Immunology and Inflammation

Infectious diseases and immunological disorders remain one of the leading causes of disease.

The immune system is key to fighting infection, but also plays a role in unwanted responses such as allergies and excessive chronic inflammation following clearance of pathogens.

Our research is aimed at assessing the biochemical mechanisms that underpin immunological and inflammatory responses in the eye (eg. corneal and retinal) and on the eye's surface (e.g. in conditions of dry eye and contact lens wear). The research is directed to understand the cellular and chemical mechanisms of eye disease, with the translational goal of improved treatments for eye disorders.  Additionally, inflammation plays a key role in normal wound healing whereas abnormal inflammatory responses are associated with the most common forms of chronic lower limb ulceration.  Our research explores methods of identifying and managing chronic inflammatory changes in leg ulcers and other chronic wounds.

Groups / Projects Research Lead Dept / Centre
Centre of Research Excellence in Child Language Professor Angela Morgan Audiology and Speech Pathology
Corneal and Ocular Immunology Unit Dr Holly Chinnery
Optometry and Vision Sciences
Evaluation of vascular, glial and functional deficits in diabetic eye disease Optometry and Vision Sciences
Eye movements in neurodegenerative disease Associate Professor Larry Abel Optometry and Vision Sciences
Imaging Retinal Cells Human Unit Associate Professor Andrew Metha
Optometry and Vision Sciences
Immunology and Inflammation
Impact of childhood growth patterns & latent cardiovascular risk factors on the microcirculation in adult life Optometry and Vision Sciences
Modulation of the anterior eye inflammatory response to treat dry eye disease Optometry and Vision Sciences
Retinal structure and function in ageing and disease Dr Michael Pianta Optometry and Vision Sciences
Understanding progressive vision loss in the eye disease glaucoma Dr Andrew Anderson Optometry and Vision Sciences
Using our novel model of glaucoma to understand if ganglion cells can recover from injury Optometry and Vision Sciences