Your browser is out-of-date!

Update your browser to view this website correctly. Update my browser now

×

Novel study of poultry red mites awarded key funding

Infestation of hen houses with poultry red mites is a major animal welfare and economic problem for the egg-producing industry internationally

A grant worth almost half a million pounds has been awarded to the Moredun Research Institute near Edinburgh to develop a novel way of studying poultry red mites which greatly reduces the number of hens required.

Poultry red mites are parasites which need to feed on the blood of a bird to survive, develop and reproduce. Infestation of hen houses with poultry red mites is a major animal welfare and economic problem for the egg-producing industry internationally, and multiple groups worldwide are working to develop new control methods.

To supply mites for any research programme, donor hens must be infested with the parasite to provide sufficient numbers of mites for subsequent laboratory or field studies. The aim of the research funded by the £483,000 grant from the National Centre Replacement, Refinement and Reduction of Animals in Research (NC3Rs) is to establish a laboratory colony of red mites and develop a novel feeding method which removes the need to use infested hens.

Through a series of preliminary experiments, researchers have established that poultry red mites will feed on goose blood through a disposable synthetic skin-like membrane. Live geese are particularly suited to be blood donors for this task as they can supply approximately 30 times more blood than hens in a single donation. The donor geese are looked after and cared for under very high welfare standards in a dedicated blood-donor flock.

By using this system, it has been deduced that the number of hens used for the maintenance of poultry red mites could be reduced by 90 percent per year. In addition, welfare standards will be increased by removing the need for hens to be continuously infested with the parasites for prolonged periods.

This feeding method, designed by Moredun researchers in conjunction with Biomathematics and Statistics Scotland (BioSS), is both sustainable for the routine culturing of mites and can be scaled-up for the production of the large numbers of mites required for trials when required.

Dr Francesca Nunn, who this year received the prestigious International 3Rs Prize fromthe NC3Rs for work related to this study, says:This is an exciting project that not only has the potential to seriously reduce the numbers of experimental hens use in poultry red mite colony maintenance, but also increase our understanding of the feeding behaviour and population dynamics that will be greatly useful in future control strategies against this important parasite. I am thrilled to be working with the NC3Rs once more.”

Dr Alasdair Nisbet, Head of Vaccine and Diagnostic development and Principal Investigator of the study says:“I’m delighted to be able to continue our work on reducing the numbers of hens used for poultry red mite research and refining our approaches in this area in partnership with the NC3Rs. We look forward to another three years of a high level of impact in these areas.”

Veterinary Practice

Improve Veterinary Practice (part of the Improve International Group) is an online knowledge and information hub for veterinary professionals across all specialties. It provides reliable, useful and interesting content, written by expert authors and covering small animal, large animal, exotics, equine and practice management
sectors of the veterinary surgeon and nursing professions.

Improve Veterinary Practice also offers a subscription-based membership, offering CPD courses and much more for the whole veterinary community.

Improve Veterinary Practice exists to inspire and inform your day-to-day work, and enable your ongoing professional development.


More from this author

Have you heard about our
Membership?

The number one resource for veterinary professionals.

From hundreds of CPD courses to clinical skills videos. There is something for everyone.

Discover more