World Sight Day raises awareness of the global issue of avoidable blindness. Our Symatix?,?membrane?supports the prevention of this pathology.
The Electrospinning Company Ltd.
Bringing Your Medical Device Design to Life. Electrospun Material Development, Validation, and Scale-Up
Love your Eyes: Symatix? membrane – an alternative to human Amnion
Symatix Membrane – Consistent, affordable, sterile.
Human amniotic membrane is used in eye surgeries but has many drawbacks associated with being a human tissue.?We made it our mission to develop a membrane that functions in an equivalent way but improves the availability of this treatment, is safe and more affordable.
The Symatix Membrane is a class III medical device which is fully degradable and sterile, consisting of biocompatible polymer fibres and hyaluronic acid.?
The Electrospinning Cell Therapy Tools
Electrospun, nanofibrous biomaterials platform for cell therapies
Cell Therapies have opened the door to new disease treatment but cell survival and retention remain significant challenges. Meet our electrospun, nanofibrous biomaterials platform for cell therapies. Materials from this platform can support cell growth and differentiation, as well retention on site. Vascularisation layers or APIs can be added to further guarantee the efficacy and survival of the cells.?
The biomaterials can be permanent (and thus retrievable) or degradable for tissue replacement applications. They can be used for the encapsulation of cell therapies, allowing nutrients to pass through, but preventing the immune system from attacking the engineered cells.?Electrospun biomaterials have an unmatched level of customizability and biocompatibility and are perfect candidates to supplement cell therapy success.?
Discover our Cell Therapy White Papers
Meet our Product Development Manager, Katrina Moisley,?at MD&M Minneapolis on 2th & 3th?November?2022
Katrina holds a PhD from The University of Leeds where she studied Tissue Engineering and Regenerative Medicine, her project focused on developing electrospun scaffolds for orthopaedic applications.
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She oversees the technical development of TECL’s stent coating capabilities and works closely with our US partners?Confluent Medical Technologies. She helps facilitate the company internship program and is proud to work with lots of brilliant up and coming scientists and engineers.
Meet in person her at the Confluent Medical Technologies boot at MD&M Minneapolis Conference:?[email protected]
Job Opportunities
The Electrospinning Company based in Oxfordshire is looking to appoint three people to support the future growth and development of the company.
An R&D Scientist (MSc/Eng or PhD) to work on design and development of electrospun biomaterials on a range of client projects.
An R&D Engineer (early career BSc/MSc/MEng) to develop novel process solutions in our novel stent coating platform.
A QC?Technician – this role would be perfect for an entry level candidate or someone with experience within a manufacturing or quality control environment looking for career progression within a regulated industry.?
A?Quality Officer?– A Quality Officer to support the Quality Manager to ensure compliance with ISO13485:2016 medical device quality standards and other applicable regulatory standards and customer requirements.
We are an enthusiastic and diverse team of people representing 10 nationalities.
The Electrospinning Technology
Do you know how?our technology works??
Electrospinning is an established technique for the manufacture of fibrous components for medical devices.
We use sophisticated equipment with tight control over multiple factors, including environmental parameters such as temperature and humidity. These are needle-based electrospinning systems which allow high levels of precision over fibre diameter and scaffold thickness, and the fabrication of highly aligned fibres. The quality of each scaffold batch is checked for a range of specifications including fibre diameter, pore size, porosity, thickness, mechanical properties and residual solvent.?
Watch the video to understand how our technology works.?