Endometrial stem cells could repair Parkinson”s related brain cell damage

May 7, 2010 By Leave a Comment

Washington, May 7 (ANI): In a study on mice, researchers found that stem cells derived from the endometrium (uterine lining) could repair brain cells damaged by Parkinson”s disease, according to Yale School of Medicine researchers.

Although these are preliminary results, the findings increase the likelihood that endometrial tissue could be harvested from women with Parkinson”s disease and used to re-grow brain areas that have been damaged by the disease, according to lead author Dr. Hugh S. Taylor.

Because of their ability to divide into new cell types, stem cells could be the key to treating many different kinds of diseases, like Parkinson”s, in which the body”s own cells are damaged or depleted.

Parkinson”s is caused by a breakdown of dopamine-producing nerve cells in the brain stem. Dopamine is a neurotransmitter that stimulates the motor neurons that in turn control muscles.

When dopamine production is reduced, the nerves fail to control movement or maintain coordination.

In their study, the researchers collected and cultured endometrial tissue from nine women, and verified that they could be transformed into dopamine-producing nerve cells like those in the brain.

“The dopamine levels in the mice increased once we transferred the endometrial stem cells into their brains. This is encouraging because women have a ready supply of stem cells that are easily obtained, can differentiate into other cell types. They may have great potential for treating multiple diseases,” said Taylor.

Highlighting the benefits of using endometrial stem cells, Taylor said the ethical concerns surrounding the use of embryonic stem cells are eliminated when using adult stem cells.

Taylor also pointed out that endometrial stem cells are one of the best sources for generating neurons because they appear to be less likely to be rejected than stem cells from other sources.

“This is just the tip of the iceberg of what we will be able to do with these cells. We believe these neurons are only the first of many cell types derived from endometrium that will be used to treat a variety of diseases,” said Taylor.

The findings are published in the Journal of Cellular and Molecular Medicine. (ANI)

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Poison man Bret Michaels ‘stabilizes’ after brain hemorrhage

April 24, 2010 By Leave a Comment

New York, April 24(ANI): Poison frontman Bret Michaels is feeling better after being admitted to a hospital following a severe headache caused by a massive subarachnoid hemorrhage, it has emerged

The rocker was taken to an undisclosed hospital, where doctors found him suffering from subarachnoid hemorrhage or bleeding at the base of his brain stem, People.com reports.

Michaels, who is also a diabetic, had undergone an emergency appendectomy on April 12.

“After several CAT scans, MRIs and an angiogram, [doctors] decided to keep Michaels in the ICU and are running several tests to determine the cause,” the New York Daily News quoted a source, as saying.

The insider added: “[It] will be touch and go for the next few days while he is under intense observation.”

Meanwhile, Michaels’ rep said: “We will have no additional information until further testing is done.”

However, Ambre Lake, the Season 2 winner of ‘Rock of Love,’ revealed that the singer’s condition has improved.

Lake said she”s spoken with people who are close to Bret who say he”s stabilized and conscious, reports TMZ.com.

Michaels is a current participant in reality show ‘Celebrity Apprentice’.

Donald Trump, the host of the show said in a statement: “I am deeply saddened to hear about Bret Michaels. My thoughts and prayers are with him and his family at this time. He”s a great competitor and champion and I hope he will be fine.”

Michaels had written on his blog over the weekend: “They told me that if I had gone on stage like I wanted to, [my appendix] likely would have ruptured and I could have died. As I write this, I”m feeling pretty bad … to tell you the truth. (ANI)

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Natural hydrogel may boost spinal cord healing

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): A jab of biomaterial gel into a spinal cord injury site may significantly improve healing, according to researchers at the Barrow Neurological Institute at St. Joseph’s Hospital and Medical Center.

Dr. Mark Preul and Dr. Alyssa Panitch have found in a study that injection of an engineered hydrogel made up mainly of hyaluronic acid (a naturally-occurring body substance) into the spinal cord injury site decreases scarring, and promotes a realignment of the spinal cord fibres around the injury site.

The hyaluronic acid, which forms a scaffold-like configuration may help to structurally stabilize the spinal cord injury site.

The researchers traced cells in the brain stem after injury, and found much higher levels in the hydrogel treated animals as compared to animals that did not receive the treatment, and approached nearly normal levels.

Treated animals had higher functional scores than their non-treated counterparts.

“Spinal cord injury is devastating to civilian and military populations – especially to the young. There has been little progress toward paradigms of regeneration and few results that show real, sustained functional recovery. We’ve been so pre-occupied with regeneration, but that is a highly complicated and difficult to define goal. This project is a synergy of neurosurgeons and bioengineers that attempts repair of the SCI lesion cavity using a tissue-engineering biomaterials approach,” says Preul.

He added that the team aimed at finding ways to structurally allow the body to better heal itself.

“In this project we did not add anything to the hyaluronic acid. It may be that adding growth factors or cells into the gel matrix may allow even better results,” he said.

Preul said that the results show “we may be on a practical path that can give hope to the many people who suffer this sort of injury.”

The work was presented at the Annual Meeting of the American Association of Neurological Surgeons in San Diego where it won the Synthes Prize for Spine Research. (ANI)

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Bird flu virus ‘linked’ to Parkinson’s, Alzheimer’s

August 13, 2009 By Leave a Comment

London, Aug 13 (ANI): Some kinds of influenza viruses may set up people infected with them to be at higher risk of developing chronic neurodegenerative diseases like Parkinson’s and Alzheimer’s later in life, according to a new study.

Researchers from St. Jude Children’s Research Hospital in Memphis examined the impact of the H5N1 avian flu virus in the brains of mice.

During the study, Richard Smeyne and colleagues sprayed a solution containing a highly pathogenic subtype of H5N1 avian flu into the noses of 225 mice.

They found that the virus infected nerves in the gut, then entered the brain stem and finally reached the brain.

In the brain, it led to chronic activation of the immune system, even long after the viral infection had been cleared.

This immune system activity later led to protein aggregation and neuron loss in the brain, and to symptoms like tremor and loss of coordination – the hallmarks of Parkinson’s and Alzheimer’s.

“Infection with influenza virus might leave the brain vulnerable to damage from future infections with new influenza strains,” New Scientist quoted Smeyne as saying.

He said that this is more likely to happen in young children or during an flu pandemic.

Smeyne suspects that all flu viruses, including the current H1N1 swine flu pandemic, could cause symptoms of encephalitis, or inflammation of the brain.

However, he insists that there is currently no proof that flu viruses other than the H5N1 he worked with can enter the central nervous system.

The study has been described in the Journal Proceedings of the National Academy of Sciences. (ANI)

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Canada surgeons stop baby heart transplant; donor breathed on own

April 9, 2009 By Leave a Comment

New York/Toronto – The parents of a two-month-old baby wanted to donate the heart of their severely brain-damaged daughter for another baby, but physicians in Toronto cancelled the transplant at the last minute.

The reason was the strength of Baby Kaylee’s heart and lungs. The baby continued to breathe without the respirator, the Toronto Star reported on Wednesday.

“We assess the situation on a moment-by-moment, day-by-day basis,” chief surgeon James Wright told reporters outside the Hospital for Sick Children. “But given that she’s breathed on her own overnight, it doesn’t appear as if she’ll be a candidate for transplantation.”

A one-month-old baby had been prepared to receive the heart on Wednesday. Physicians discovered how strong Kaylee was when they disconnected her from the respirator on Tuesday evening in preparation for the operation.

Kaylee was born with Joubert Syndrome, a malformation of the brain and brain stem that can prevent her from breathing, the Star reported. Doctors said there is no hope for recovery from the malformation, but the longer she stays alive the more her heart could be damaged and become unsuitable as a donated organ. (dpa)

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Autism may be reversible

April 2, 2009 By Leave a Comment

Washington, Apr 2 (ANI): Proposing a new theory of autism, scientists have revealed that the brains of autistic people are structurally normal but dysregulated, which implies that the disorder might be reversible.

The theory put forward by scientists at Albert Einstein College of Medicine of Yeshiva University is centred on the principle that autism is a developmental disorder caused by impaired regulation of the locus coeruleus-a bundle of neurons in the brain stem that processes sensory signals from all areas of the body.

The new theory is the result of decades of anecdotal observations that some autistic children seem to improve when they have a fever, only to regress when the fever recedes.

A previous study has already shown that autistic children experience behaviour changes during fever.

“On a positive note, we are talking about a brain region that is not irrevocably altered. It gives us hope that, with novel therapies, we will eventually be able to help people with autism,” said theory co-author Dr. Mark F. Mehler, chairman of neurology and director of the Institute for Brain Disorders and Neural Regeneration at Einstein.

The researchers reckon that scientific evidence clearly indicates that the locus coeruleus-noradrenergic (LC-NA) has a major role to play in autism.

“The LC-NA system is the only brain system involved both in producing fever and controlling behavior,” said co-author Dominick P. Purpura.

“What is unique about the locus coeruleus is that it activates almost all higher-order brain centers that are involved in complex cognitive tasks,” said Mehler.

The researchers hypothesized that in autism, the LC-NA system is dysregulated by the interplay of environment, genetic, and epigenetic factors (chemical substances both within as well as outside the genome that regulate the expression of genes).

In their opinion, stress plays a central role in dysregulation of the LC-NA system, especially in the latter stages of prenatal development when the foetal brain is particularly vulnerable.

And for evidence they pointed to a 2008 study, which found that maternal exposure to severe storms at mid-gestation resulted in the highest prevalence of autism.

According to the researchers, in autistic children, fever stimulates the LC-NA system, temporarily restoring its normal regulatory function.

“This could not happen if autism was caused by a lesion or some structural abnormality of the brain. This gives us hope that we will eventually be able to do something for people with autism,” said Purpura.

Instead of advocating fever therapy (fever induced by artificial means), the scientists claimed that the future of autism treatment lies in drugs that selectively target certain types of noradrenergic brain receptors or, more likely, in epigenetic therapies targeting genes of the LC-NA system.

“If the locus coeruleus is impaired in autism, it is probably because tens or hundreds, maybe even thousands, of genes are dysregulated in subtle and complex ways,” said Mehler.

He added: “The only way you can reverse this process is with epigenetic therapies, which, we are beginning to learn, have the ability to coordinate very large integrated gene networks.”

The study has been published in Brain Research Reviews.(ANI)

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