Archive for February 22nd, 2011|Daily archive page

Little Lucas’s stem-cell hope

In VICTORIES & SUCCESS STORIES on February 22, 2011 at 7:17 pm

LUCAS Garland has spent more time in hospital than most.

The three-year-old from Morayfield spent the first 116 days of his life in intensive care.

Born at just 25 weeks and weighing just 910g, his mother Louisa and father Nathan were told their newborn son was not expected to live.

UNCONDITIONAL: Louisa Garland has organised a fundraiser for son Lucas, 3. Picture: RUSSELL BROW

UNCONDITIONAL: Louisa Garland has organised a fundraiser for son Lucas, 3.


“We have a picture just after he was born and he was slightly larger than my hand,’’  Mrs Garland said.

After defying the odds to survive, Lucas was diagnosed with spastic quadriplegia cerebral palsy in August 2009.

Being born premature, Lucas’s developmental age is estimated at 12 months.

He has only just started to crawl, and is still unable to communicate through speech with his family.

“He has his own way of letting us know what he wants but we can see him getting frustrated sometimes when he isn’t able to communicate with us,’’  Mrs Garland said.

But despite the numerous setbacks in his short life, the Garland family has begun a journey to try and give Lucas a chance at a normal life.

The Quest for Lucas aims to raise $35,000 for the Garland family to travel to Europe for Lucas to undergo stem cell therapy.

“We would hope that the therapy could improve his balance and walking, allow him to speak clearly and reduce spasticity,’’  Mrs Garland said. “There would be no better feeling than to finally see Lucas mobile.

“It would mean a lot to us … we prefer him to be able to do things physically for himself. It will get to a point that we can no longer move him.’‘

The first event in the Quest for Lucas will be a fashion show held this Friday at the Strathpine Community Centre.

“It’s a very exciting time for us to see it starting to come together,’’  Mrs Garland said.

Stem Cells To The Rescue!

In VICTORIES & SUCCESS STORIES on February 22, 2011 at 7:04 pm

This procedure has been carried out for half a decade, safely and effectively, all over the world.  Is it any wonder the World Health Organization ranks the USA at 37countries below the top health care country in the world.  We need to catch up NOW! – dg

COLUMBUS, Ohio — For first time in the United States, one man’s heart has been saved by his own stem cells.

It’s an amazing medical breakthrough. The science behind the technique made it possible for a man to literally save his own life through his stem cells.

John Christy is the first person in the U.S. to have his own bone marrow stem cells injected into his heart to save his heart.

“All you’re doing is giving back to yourself something you already have,” said Christy

A Vietnam veteran was suffering from severe coronary artery disease.

“I was just thinking, ‘You’re getting old, you’re just tiring out and getting weary bones.’ I felt tingling. My legs had been swelling a little bit,” said Christy.

In one procedure, cardiothoracic surgeon Joseph Woo at the University of Pennsylvania School of Medicine is taking science from bench to bedside. After five years of research in animals, he is now retrieving stem cells from Christy’s bone marrow and using them to grow blood vessels around the heart.

“They form brand new micro blood vessels and deliver blood flow to the heart muscle,” said Woo.

He has started the first U.S. trial where stem cells are harvested during surgery, prepped and then re-inserted back into the patient’s own heart.

Results for Christy were seen almost immediately.

“I noticed two days after my surgery, I had much more ‘umph,'” said Christy.

It’s the same process that saved 76-year-old Christina McDonald, only it wasn’t arteries in her heart that were damaged. McDonald’s problem was in her legs.

“Sort of like a charley-horse where the muscles stiffen up,” said McDonald.

The arteries in her leg were clogged with plaque, putting her at risk for heart attack, stroke and amputation. Traditionally, doctors treat it with stents, angioplasties or bypasses. But now they’re using stem cells.

“We basically take stem cells from their hips to help grow blood vessels. It creates new, smaller blood vessels that give blood supply to the limb,” said Dr. Randall Franz, a vascular surgeon at Grant Medical Center.

It worked for McDonald. Three months later, her pain is gone.

The same goes for Christy. His only wish is that science was working faster. He lost his wife to heart disease one year ago.

“I wish that she could have had this,” said Christy.

A similar procedure is being done in Europe. The difference is Woo does his in one short surgery.

In Europe, it takes at least two procedures, weeks apart.

Woo says any patient who is a candidate for coronary bypass surgery is a good candidate for his stem-cell transplant.

Stem Cells To The Rescue! — Research Summary

CONGESTIVE HEART FAILURE: Congestive heart failure occurs when the heart’s ability to efficiently pump is impaired by a destruction or dysfunction of its muscle cells. The condition is a major health problem, affecting 4.8 million people — a figure that is rapidly growing as 400,000 new patients arise each year. A common cause of this condition is a heart attack, which strikes over a million people in the U.S. annually. Although many surgical, medical and technological methods exist to help treat patients with congestive heart failure, over half of the patients die within five years of their primary diagnosis. (SOURCE: stemcells.nih.gov)

STEM CELL POTENTIAL: Restoring the functionality of hearts damaged by congestive heart failure and heart attacks is one of the most challenging tasks doctors and surgeons face. Now, research has provided hope that adult and embryonic stem cells have the potential to replace the heart’s damaged muscle cells, as well as create blood vessels to route a steady supply of blood to them. To do this, heart muscle cells, such as the cardiomyocyte, which serve to push blood out of the ventricle, must be developed in order to improve blood flow and the transportation of oxygen and nutrients.

If extremely specific growth conditions are achieved in labs, then it is possible to leverage stem cells to develop new heart muscle cells. To test this concept, researchers forced a heart attack in lab rats and mice by attaching a ligature around a key blood vessel of their hearts in order to restrict the flow of nutrients and oxygen. Next, they tested the efficacy of a specific group of adult primitive bone marrow cells by injecting them directly into the damaged ventricle. To the researchers’ satisfaction, new cardiomyocytes, among other crucial heart muscle cells, began to form, leading the way for the development of a brand new system of coronary arteries, arterioles and capillaries. When compared to the control mice that also suffered heart attacks, but did not receive a stem cell treatment, the treated mice were found to be much more likely to survive. Research has shown high hopes that similar effects will blossom from human embryonic stem cells. Since embryonic cells can be coaxed into developing into any type of adult body cell, researchers hope to leverage them to take on the properties of cardiomyocytes and other cells. Embryonic cells aren’t the only solution, however. Under the right conditions, human hematopoietic stem cells are also able to transform into desired tissue types such as cardiac muscle. (SOURCE: stemcells.nih.gov)

A STEM CELL FIRST: Y. Joseph Woo, M.D., a cardiothoracic surgeon at the University of Pennsylvania School of Medicine performed a first-of-its-kind procedure in the United States. He took stem cells from a patient’s bone marrow (known as endothelial progenitor stem cells) and injected them into his heart during coronary artery bypass graft surgery. The patient felt relief almost immediately. A similar procedure is being done in Europe, but doctors there retrieve the cells while the patient is awake, which can be painful.

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