Press Release – University of Auckland
An intervention to counter the neurotoxic effects of a chemotherapy treatment for cancer has been withdrawn after research showed it was ineffective. This resulted in big savings in the cost of the intervention and in treatment time by nurses, at …Research results in big savings for cancer treatment
University of Auckland
11th November 2013
Research results in big savings for cancer treatment
An intervention to counter the neurotoxic effects of a chemotherapy treatment for cancer has been withdrawn after research showed it was ineffective.
This resulted in big savings in the cost of the intervention and in treatment time by nurses, at Auckland City Hospital’s medical oncology service, one of the largest cancer treatment centres in Australasia.
Medical oncologist and doctoral student clinician Catherine Han carried out the research at the University of Auckland and Auckland City Hospital, as part of her work investigating the origins of neurotoxicity from oxaliplatin chemotherapy treatment.
Her research is funded for three years by a Health Research Council Clinical Research Training fellowship for $250,000 awarded in 2012.
Research into the effectiveness of the calcium and magnesium infusions given to cancer patients to counter the neurotoxic effects of chemotherapy treatment with oxaliplatin showed it was not working.
“Catherine’s research showed clearly that the magnesium and calcium infusion does not work, and has led to a change in clinical practice in our cancer treatment centre at Auckland Hospital,” says her research supervisor, Associate Professor Mark McKeage who is a clinical pharmacologist and cancer specialist, and a co-director of the University-based Auckland Cancer Society Research Centre.
“The infusion has been used as a treatment protocol in many hospitals worldwide, but with variable results in clinical studies,” he says. “It was implemented into clinical practice some time ago as a trial therapy to treat the major problem of neurotoxicity from oxaliplatin treatment, on the basis of the evidence available at the time.”
It was accepted that the evidence was incomplete and further clinical trials were mandated. This study was one of those trials and on the basis of the new evidence, the calcium/magnesium intervention was withdrawn.
At the same time as Catherine’s work was published in the journal BMC Cancer, the Mayo Clinic in the United States also reported a study showing the intervention does not work. Both sets of results showed that the treatment had no neuro-protective effects for the oxaliplatin treatment.
“This research not only makes a difference clinically with the change in practice, but also saves precious healthcare dollars,” says Dr McKeage.
Auckland’s medical oncology service did about 1200 oxaliplatin infusions in the past year, some being multiple cycles on the same patient. This is double the number done five years ago and increasing each year, he says. On that basis, ending the calcium/magnesium treatments will save the hospital more than $17,000 each year as well as about 800 hours of nursing time.
The neurotoxic effects of oxaliplatin chemotherapy treatment for patients can include acute effects such as excruciating pins and needles, muscle spasms, throat tightness and blurred vision. For some patients these neuro-symptoms can persist and many patients develop chronic neurotoxicity resulting in numbness in their fingers and toes for months or years after discontinuation of oxaliplatin chemotherapy.
The next phase of Catherine’s research into the ‘pharmacological determinants of oxaliplatin in cancer patients’ is to investigate the role of a particular plasma membrane transporter protein (OCTN1) in the neurotoxicity associated with oxaliplatin and how to block its uptake into nerve cells.
The OCTN1 is responsible for the accumulation of high concentrations of oxaliplatin in nerve cells and the aim is to try and block the process, says Catherine Han.
“A large number of patients are exposed to oxaliplatin during treatment and we have collected clinical neurotoxic information on these patients as part of a clinical study, and whether treatment was stopped or reduced because of the toxicity,” she says. “We can look at the neurotoxic outcomes of the treatment and examine collected blood samples from patients, to understand how differences in their genetic makeup correlate with their risk of developing neurotoxicity associated with oxaliplatin chemotherapy. ”
She says there are some people who are very sensitive to oxaliplatin treatment and others who get the same amount of the drug and experience no or little neurotoxic symptoms.
“There must be something in the way that the oxaliplatin is received that results in the different reactions and symptoms,” says Catherine. “We may be able to find that difference in low and high risk patients and better understand and target treatments in future.”
This year, Catherine was the recipient of the Fred Fastier Trust student prize that was presented by the NZ branch of the Australasian Society of Clinical and Experimental Pharmacologists and Toxicologists, during the research week conference in Queenstown in August.
Other funding for her research was provided by the Auckland Medical Research Foundation with ongoing support from the Cancer Society NZ.