AITHM James Cook University

Business development

One major stream for AITHM is dedicated to research that seeks to move from basic science through to translation, commercialisation and impact.

AITHM’s governing boards incorporate senior hospital and health service staff and representatives from other key stakeholders, facilitating transfer of AITHM research findings into beneficial outcomes.

AITHM with JCU, is a member of the Medical Research Commercialisation Fund. This investment collaboration supports early stage development and commercialisation opportunities from Australian medical research institutes and allied research hospitals. AITHM also maintains close relationships with governments and non-government organisations and AITHM research closely informs the development of health policy and other key initiatives, such as the Northern Australia Development Agenda.

In 2016, AITHM made five invention disclosures to the Innovation and Commercialisation team at JCU. These inventions resulted in new Intellectual Property (IP) being disclosed. Potential IP protection strategies and patent applications are currently being pursued for some of these inventions. A number of these inventions are also being marketed under confidentiality to potential industry partners with a view to further engagement with these partners to further collaborate or receive investment and progress these new technologies to the market.

Business Development


Malaria vaccine development

Malaria is the third most serious infectious disease among people around the world, and is a particular scourge in the Tropics. A vaccine is urgently required and could prove a billion dollar proposition. In late 2015 AITHM Director, Professor Louis Schofield received a $2.8M grant from the Bill & Melinda Gates Foundation to pursue the pre-clinical development of a broad spectrum vaccine designed to overcome the five malaria parasite species. These parasites are complex and hard to target with 11 distinct life stages, each with multiple redundant strategies for survival in the host.

A novel approach to treating inflammation using hookworms

Ulcerative Colitis (UC) is an inflammatory disease which primarily affects the colonic mucosa leading to bouts of bloody diarrhoea, abdominal cramps, and fever. AITHM researchers have developed an anti-inflammatory biologic to treat UC as well as other inflammatory diseases.

This ‘first-in-class’ biologic targets the underlying disease condition and has the potential to be disease modifying, unlike most current therapies which address only the symptoms of the disease. The researchers are seeking investment to enhance the preclinical data package and conduct further toxicology and safety trials in mice before progressing to clinical trials.

Immunotherapeutics for food allergy

Food allergy is a major public health problem, affecting 8 per cent of children and 10 per cent of infants and is estimated to impact 500 million people worldwide. Some food allergies, including peanut, fish and shellfish are not outgrown in adulthood and can cause life-threatening reactions. There are no currently approved medical therapies to cure food allergies or prevent the effects of allergy. In particular for fish and shellfish allergy, there are no therapies in development.

AITHM researchers are developing hypoallergenic proteins and immunopeptides using bio-molecular and immunological techniques to down-regulate the immune response to allergenic proteins. Use of such hypoallergenic proteins or peptides as immunotherapeutics allow those allergic individuals to slowly become tolerant to fish or shellfish overtime.

AITHM is working towards developing hypo-allergenic variants of these proteins for preclinical trials and is looking to partner with biopharmaceutical companies to progress the development of hypoallergenic proteins and immunopeptides

Using peptides to accelerate wound healing

Chronic wounds, such as diabetic ulcers, contribute to high mortality rates and are a significant expense in the health system. Novel growth factor-based active peptides developed by AITHM show great promise in accelerating wound healing in punch-biopsy animal experiments.

These novel therapeutic peptides show significant acceleration of wound closure versus the market leading product and have the potential to be ‘best in class’ therapeutics for both chronic and surgical wound models.

New paradigm in anti-inflammatory therapeutics

AITHM is seeking to partner with biotechnology or pharmaceutical companies to discover and develop hookworm-derived small molecules as an entirely new generation of anti-inflammatory therapeutics. The goal is to develop small molecules derived from hookworm secretions that suppress inflammation by promoting regulatory responses, notably the expansion and mucosal homing of regulatory T cells.

The market for inflammatory disease therapeutics is enormous, and growing at an unprecedented rate. Potential returns are high, in light of clinical options and potential risks. Obvious disease target areas where current standard of treatment is insufficient include autoimmune diseases such as IBD, rheumatoid arthritis, transplant diseases, psoriasis, multiple sclerosis and coeliac disease, and allergic inflammation such as asthma, food allergies and allergic dermatitis. AITHM has already identified individual molecules that confer protection against inflammatory diseases in animal models, and is working towards developing pre-clinical portfolios to accelerate these discoveries towards clinical trials.


New paradigm in wound healing agents

Liver flukes secrete a growth factor to heal the chronic wounding they cause while feeding in the liver of their human hosts. Parasitic liver fluke recombinant growth factor accelerates wound healing in vitro and in vivo using mouse wounding models, and offers promise in the treatment of ulcers for diabetics and the elderly. Parasite recombinant purified proteins and peptides offer great promise as an entirely new generation of therapeutics for chronic human diseases
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New paradigm in anti-inflammatory therapeutics

Parasitic hookworms have co-evolved with humans to cause chronic infections with minimal pathology. Hookworms have developed entirely novel molecular means to suppress inflammation, and experimental human infection confers therapeutic benefit against inflammatory diseases. Hookworm recombinant purified proteins protect against a range of autoimmune and allergic diseases in animal models
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Novel biopharmaceuticals for food allergy

Over 40% of the world population has some type of allergic sensitivity. Up to 8% of adults and 4% of children worldwide have food allergies. Allergic sensitisation is generated through immune responses to specific proteins. Our research develops hypoallergenic proteins for the treatment of food allergies
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Allergy diagnostics for the tropics

Worldwide, the rise in prevalence of allergic diseases has continued for more than 50 years. Over 40% of the world’s population has some type of allergic sensitivity. Allergic sensitisation in the Asia-Pacific region is as prevalent as in developed regions of the world. We develop allergen extracts and purified allergens for the diagnosis of allergic sensitisation
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