. I have then talked about cataract as a condition related to age but also can occur in children. I have then talked about new technologies about how they can make artificial lense faster and better with additional functionalities. Students were so excited and engaged. The session was followed by Q&A from the students. |
| Year(s) Of Engagement Activity | 2020 |