Browsing Other - PRISM: Polymer, Recycling, Industrial, Sustainability and Manufacturing Institute by Subject "Materials Research Institute - AIT"
Now showing items 1-7 of 7
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Development of a new bone scaffold for the treatment of large bone defects
(Athlone Institute of Technology, 2020-06)Large bone defects are typically caused by incidents such as fractures, diseases, trauma or surgeries. Worldwide more that 3/5 million bone grafts (either autografts or allografts) are performed each year. -
Development of novel polyethylene glycol dimethacrylate (PEGDMA)-based hydrogels for never regeneration
(Athlone Institute of Technology, 2020-06)Injury to the peripheral nervous system (PNS) affects more than 1,000,000 people worlwide a year. It is estimated that $150 billion is spent on nerve injury repair in the USA alone each year. The current surgical methods ... -
Development of smart 4-D materials utilising novel self assembly polymers
(2020-06)4D printing is a technique that uses a 3 D printer to create objects that change their shape overtime 4 D printing involves the use of smart materials that will transform when exposed to an external stimuli These can ... -
Evaluation of the efficacy of lipid core nanoemulsions containing temozolomide coupled to ferrocenes in the treatment of Glioblastomas
(Athlone Institute of Technology, 2020)Glioblastoma (GB) is the most common and aggressive neoplastic brain tumor, and its treatment has proved to be a challenge. For decades its therapy has been based on the use of temozolomide (TMZ), but the survival rate ... -
Preclinical assessment of biomimetic and bioactive bone regeneration scaffold in femoral condyle defect of Sprague Dawley rats.
(Athlone Institute of Technology, 2020)A fabricated biomimetic bone scaffold, incorporating osteogenic factors, presents a promising alternative to traditional autologous and allogeneic bone fracture treatments. Here, the principles of biology and engineering ... -
Smart hydrogels: therapeutic advancements in hydrogel technology for smart drug delivery applications.
(Wiley, 2015-12)Hydrogels are a fusion of solid and liquid phases which closely mimic biological tissue. As such they have enormous potential for drug delivery systems as they are biocompatible and may be tailored to specific applications. ... -
Titanium-niobium alloys covered by electrospinning technique to applications in bone implants
(Athlone Institute of Technology, 2019)Recently, to avoid toxic metals in the human environment, there are many efforts to produce alloys containing titanium Ti and niobium Nb. Nb is a powerful stabilizer of beta-titanium phase[1]. Depending on the composition ...