News posted 25 June, 2018

Manchester researchers lead development of test that could help avoid antibiotic related deafness in newborn babies

  • Home
  • News
  • Research
  • Manchester researchers lead development of test that could help avoid antibiotic related deafness in newborn babies

A new genetic test that could identify the risk of, and therefore help to avoid permanent antibiotic-related hearing loss in newborn babies is being developed in Manchester, UK.

Due to an identified genetic predisposition some babies can develop irreversible hearing loss when exposed to gentamicin, an antibiotic used to treat several types of bacterial infections. Approximately 90,000 babies per year in the UK are treated with gentamicin on intensive care units. Antibiotic treatment should to be started within the first hour after admission, but currently there are no suitable tests to identify those at risk of hearing loss within this timeframe.

Rachel Corry’s son was born prematurely at Saint Mary’s Hospital, Manchester and spent seven months in neonatal intensive care.

Rachel Corry said:

“When you’re in the position we were in, time is of the essence when it comes to making decisions that will save your child’s life.

The staff at the hospital saved my son’s life so many times and we’re incredibly grateful. The decision to treat him with gentamicin had to be made quickly in order to do so. Fortunately we know now that he didn’t have the sensitivity to gentamicin that would cause hearing loss.

To have a test that could check for this sensitivity; to help find the right treatment for every baby so they could be treated quickly and easily without occurring detrimental, life-long side effects would be an immense step in reassuring parents who are already coping with so much.”

Researchers hope the new test, which would be performed at the patient’s bedside, could allow genetic results to be available within an hour. This would allow alternative antibiotics to be used, avoiding the potential life-changing adverse reaction to gentamicin.

The National Institute for Health Research (NIHR) through its Invention for Innovation (i4i) programme has awarded funding of £900,000 to a North West based consortium to carry this research forward.

The consortium will be led by Bill Newman, Professor of Translational Genomic Medicine at the University of Manchester and Consultant at Manchester University NHS Foundation Trust. The team includes genedrive plc and partners from Liverpool and Manchester Neonatal Intensive Care Units and is working closely with parents of children previously treated on intensive care units.

Professor Bill Newman said:

“We look forward to working with our colleagues in Manchester and Liverpool to assess the impact of rapid genetic testing as a method of avoiding irreversible hearing loss in babies treated with antibiotics. Successful implementation would be a first in the integration of a rapid decision making, genetic-based diagnostic in the UK NHS.”

The project will begin in June 2018, with a development phase in year one and a trial of the test implementation phase on neonatal units in Manchester and Liverpool in year two.

The project builds on work undertaken through the NIHR Manchester Biomedical Research Centre which has prioritised a programme of work on avoiding hearing loss and using a personalised approach to improving healthcare and funding from Action on Hearing Loss to initially develop the point of care test.

Dr. Ralph Holme, Executive Director of Research at Action on Hearing Loss said: “We are delighted that the NIHR will be funding the development of this diagnostic test that we helped kick start with an Action on Hearing Loss grant. We hope that the hearing of thousands of children will be saved by quickly identifying those who are particularly sensitive to aminoglycoside antibiotics that can damage the sound detecting cells in the cochlea.”

David Budd, Chief Executive Officer of genedrive plc, said: “The application of the Genedrive® test in an emergency healthcare setting is an excellent example of how a rapid, affordable, point-of-need test could impact patients’ treatment and quality of life.”