Sunday, April 08, 2007

Search for the brain's first defense - Los Angeles Times RESEARCH

Search for the brain's first defense

The concept of combating degenerative disease and head trauma with neuroprotection is not new, yet it may now be making headway.
By Melissa Healy, Times Staff Writer
April 9, 2007

The human brain is a powerful and resilient organ. But it has many enemies and a dramatic vulnerability.

When under attack — from ischemic stroke, head trauma or many degenerative diseases — a small cluster of affected brain cells basically commit suicide and, in so doing, release toxins that kill off their neighbors in droves. Neurons tumble like dominoes to their death in a process that can take hours (in a stroke or a head trauma) or years (in Alzheimer's or Parkinson's disease).

The physical symptoms of that cell death may vary from disease to disease, but the result, in human and social terms is the same: disability that can make the simplest of human tasks difficult or impossible.

The medical profession has struggled to combat each of the brain's enemies separately and limit the damage and disability they wreak. But prevention is hard, and cures are even more elusive. So it has been a war with few successes.

But what if there were a simple way to fortify human neurons against the brain's many disparate enemies? What if some safe, readily available compound, taken before or just after a stroke or injury or even long before a neurodegenerative disease takes hold — could protect the brain against many kinds of insults and injuries?

This idea, as sweeping as it is straightforward, is called neuroprotection. Although the quest for it has a decades-long history of disappointment, some glimmers of hope are on the horizon.

"It's a little bit like the search for the Holy Grail," says Dr. Walter Koroshetz, deputy director of the National Institute of Neurological Disease and Stroke. "But I don't think there's anybody who doesn't believe eventually we're going to be able to do this…. We need a success that we can build on."

To that end, the federal government last month launched a nationwide trial to investigate whether creatine — a dietary supplement safely taken by many body builders at lower levels than those now being tested — can help slow the die-off of neurons when given in early-stage Parkinson's disease. A second promising neuroprotectant, the dietary supplement coenzyme Q10, is set to enter clinical trials in the next year for early-stage Parkinson's disease, as well.

This summer, the National Institute of Neurological Diseases and Stroke is expected to approve and fund a national clinical trial designed to see if high doses of progesterone — the hormone that surges during pregnancy but is present in all human brains — can help disrupt the rapid death of brain cells that frequently follows a trauma to the head. In Los Angeles, UCLA scientists are three years into a study of whether the administration of magnesium sulfate — long used to stave off early labor and delivery — can break the chain of destruction that leaves many stroke patients disabled.

And a common antibiotic, minocycline, is in human testing as a possible way to slow the progress of Lou Gehrig's disease and Huntington's disease, a degenerative genetic disorder.

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Need for neuroprotectors

The science of neuroprotection is driven by a deepening understanding of how injury and disease do their damage to the human brain — and by a growing sense of urgency.

In the wars in Afghanistan and Iraq, traumatic brain injury has become widespread, a problem for which the military's medical establishment has been poorly prepared. Almost 1,900 U.S. soldiers have been treated for traumatic brain injury, and some Pentagon estimates have suggested that as many as 28% of the 1.4 million troops that have served in Iraq and Afghanistan may have sustained at least mild brain injury from the concussive effects of bomb blast.

As the United States enters its fifth year of war and the U.S. military ponders a world in which its troops will remain vulnerable to improvised explosive devices, the Pentagon has become deeply interested in the science of neuroprotection. In July 2006, the armed services' medical leaders huddled at a military installation outside Washington, D.C., and established a goal to "develop better neuroprotectants for acute head injuries ranging from severe penetrating injuries to mild traumatic brain injury."

Last month, the Pentagon announced it is spending $14 million to conduct more research on blast injuries and to help medics in the field better diagnose mild brain injury.

Meanwhile, 78 million baby boomers are reaching the peak years for stroke and degenerative brain diseases. Already, in the United States each year, 700,000 Americans suffer a stroke, and as many as 500,000 are diagnosed with a neurodegenerative disease (1.4 million suffer a traumatic brain injury). Such numbers have helped propel the search for an agent that could limit or hold off disability across a range of illnesses.

All of the substances under investigation have, in some form, long been in safe use in the medical arsenal. And all have shown promise in protecting the brain against other types of injury and disease.

Progesterone, for instance, may fortify the brain cells against degeneration caused by multiple sclerosis and has shown early promise as a protectant in stroke.

Animal studies suggest that creatine might be a neuroprotectant in stroke, traumatic brain injury and degenerative brain diseases such as Huntington's and Lou Gehrig's disease. And minocycline is seen as a drug that could slow the progress of Parkinson's disease and lessen the damage of stroke.

Magnesium sulfate failed in a recent clinical trial testing whether it could lessen disability after traumatic head injury. But in a trial published last year in the Journal of Thoracic and Cardiovascular Surgery, the chemical — when administered during cardiopulmonary bypass surgery — was shown to lessen the short-term memory loss and motor-control problems that patients frequently experience after such a cardiac procedure.

Each of these compounds intervenes differently to disrupt the chain of events that results in the death of brain cells and subsequent disability. Some, such as creatine, appear to pump up the metabolism of neurons and help them withstand the release of toxins from neighboring cells in their death throes.

Magnesium sulfate is thought to block the pathways by which neurotoxins infiltrate a cell and destroy it. Progesterone seems to do both and calms the destructive spasm of inflammation that is the brain's reaction to injury, stroke and many diseases.

"The biology of the neuroprotection has just exploded. It's just amazing," Koroshetz says. "There are so many different pathways people have identified that could potentially save brain cells from dying, it really piques your interest."

Researchers are wary of hoping for too much. They have been here before and come up empty-handed.

"The graveyard of neuroprotectants is absolutely full. It's depressing," says Dr. David Wright, a professor of medicine at Emory University Medical School in Atlanta who has been a leader in testing progesterone for head injury.

But his hopes have been buoyed by early studies suggesting that quickly elevating levels of progesterone, a steroid present in the brains of both men and women, may help save many with traumatic head injury and improve their outcomes.

In a three-year trial involving 100 such patients brought to Emory's Grady Memorial Hospital, 80 received a high dose of progesterone over 72 hours and 20 did not, receiving standard care only.

The study suggested that those receiving a rapid infusion of progesterone were 50% less likely to die. And among those who got the progesterone, there was less disability at the one-month mark than would normally be expected, considering the severity of their head injury.

"We think it's just shifting the whole curve," making all but the most severely injured patients better off, Wright says. "It way outdid what we were expecting."

Marcus Baskett of Commerce, Ga., was one of those patients. A passenger in a head-on automobile collision just three weeks shy of his high school graduation, Baskett was evacuated by helicopter to Emory and received the progesterone infusion upon his arrival. In addition to broken bones, early tests of his brain function suggested massive and disabling head injury, and he spent almost three weeks in a coma.

But seven weeks after his April 2004 injury, Baskett was released from the hospital with lingering physical injuries but little evidence of the severe trauma to his brain. Three years later, a 21-year-old Baskett keeps up a rapid-fire conversation and lives close to his parents' home but independently, keeping track of appointments and birthdays on a cellphone scheduler.

"I wouldn't have believed that a woman's hormone drug would help my body and brain in a situation like that," Baskett says. "I'm back almost 100%, and I don't think I'd be here if it weren't for that drug."

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Piecing together therapies

Researchers caution against expecting what Koroshetz calls "the magic bullet" in a single study. It may be there, experts say, but it might be better to discover a compound's neuroprotective properties piecemeal, by looking at its effect on one kind of brain disease or injury at a time, or one group of patients at a time.

Then, with success, the possibilities of a neuroprotectant can be extended to other diseases and other patients.

As that research progresses, researchers hope that cocktails of neuroprotectant drugs may work on different pathways, or on different stages of disease or injury, to slow, stop or disrupt the damage they wreak on the brain.

"There are so many things going wrong" when the brain is under attack, says Dr. Robert M. Friedlander of Harvard University's Brigham and Women's Hospital, who has pioneered much of the work on creatine as a neuroprotectant. "It's probably like plugging many holes in a cup: The more holes you plug, the better you do."

And, doctors say, finding a neuroprotectant or a cocktail of neuroprotectants that work for many kinds of brain injury will take a bit of luck as well.

"I'm not trying to be pessimistic, just realistic," says Dr. Marc Mayberg, director of the Swedish Neuroscience Institute at the Swedish Medical Center in Seattle. "I think maybe there'll be a lucky break, the discovery of a very safe, easily administered neuroprotectant that will work in one condition, and people will start using it in other conditions and find it works as well."

http://www.latimes.com/features/health/la-he-neuro9apr09,0,3095445,full.story?coll=la-home-health

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