Simplified Process Methods For Mass Vaccine Manufacture
Funder
National Health and Medical Research Council
Funding Amount
$158,393.00
Summary
The ideal way to protect against pandemic bird flu is to vaccinate all Australians as soon as possible after a dangerous strain starts to spread. Current manufacturing technology, which begins by making an infectious virus in chicken eggs, is unable to quickly deliver a mass vaccine to the entire Australian population. The existing process is slow, meaning that it will take several months before enough vaccine is available even to protect personnel working in essential services. The product from ....The ideal way to protect against pandemic bird flu is to vaccinate all Australians as soon as possible after a dangerous strain starts to spread. Current manufacturing technology, which begins by making an infectious virus in chicken eggs, is unable to quickly deliver a mass vaccine to the entire Australian population. The existing process is slow, meaning that it will take several months before enough vaccine is available even to protect personnel working in essential services. The product from chicken eggs is rendered safe after manufacture by breaking the virus structure. This make then break strategy reduces vaccine effectiveness meaning that even fewer individuals can be effectively protected per vaccine batch. Recent scientific progress has demonstrated that it is possible to make a non-infectious empty virus shell (a so-called virus-like particle) inside cells. This new product is able to provide full protection against a lethal influenza challenge, when administered nasally. However, these particles are very difficult to purify from contaminants that are packaged into the particles during manufacture in cells. These contaminants can cause an adverse reaction when the product is given to humans, meaning that although the product is effective it remains difficult to mass produce. A manufacturing problem remains. To overcome this manufacturing problem we will seek to assemble vaccine particles in vitro, building the particle from purified protein. Existing technology for manufacturing pure pharmaceutical protein is well-established and safe, and allows mass manufacture of contaminant-free product. This new make don't break manufacturing strategy is similar to that chosen by Merck to deliver a safe and effective vaccine, for cervical cancer, to mass market. Our key aim is to adapt this efficient manufacturing strategy to the manufacture of influenza vaccine. If successful, we will be able to immunize the Australian population using existing national biomanufacturing capability, within weeks of new strain identification, and without the requirement for high-level containment during manufacture.Read moreRead less
Novel Probiotics And Naturally-sourced Extracts As Treatment Strategies For Chemotherapy-induced
Funder
National Health and Medical Research Council
Funding Amount
$322,183.00
Summary
Intestinal mucositis is a serious disorder associated with chemotherapy treatment in cancer patients. Recently, a new strain of probiotic bacteria has been described with the potential to decrease the severity of intestinal mucositis. However, it is not known whether the live probiotic is necessary for this effect. We will compare the live probiotic, dead probiotic and factors sourced from this probiotic for the potential to decrease the severity of intestinal mucositis. Similarly, there have be ....Intestinal mucositis is a serious disorder associated with chemotherapy treatment in cancer patients. Recently, a new strain of probiotic bacteria has been described with the potential to decrease the severity of intestinal mucositis. However, it is not known whether the live probiotic is necessary for this effect. We will compare the live probiotic, dead probiotic and factors sourced from this probiotic for the potential to decrease the severity of intestinal mucositis. Similarly, there have been anecdotal claims of medicinal application for so-called ‘bioactive’ extracts and formulations derived from a range of mammalian, marine and plant sources. Specifically, Lyprinol (an extract derived from the New Zealand Green-Lipped Mussel), Emu Oil (derived from Emu meat) and the herbal extract Iberogast, have been reported to possess antiinflammatory properties. Indeed, these agents are used widely for the adjunctive relief of symptoms associated with arthritis and joint pain. However, these agents have yet to be tested for their potential to treat or prevent intestinal mucositis. For the first time, utilizing proven, controlled animal model systems, the current submission will explore the therapeutic potential of these agents, alone and in combination with indicated probiotics, for their capacity to treat or prevent mucositis. Should efficacy be demonstrated, a potential mechanism of action will be sought by investigating effects on intestinal stem cells.Read moreRead less