Scientists have developed a novel method which targets antibiotic resistant bacteria and protects patients from the toxic parts of an antibiotic drug.
Scientists have developed a novel method which targets antibiotic resistant bacteria and protects patients from the toxic parts of an antibiotic drug. Dr Elaine Ferguson from Cardiff University's School of Dentistry has utilised a new technique which attaches tiny nano-sized biodegradable polymers to the antibiotic drug - colistin.
Use of the drug colistin to fight infection has been limited as it is known to be toxic to the kidneys and nerves despite the fact that it has been found to be effective against new multi-drug resistant bacteria, like NDM-1.
Cardiff University scientists believe the new technique will help under-used antibiotic drugs like colistin to be used to fight against the spread of life-threatening bacterial infections.
"The technology we've developed came as a direct response to an urgent medical need for better antibiotics to safely treat patients with life threatening infections. Very few new antimicrobial drugs have emerged despite intensive research, with only two new classes of antibiotics developed in the last 30 years," according to Dr Ferguson who worked alongside Cardiff University's Professor David Thomas and Professor Timothy Walsh to develop the technique.
"Our new approach allows existing effective therapies to be improved to help patients with severe infections who may otherwise suffer significant side effects after treatment.
"The polymer shields the drug molecule making it less toxic to the body while, at sites of infection, there is an enzyme present which removes the polymer- specifically activating the drug where it is needed" she added.
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The seedcorn funding for the research from SARTRE, through the Medical Research Council's Developmental Pathway Funding Scheme, helped the project progress quickly to the stage where additional grant funding has been secured.
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Professor David Thomas, who worked alongside Dr Ferguson on developing the new technique, added: "The interdisciplinary nature of our work in drug delivery allows the possibility of developing truly innovative approaches to the management of human disease".
Source-Eurekalert