A world‐first safety trial is underway examining amniotic stem cells as therapy for acute stroke. The study is a partnership between Hudson Institute of Medical Research, Monash Health and La Trobe University.
When 67‐year‐old Kevin Baird arrived at Monash Medical Centre in February after having a stroke,
he was no longer able to receive standard stroke treatments. Unfortunately for Kevin, the stroke had
left him with significant speech problems and upper‐limb weakness.
“Before the treatment they asked me if I could raise my hands,” Mr Baird said. “I thought ‘Of course
I can raise my hands, just watch.’ But then when I actually tried to, I couldn’t. I was only speaking in a mumble as well.”
“About a day after I received the treatment as part of the trial, and I started to notice progress,” Mr
Baird said. “And I’ve come on in leaps and bounds since then. I believe it helped tremendously.”
Associate Professor Rebecca Lim from Hudson Institute of Medical Research and Professor Chris
Sobey from La Trobe University had been working with A/Prof Ma and Prof Thanh Phan, Head of
Stroke at Monash Health, to explore amniotic stem cells as a possible treatment for acute ischemic stroke patients.
A/Prof Lim, Head of Amnion Cell Research at Hudson, said that amniotic stem cell therapies have, theoretically, a lot of advantages.
“These cells carry no immunological rejection risk,” A/Prof Lim said. “They don’t have to be matched and cultured and surgically injected as some other modes of stem cell therapy require.”
Director of Neurology at Monash Health, Associate Professor Henry Ma, said that Mr Baird’s initial presentation was unfortunately all‐too‐common.
“Stroke is the second‐leading cause of death globally, and leaves a huge number of people with significant disability,” Prof Ma said.
“We have fantastic treatments for stroke such as endovascular clot retrieval and also clot‐busting medications, but we know that for too many patients even these treatments are not enough. A significant number of patients may not have access to these therapies or they’re not possible due to circumstances.”
Preliminary research that took place prior to this trial suggested that the stem cells, delivered intravenously, travel through the body but congregate where they’re actually needed – around damaged brain tissue.
For Prof Sobey, the Co‐Director of La Trobe’s Research Centre for Cardiovascular Biology and Disease, this versatility made them ideal for acute stroke situations, where time is critical.
“After a stroke the key is working to save neurons before they die. ‘Time is brain’ is the catchcry, so by rapidly treating a stroke and saving brain tissue, we reduce lasting damage which can cause disability.”
While the purpose of the trial is to establish the treatment’s safety, Mr Baird has had a remarkable recovery after the treatment. After experiencing significant speech problems and arm weakness, Mr Baird now has some very mild facial droop, and MRIs show there is no further damage to his brain tissue beyond the initial stroke.
The current trial is not examining the efficacy of the treatment.
“We need to be very cautious and establish safety, first‐and‐foremost. That is the current trial’s
focus,” said A/Prof Lim. “However we are extremely encouraged by the fact that Mr Baird’s brain
tissue has shown such good outcomes.”
Prof Sobey agreed, saying that Mr Baird’s case meant their trial was attracting attention from major
stroke centres around the world.
“It is a long process, but we are hopeful that this collaboration can contribute to the next great
breakthrough in global stroke care, and prevent ongoing disability for patients.”
“I commend these researchers for searching out new ways to protect us against the too often
devastating impact of stroke and look forward to seeing where this promising research
leads,” Victorian Minister for Health Jenny Mikakos said.
“Victoria is a world leader in ground‐breaking health and medical research and is home to some of
the world’s best clinicians, scientists and researchers. We’re leading the way in breakthrough
discoveries to fast‐track new treatments and save the lives of more people at home and around the
Hudson Institute communications
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