Ultra-Porous Nanoparticle Networks: A Biomimetic Coating Morphology for Enhanced Cellular Response and Infiltration

Orthopedic treatments are amongst the most common cause of surgery and are responsible for a large share of global healthcare expenditures. Engineering materials that can hasten bone integration will improve the quality of life of millions of patients per year and reduce associated medical costs. Here, we present a novel hierarchical biomimetic coating that mimics the inorganic constituent of mammalian bones with the aim of improving osseointegration of metallic implants. We exploit the thermally-driven self-organization of metastable core-shell nanoparticles during their aerosol self-assembly to rapidly fabricate robust, ultra-porous nanoparticle networks (UNN) of crystalline hydroxyapatite (HAp). Comparative analysis of the response of osteoblast cells to the ultra-porous nanostructured HAp surfaces and to the spin coated HAp surfaces revealed superior osseointegrative properties of the UNN coatings with significant cell and filopodia infiltration. This flexible synthesis approach for the engineering of UNN HAp coatings on titanium implants provides a platform technology to study the bone-implant interface for improved osseointegration and osteoconduction

Patient initiated aggression and violence in the Australian general practice setting

This is the first national study to be conducted in Australia examining the incidence and prevalence of violence against general practitioners and general practice staff.The research reported in this paper is a project of the Australian Primary Health Care Research Institute, which is supported by a grant from the Australian Government Department of Health and Ageing under the Primary Health Care Research, Evaluation and Development Strategy

A case against generalisation of mental health occupational therapy in Australia

Background/aim: In 2009, the World Federation of Occupational Therapists International Advisory Group on Mental Health conducted a global survey that yielded data on mental health occupational therapy practice. The Australian dataset reflected aspects o

Faith-based cognitive behavioral therapy: easing depression in the elderly with cognitive decline

Minimizing depression in residential aged care facilities is a formidable challenge but doing so may improve quality of life and protect against dementia. A pilot project with residents with cognitive decline and concurrent depression tested the suitability of a faith-based cognitive behavioral therapy (CBT) intervention in reducing participant levels of depression, offering promising results

A response to patient-initiated aggression in general practice: Australian professional medical organisations face a challenge

Little is known about the incidence, prevalence, and impact of patient-initiated aggression against general practice staff in Australia or how medically related professional organisations respond to this. The few available Australian studies suggest tha

Ultra-Porous Nanoparticle Networks: A Biomimetic Coating Morphology for Enhanced Cellular Response and Infiltration

Orthopedic treatments are amongst the most common cause of surgery and are responsible for a large share of global healthcare expenditures. Engineering materials that can hasten bone integration will improve the quality of life of millions of patients per year and reduce associated medical costs. Here, we present a novel hierarchical biomimetic coating that mimics the inorganic constituent of mammalian bones with the aim of improving osseointegration of metallic implants. We exploit the thermally-driven self-organization of metastable core-shell nanoparticles during their aerosol self-assembly to rapidly fabricate robust, ultra-porous nanoparticle networks (UNN) of crystalline hydroxyapatite (HAp). Comparative analysis of the response of osteoblast cells to the ultra-porous nanostructured HAp surfaces and to the spin coated HAp surfaces revealed superior osseointegrative properties of the UNN coatings with significant cell and filopodia infiltration. This flexible synthesis approach for the engineering of UNN HAp coatings on titanium implants provides a platform technology to study the bone-implant interface for improved osseointegration and osteoconduction