Improving Rehabilitation Outcomes Through Self-Management: My Therapy
Funder
National Health and Medical Research Council
Funding Amount
$743,438.00
Summary
We must ensure patients have enough therapy practice for the best inpatient rehabilitation outcomes. During rehabilitation, we know patients don't often receive enough therapy and actually spend most of the day sitting and lying down. My Therapy was designed to increase independent practice of therapy exercises during rehabilitation, in addition to usual care, without additional staff. Through My Therapy, patients achieved 100 extra minutes of weekly therapy participation and better function.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100073
Funder
Australian Research Council
Funding Amount
$468,474.00
Summary
Nanoimprint systems: expanding research capability of roll to roll printer. This project aims to strengthen Australian research activities in the development of advanced multifunctional materials through the purchase of thermal and ultraviolet (UV) nano-imprint lithography modules to expand the nanofabrication capacity of roll-to-roll printer line. The various processes used to make nano-sized devices and components fall into two major categories, coating and patterning. Integrating the thermal ....Nanoimprint systems: expanding research capability of roll to roll printer. This project aims to strengthen Australian research activities in the development of advanced multifunctional materials through the purchase of thermal and ultraviolet (UV) nano-imprint lithography modules to expand the nanofabrication capacity of roll-to-roll printer line. The various processes used to make nano-sized devices and components fall into two major categories, coating and patterning. Integrating the thermal and UV nanoimprint lithography modules into the roll-to-roll printer line will provide a unique and simple materials fabrication platform. It will combine coating and nanolithography processes in a low cost, high-throughput and high-resolution format for advanced nanofabrication of microelectronic, telecommunication, biomedical and energy devices.Read moreRead less
Scaling-up microfluidic drying as an efficient route to manufacture uniform and functional particles as high-value products. This project aims to scale-up microfluidic spray drying and demonstrate the method as a viable option to manufacture monodisperse microparticles as bioactive carriers or microencapsulates, with better functional properties and uniformity. It aims to transform the manufacturing of high-value products for pharmaceuticals, functional foods and biotechnology applications and l ....Scaling-up microfluidic drying as an efficient route to manufacture uniform and functional particles as high-value products. This project aims to scale-up microfluidic spray drying and demonstrate the method as a viable option to manufacture monodisperse microparticles as bioactive carriers or microencapsulates, with better functional properties and uniformity. It aims to transform the manufacturing of high-value products for pharmaceuticals, functional foods and biotechnology applications and lift productivity by managing innovation for Australia’s industries.Read moreRead less