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Our research projects

Since 1987 the Macular Society has invested around £10 million in over 100 research projects. Each year we invite applications for research grants, PhD studentships and seedcorn grants which are assessed by our Research Committee.

Research grants

Research grants are for projects of up to three years duration and up to £300,000, which covers everything from laboratory chemicals to salaries.

PhD studentships

A PhD studentship funds a student to undertake a three year research project. The student submits a thesis for qualification of the degree, which is the highest level of academic degree attainable.

Seedcorn projects

A seedcorn grant is funding of up to £25,000 to generate preliminary data to advance innovative and novel ideas.

Fellowships

A fellowship is an award that provides funding for individuals to pursue research, study, training, or professional development. 

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All Research grant PhD studentship Seedcorn Fellowship AMD Macular dystrophies Active Complete
Close up of man wearing technology glasses

Real-life costs and benefits of wearable low vision aids

A trial comparing different low vision aids such as magnifiers, smart devices and wearable technology to compare their cost and impact on quality of life

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Researchers from Dr Linda Troeberg's project

Wrong place, wrong time: protein delivery and macular disease

Investigating the movement of a protein called TIMP-3, which may be involved in AMD and Sorsby Fundus Dystrophy. To understand how the mutation leads to dysfunction and disease.

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Close up of eye looking up

Creating a new laboratory macular model

This project will investigate the potentially important genes that need to be switched on early in pregnancy for the macula to form. It will look into precisely when and in which cells they are switched on and give us an understanding of how the macula is made. This is key for identifying what can go wrong and to provide clues about designing effective treatment strategies.

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Blue and yellow DNA strand

Looking at the connection between proline transport and macular health

This team has already studied SIT-1 extensively, including looking at how small molecules bind to it. This research project extends the work by testing how proline transport and metabolism can be optimised for retaining macular health.

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Circadian rhythms - split with day and night with a clock over a human brain

The impact of misaligned daily light cycles on the development of diabetic retinopathy

This research looks into the impact of circadian rhythms on the development of diabetic retinopathy (DR).

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Researcher in laboratory looking into microscope

The role of the protein ABCC5 in diabetic macular oedema

The ABCC5 protein is involved in diabetic macular oedema (DMO) and plays a role in cell transport. Are these inter-linked?

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