Royal Prince Alfred Hospital Makes Breakthrough In Clinical Trial To Stop Bleeding

Haemophilia B is a genetic illness, where the blood does not clot properly, can lead to bleeding in the joints and muscles.

Ten adults with haemophilia B were injected with a modified gene, designed to produce a substance which clots the blood, called Factor IX.

Lead researcher Professor John Rasko, from the Royal Prince Alfred Hospital, found after following the patients for a year, nine out of the 10 did not have any bleeding.

“This is a major milestone in the quest to cure the bleeding disorder,” he said.

Mr Lee, a 33-year-old from NSW, said being in the trial was “life-changing”.

“I spent my childhood wrapped in cotton wool, unable to play football or do any of the things my mates could,” he said.

Professor Rasko said they were very excited about the results, which have been published in the New England Journal of Medicine.

“Those people in the trial have previously had to live with the risks of spontaneous bleeding every day,” he said.

The trial was in patients with haemophilia B, which affects about 500 men in Australia.

Researchers will trial the approach in haemophilia A — the most common form of the illness — which affects more than 2,300 Australians.

Professor Rasko believed the results would mean, “the beginning of the end of this life-long bleeding disorder”.

“We now know how to beat the immune response to achieve what might be a permanent cure,” he said.

Mr Lee also has two daughters who are carriers for haemophilia B.

“I know now if they have affected children, it will be one injection and they can live normal lives,” he said.

Porfessor John Rasko looks at baby Violet sitting on the knee of Mark Lee as he lays in a hospital bed next to partner Shannon.

Approach safe and effective: study

Researchers found the gene therapy technique was safe, with no serious side-effects.

Two patients had an increase in liver enzyme levels, which was controlled with medication.

Haemophilia is an inherited condition and men with haemophilia pass the gene onto their daughters.

Women with the gene can pass the gene on to their sons and daughters.

Haemophilia Foundation Australia vice-president Daniel Credazzi has a son with the illness.

“The potential of a cure with safe and effective gene therapy is very exciting for people living with this chronic condition,” he said.

Gene therapy has been tried before for people with haemophilia, with limited success.

An earlier trial on seven patients in 2006 tested gene therapy as a treatment for the bleeding disorder.

The treatment reduced bleeding for 10 weeks in the patients.

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