A perspective on the wet spinning process and its advancements in biomedical sciences
Over the past decade, there has been significant growth in the use of fibre-based products
and structures for biomedical applications, with new fibrous materials and manufacturing …
and structures for biomedical applications, with new fibrous materials and manufacturing …
Developments in pressurized gyration for the mass production of polymeric fibers
PL Heseltine, J Ahmed… - … Materials and Engineering, 2018 - Wiley Online Library
In this invited feature article, the invention of pressurized gyration in 2013 and its
subsequent development into sister processes such as pressurized melt gyration, infusion …
subsequent development into sister processes such as pressurized melt gyration, infusion …
Microstructure and antibacterial efficacy of graphene oxide nanocomposite fibres
Antibacterial polymer nanocomposite fibre meshes containing graphene oxide (GO)
nanosheets were successfully prepared by pressurised gyration. The morphological and …
nanosheets were successfully prepared by pressurised gyration. The morphological and …
Pressurized gyration: fundamentals, advancements, and future
As a facile, efficient, and low‐cost fiber manufacturing strategy, pressurized gyration/rotation
(PG) is attracting tremendous attention. This review provides a comprehensive introduction …
(PG) is attracting tremendous attention. This review provides a comprehensive introduction …
Recent developments in the use of centrifugal spinning and pressurized gyration for biomedical applications
J Ahmed, M Gultekinoglu… - Wiley Interdisciplinary …, 2024 - Wiley Online Library
Centrifugal spinning is a technology used to generate small diameter fibers and has been
extensively studied for its vast applications in biomedical engineering. Centrifugal spinning …
extensively studied for its vast applications in biomedical engineering. Centrifugal spinning …
Harnessing polyhydroxyalkanoates and pressurized gyration for hard and soft tissue engineering
P Basnett, RK Matharu, CS Taylor… - … Applied Materials & …, 2021 - ACS Publications
Organ dysfunction is a major cause of morbidity and mortality. Transplantation is typically the
only definitive cure, challenged by the lack of sufficient donor organs. Tissue engineering …
only definitive cure, challenged by the lack of sufficient donor organs. Tissue engineering …
[HTML][HTML] The effect of solvent and pressure on polycaprolactone solutions for particle and fibre formation
Polycaprolactone (PCL) is a widely used material in many applications to tackle health
problems worldwide. Formed micro-or nanosized PCL particles and fibres benefit from a …
problems worldwide. Formed micro-or nanosized PCL particles and fibres benefit from a …
Generation of core–sheath polymer nanofibers by pressurised gyration
S Mahalingam, S Huo, S Homer-Vanniasinkam… - Polymers, 2020 - mdpi.com
The ability to generate core–sheath bicomponent polymer nanofibers in a single-step with
scale-up possibilities is demonstrated using pressurised gyration manufacturing. This is the …
scale-up possibilities is demonstrated using pressurised gyration manufacturing. This is the …
[HTML][HTML] Design and Fabrication of Sustained Bacterial Release Scaffolds to Support the Microbiome
AM Klein, N Qosim, G Williams, M Edirisinghe… - Pharmaceutics, 2024 - mdpi.com
Fibres in the micro-and nanometre scale are suited to a broad range of applications,
including drug delivery and tissue engineering. Electrospinning is the manufacturing method …
including drug delivery and tissue engineering. Electrospinning is the manufacturing method …
How can pressurized gyration revolutionize drug delivery?
Y Dai, M Edirisinghe - Expert Opinion on Drug Delivery, 2024 - Taylor & Francis
Drug delivery systems are a critical component of disease treatment, playing a pivotal role in
achieving optimal therapeutic outcomes. Traditional drug delivery methods, whether oral …
achieving optimal therapeutic outcomes. Traditional drug delivery methods, whether oral …