Overview. This project addresses the critical area of delivering therapeutics to the skin. If successful, the approach will have direct and positive consequences for the treatment of a range of skin diseases, but may also be viewed as a more generic means of drug delivery for treating a much wider range of disease. Read more
Delivery of drug molecules to treat visually impairing ocular diseases that originate in the posterior segment of the eye, has been the most challenging task to the pharmaceutical scientists and retinal specialists. Read more
Protein-based therapeutics have shown remarkable success in modulating extracellular targets; however, effective intracellular delivery remains a key challenge in biotherapeutics. Read more
Supervisory Team. Dr. Natalie V. Wheeler, Dr. Qiang Fu. Project description. In this project we will develop hollow-core optical fibres (HCFs) for mid-infrared laser delivery. Read more
Lipid nanocapsules (LNCs) are very interesting nanoformulations as they can be made by phase inversion technique (PIT), a scalable method with predictable particle size at the beginning of the preparation process. Read more
Case-based learning (CBL) is a core component of Bristol University’s innovative medical and veterinary curricula. CBL is founded on the problem-based learning educational strategy introduced at McMaster University and uses the seven-step methodology developed at Maastricht University. Read more
About the project. This nanobiotechnology project aims to develop efficient nanoparticle biomolecule delivery systems for plant and fungal cells. Read more
Managed realignment, where coastal flood defences are breached or lowered to introduce tidal inundation to the coastal hinterland, is becoming an increasingly popular approach to coastal management to restore saltmarsh environments and compensate for habitat and ecosystem service loss elsewhere. Read more
As a part of their business operations, several large companies have outsourced various activities to smaller firms, such as transportation, delivery, and packaging services. Read more
The studentship is with University of Salford and B4Box Ltd. Academic Supervisor. Professor Will Swan. Academic Co-Supervisor. Professor Richard Fitton. Read more
Proteins bind and recognise each other using large surface areas. This recognition process is vital for a variety of biological applications. Read more
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