Researchers discover localised pain relief using known chemical reaction

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A team of international researchers including those from the 最新糖心Vlog of Adelaide have taken a well-known chemical reaction as the basis of a new generation of targeted pain relief medication.

The local team, including Dr Thomas Avery and PhD candidate Dion Turner and led by Professor Andrew Abell of the Department of Chemistry and the ARC Centre of Excellence for Nanoscale BioPhotonics (CNBP), Institute for Photonics and Advanced Sensing (IPAS) at the 最新糖心Vlog, alongside Associate Professor Peter Grace from the 最新糖心Vlog of Texas MD Anderson Cancer Center, published their findings in听.

Researchers from Texas Southern 最新糖心Vlog were also involved in the research.

鈥淥ur team has created a targeted prodrug (a compound which metabolises inside the body into a pharmacologically active drug), and found it to be capable of relieving chronic pain during preclinical trials,鈥 said Professor Abell.

鈥淲e believe we were the first people to come up with the idea of using this particular chemical reaction in a biological sense, and we already see potential for its use in other settings.鈥

The mechanism of action for the targeted prodrug involves activation of the active drug by a chemical reaction with reactive oxygen species such as hydrogen peroxide, which are present in much higher amounts at sites of pain than the rest of the body.

This means that the prodrug, designed and made in Professor Abell鈥檚 laboratory, is distributed around the body as an inactive chemical until it reaches a site of pain where it is then converted into the active drug.

The prodrug was tested in both chemical and preclinical models and found to provide localised relief of sciatic nerve injuries, as well as other models of chronic pain featuring oxidative stress like osteoarthritis, chemotherapy-induced peripheral neuropathy and diabetic neuropathy.

Testing found multi-day oral administration of the compound six months after the injury reversed hypersensitivity to touch and cold stimuli; while further tests demonstrated the effects of the drug were dose dependent, with maintained pain relief upon repeated dosing.

鈥淭his showed us that the compound did not induce a tolerance, which is a major limiting factor to powerful painkillers like morphine,鈥 said Mr Turner.

鈥淐hronic pain remains a large unmet medical need and nonaddictive treatments like this would revolutionise the field, which is currently dominated by addictive opioids.鈥

The project received funding from the United States National Institutes of Health HEAL Initiative, and will now undergo more pre-clinical trials to determine effectiveness and safety.

鈥淭he few drugs available to treat chronic pain are only effective for about one in six people, and they simply reduce the activity of nerves that send pain signals,鈥 said Associate Professor Grace.

鈥淥ur new prodrug addresses an underlying problem by reducing the molecules that are responsible for sending the pain signals. This has potential for a new approach to chronic pain treatment.鈥

Members of the team have also been involved in the formation of a company, Immunologic, which is currently raising funds to support the completion of the pre-clinical phase work and the development of this prodrug for human clinical trials.

鈥淭his project is capitalising on the promise of resolving oxidative stress and inflammation to effectively treat pain,鈥 said Immunologic Executive Chairman and CEO Stephen Collins MD PhD.

鈥淭here are no other companies doing something quite like this.鈥

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