A Better Pill to Swallow

http://www.bethesdamagazine.com/Bethesda-Magazine/November-December-2013/NSI-189/

A Better Pill to Swallow

A writer’s search for an alternative to antidepressants leads him to an unassuming office in Rockville and a potential miracle drug dubbed NSI-189

By David Frey

What if everything we thought we knew about treating depression was wrong?

What if the phalanx of antidepressants we’ve developed over the past four decades with optimistic names full of X’s and Z’s—Prozac, Zoloft, Paxil—was missing the mark?

What if there was a new treatment that could change our lives? That could enable those of us suffering from depression to stop swallowing that bitter pill every morning? That could undo the ravages not only of depression but of dementia, Alzheimer’s disease and the downhill slide of ordinary aging?

What if there was a drug that all of us might take someday?

I have personal reasons for asking. Seven years ago I shut down. Amid a crumbling marriage, I became emotionally paralyzed, unable to work, to write, to move. Emails and voice mails piled up unanswered. Slicing an avocado could leave me inexplicably sobbing. Then one day I stopped crying altogether. I went numb. Like so many other depression sufferers, I wondered if death might be easier. The thought scared me.

After five months of seeing a therapist with mixed results, I went to a doctor and walked away with a prescription for 10 milligrams of Lexapro, a cousin to Prozac. I had resisted turning to medication, but it helped.

Twenty milligrams helped even more. It didn’t make me feel good, but it made me feel less bad. It was a treatment, not a cure.

Yet a cure may be emerging at an unassuming office building in Rockville just 5 miles from my home.

Researchers at Neuralstem Inc. hope to eliminate depression by growing new neurons in the hippocampus, a part of the brain associated with memory and mood, a place deep inside the hemispheres where how we think and how we feel are neurologically entwined. Even the name of the process—neurogenesis—bridges science and the divine.

The company is in the midst of a three-round trial of a drug known as NSI-189. In development since 2000, the compound has shown success in mice, increasing the number of neurons in the hippocampus by as much as 20 percent. Now Neuralstem is conducting the first tests on humans.

“It’s quite revolutionary,” says Paul Currie, a neuroscientist at Reed College in Portland, Ore., who has followed recent scientific strides in understanding neurogenesis, the process by which neurons are generated.

Currie cautions, though, that researchers might be moving too fast, and that human trials could be premature. “It’s pretty exciting, but with excitement comes sometimes irresponsibility and overexaggeration, because we’re always looking for that magic bullet,” he says.

Until the ’60s, scientists believed neurogenesis was impossible. The brain was caged inside the skull with no room to grow. Then they discovered that new neurons were being generated inside the hippocampus, possibly to help us process new memories. It was a bright spot in an otherwise grim view of the brain. Cut your finger and it heals. Break your leg and it mends. Even blood refreshes itself. Except for the hippocampus and maybe a few other isolated areas, the brain has a set number of neurons, and they’re dying every day.

“That’s why brain damage and brain diseases are so horrible,” says Richard Garr, the 60-year-old Potomac resident who is Neuralstem’s president and CEO.

Neuralstem’s gambit is that it can treat not just the symptoms of depression but the very cause by developing a drug that intentionally grows new neurons in the hippocampus. Located deep within the temporal lobe of each hemisphere, the hippocampus takes its name from the scientific designation for the sea horse, which it resembles. Like Alzheimer’s patients, depression sufferers show damage there. A growing body of evidence suggests that antidepressants such as Prozac help repair the damage by creating new brain cells. They do it slowly, though; it’s not what they were designed to do. Neuralstem hopes to speed up the process with a specifically targeted drug.

“People use words like transformative a lot when they shouldn’t,” Garr says. “But if we’re right and it does work, this is completely transformative.”

At a world stem cell conference in London this past May, users of the biotech web platform Total BioPharma placed Garr at No. 15 among the 50 most influential people working on stem cells today.

With his short silver hair and narrow face, Garr looks disconcertingly like Roger Sterling, the disaffected ad executive on AMC’s Mad Men. He sits at a tidy desk decorated with models of dissected brains and spinal columns. Tiny, rectangular glasses nearly disappear on his face, and he speaks softly, interrupting his own thoughts by asking, “Right?” to make sure a listener follows along. He is the business side of Neuralstem. Karl Johe, the company’s chief scientific officer, heads up the research end.

A real estate attorney by training, Garr has come to know a lot about how the brain works. Twenty-two years ago, his only son, Matthew, developed a brain tumor. Matthew was just 4 years old, and Garr found himself navigating the complex geography of the human brain and the complications that can result both from a tumor and from the imperfect process of removing it.

Matthew survived, thrived even, but the experience affected him. Now 26, he has trouble remembering, and although he has a driver’s license, he doesn’t feel comfortable behind the wheel. A few years ago he nearly died when fluids that doctors left behind from the removed tumor created complications. They weren’t worried about removing all the fluids, Garr says, because “he wasn’t expected to live this long.”

After a difficult recovery from surgery, Matthew started kindergarten a year late at the McLean School in Potomac. There he became best friends with a new classmate named Arthur Johe. Meanwhile, Garr became friends with Arthur’s father, Karl, a scientist at the National Institutes of Health in Bethesda.

Karl Johe was pursuing a question tangentially related to Garr’s recent struggles with Matthew’s tumor: He wanted to know how something as simple as a fertilized egg can create something as complicated as the brain.

“I was trying to capture a way to study that moment of switch from being simple to becoming complex,” Johe says. “If we could understand that process, or glimpse into it, then maybe we could learn about how the brain functions.”

Johe’s question led him to discover neural stem cells. It also unlocked what he hoped could become a treatment for an array of brain disorders. Unlike fetal stem cells, which hold medical promise because scientists can transform them into any cell in the body, neural stem cells only become brain or spinal cord cells. That specialization is their strength, but because they’re also derived from fetuses, they are no less controversial.

“At the time, there was a ban on fetal tissue,” says Johe, now 52 and living in Miami. “At NIH, being the federal government, there was an imminent danger that I could not continue the research.”

Johe was also frustrated by academia and the various agendas of organizations offering research grants. If he wanted to use neural stem cells to find cures, he decided, he needed to form a company.

“Yes, there is a capitalistic motivation,” Johe says, “but the efficiency of achieving the goal is much higher in the private sector. In the private sector, the goal is crystal clear. In an academic setting, that’s not so clear.”

In 1997, the two men partnered to create Neuralstem in a Montgomery County business incubator. Cutting-edge research at NIH and Johns Hopkins University had made the county one of the nation’s top biotech centers. Neuralstem remains there, sharing the building on Great Seneca Highway with GeneImmune, Bethesda Pharma and similar companies.

“Like all parents who are faced with a child’s serious illness, you think about things like research and wonder how you can help, even if it will not help your child,” Garr says. “I felt that this was an opportunity to get involved in a very real way with a technology that could someday be very important for lots of people.”

Sixteen years later, Neuralstem is a “near-virtual” company, with just 16 employees split between Rockville and a San Diego lab. Thirteen years ago, the company went public with the ambitious stock ticker symbol “CUR.” It’s also leading human trials to treat stroke patients in China, with more planned in countries as far-flung as Mexico and Malaysia.

“We have patients all over the world, and we envision what we call a ‘near simultaneous’ worldwide rollout,” Garr says. The company has secured patents on its compounds worldwide. In many countries, Garr says, trials move faster and cost less than in the United States without sacrificing world-class science.

“How can you not be doing work all over the world?” he asks.

Before its work with the brain, Neuralstem established itself as a leader in repairing spinal column damage. It’s best known for its work in treating Lou Gehrig’s disease. Formally called amyotrophic lateral sclerosis, or ALS, the disease weakens muscle function in the lungs until it suffocates its sufferers.  Neuralstem set out to attack ALS by injecting spinal cord stem cells into the spine.

About half of the company’s money and time is still devoted to the creation of its ALS treatment. In 2011, Ted Harada, a former FedEx manager from Atlanta, became a minor celebrity when he made the rounds at CNN and CBS, proclaiming that his disease had receded after he took Neuralstem treatment NSI-566 in Phase I trials.

All the ingredient, power, dose are the same and the side effects also are the same of the both. levitra samples People http://pamelaannschoolofdance.com/competition-team-information/ generic viagra want to buy drugs online to save their time and efforts. If you suffer from penile dysfunction or any of the above mentioned conditions, it is time to choose the measurements of levitra generika 40mg . Here is free cialis without prescription a quote from the official product information for many medications containing finasteride mentioning the possible risk of breast cancer. This past May, the company announced that its drug had virtually halted ALS over the course of two years in six test subjects, including Harada, who has stopped using a walking cane. Last year, Harada was strong enough to take part in a 2½-mile ALS walkathon, a remarkable victory against a disease that can kill in two years. The FDA has approved Phase II trials for the drug at centers in Atlanta and Ann Arbor, Mich., where patients will be given as many as 40 injections of up to 400,000 cells each directly into the spinal column.

The company’s work with depression was serendipitous. Working with neural stem cells meant growing lots of tissue to test various drugs. That process, the company discovered, had other uses.

In the late ’90s, the Clinton administration sought to create a “super soldier” who could stay awake and alert for a week at a time. Neuralstem won a contract to work on the “warfighter of the future” project, Garr says.

The company wasn’t focused on creating a drug to keep soldiers awake, however; rather, it was interested in dealing with the consequences of long-term wakefulness. Without sleep, we become irritable, forgetful, irrational—all outward signs of the cell damage that can occur in the sleep-deprived hippocampus.

The Defense Advanced Research Projects Agency (DARPA) eventually canceled the project, Garr says, but Neuralstem moved forward, and NSI-189 was born. If the drug could help sleep-deprived soldiers, as its tests on mice had suggested, then maybe it could help others experiencing cell death in the hippocampus. Maybe it could treat depression, Alzheimer’s, even aging. As we get older, we all lose hippocampal cells. Could this drug make us super seniors?

“Yes,” Johe says. “There’s no question that degeneration of the hippocampus and other parts of the brain is part of the aging process. As we now take many different food supplements to counter or slow that aging process, I see this as a potential ‘vitamin for the brain’ to slow down or counter that aging process in our mental capacity.”

Currie, the Reed College neuroscientist, remains skeptical, however. “The human brain has taken how many millions of years to evolve? I don’t think it’s as simple as, ‘Well, we can improve it,’ ” he says.

Some 27 million Americans like me take antidepressants, according to researchers at Columbia University and the New York State Psychiatric Institute, which published their findings in the Archives of General Psychiatry in 2009. That’s one in 10 people lining up at the movies, driving the Beltway, sampling cheese at the farmers market. More women than men, more whites than African-Americans. And the number is growing.

Is it because depression is being diagnosed more often? Because antidepressants work better than before? Because pharmaceutical companies pressure doctors to prescribe them? Are we more stressed out? More isolated? Are we looking for a quick fix?

Nobody knows for sure, Currie says, but the answer is probably yes to all those questions.

Equally perplexing is why the United States, one of the world’s wealthiest countries, has one of the world’s highest rates of depression. In a 2011 World Health Organization study of 18 countries, only France, land of joie de vivre, had a worse case of the blues, with 21 percent of the population reportedly suffering from depression, compared with 19.2 percent in the United States. South Africa’s rate was half that of the U.S. In Montgomery County, according to a 2009 Centers for Disease Control survey, 16.8 percent of residents reportedly had been diagnosed with a depressive disorder.

Is depression a disease of the privileged? “We just don’t know,” Currie says.

My own depression is relatively mild. I managed to smile and even laugh, so friends and family members didn’t know there was a problem until I told them.

But there definitely was a problem.

A few months into the onset of my depression, I was walking with my dog into a snow-covered field at twilight. The sun had set, and the snow reflected the gray-blue light. Everything around me was a pallid veil. This is what depression looks like, I thought. It felt like I had crawled under a 50-pound blanket and I couldn’t lift it off.

For a while, talk therapy helped, but it didn’t push back the darkness. Mindfulness meditation made it easier to live with, but didn’t lessen it. Medication, however, lifted the veil. I could divorce, remarry, move, start over, get a second chance. Medication was life-changing for me.

Even leading researchers don’t entirely know why the drugs work, however. We do know that the brain fires impulses from neuron to neuron by way of a number of chemical messengers called neurotransmitters. One of these is a chemical called serotonin. One neuron fires a shot of serotonin across the synapse, the chasm between neurons. The next neuron takes up the message, and the sending neuron recycles the serotonin to do it all again. Prozac and similar drugs called selective serotonin reuptake inhibitors (SSRIs) block that reuptake process, keeping more serotonin at play between the neurons, and apparently boosting the mood-elevating signal.

But what does serotonin do? Unlike other brain chemicals—oxytocin, for instance, which we release during sex; or endorphins, which convert pain into pleasure, like a runner’s high—serotonin doesn’t seem to be a happy-making chemical. So why do drugs that keep more serotonin in our brains seem to make us happier?

Recent studies of neurogenesis suggest it may not be antidepressants’ effect on serotonin that makes the difference. Studies on mice have shown that depression symptoms coincide with hippocampal damage.

Antidepressants seem to heal that damage. A 2010 Columbia University study found that blocking the healing process prolonged depression, suggesting that without neurogenesis, antidepressants don’t work.

That’s where Neuralstem comes in with its potential wonder drug aimed specifically at rebuilding neurons in the hippocampus.

Like Currie, Lois Winsky, a pharmacology research chief at the National Institute of Mental Health in Bethesda, is reserving judgment of the drug until test results are available and Neuralstem reveals how its stew of organic chemicals works. But she notes that creating new cells isn’t necessarily enough. Those cells have to survive and integrate themselves into circuits that affect mood. It’s not clear if neurogenic drugs can make that happen, she says.

And while dead neurons seem linked to depression, it’s not clear how or why. Losing neurons doesn’t seem to directly cause depression, and more neurons don’t necessarily translate into more happiness. And that’s just in mice, Winsky says. We still don’t know what happens with people.

Even so, other companies are moving in a similar direction, though Neuralstem is the closest to bringing a neurogenic drug to market. Dr. Andrew Pieper, a psychiatrist at the University of Iowa, is also working on a drug to spur neurogenesis. His compound has only been tested on mice, with promising results, but he’s searching for a partner to develop it further. He’s interested in seeing what happens at Neuralstem.

“I really hope their compound works,” he says. “It would fill an important, unmet need for patients. Although some doctors and scientists don’t believe that neurogenesis can be critically involved in depression, we simply won’t know the answer until the hypothesis is tested. I’m eager to see the outcome of their clinical trials.”

Pieper says his compound works by keeping existing cells from dying, allowing more newborn neurons to become integrated into the hippocampus. It also seems to protect cells in other parts of the brain and in the spinal column, possibly offering treatments for Parkinson’s disease and ALS, as well as depression.

“The fact is, the current treatment options for patients with depression simply aren’t good enough,” Pieper says. “Many people are resistant to the effects of the current classes of antidepressant medications available, so we need new treatment options for patients suffering from depression.”

Neurogenic drugs like his or Neuralstem’s may be used alongside antidepressants. Or they may replace them, offering hope to people for whom antidepressants don’t work.

In 2011, 41 patients took Neuralstem’s NSI-189 during a seven-day safety trial. They showed no side effects, Garr says. That paved the way for the Food and Drug Administration to permit further Phase I testing, with 24 otherwise healthy depression sufferers taking increasingly higher doses in three rounds of tests at a center in Glendale, Calif.

In the first round, launched last year, healthy patients were given 40 milligrams a day for four weeks to test the drug’s safety. In the second, patients who were suffering from depression took NSI-189 twice a day. In the final round, due to wrap up this fall, depressed patients take three 40-milligram doses a day.

Throughout each 28-day trial, participants must stay at the center, watching TV or using the exercise facilities to pass the time while researchers monitor their brain activity daily and check their blood, urine and saliva.

Researchers give them MRIs when they show up, when they leave, and then four weeks and eight weeks later. It’s a double-blind study. Patients don’t know if they’re taking the drug or a placebo. Researchers won’t know the findings until all three rounds are complete.

If the results look promising and the FDA approves Phase II for NSI-189, Neuralstem will begin stretching the dosing to 90 days and expanding the number of subjects. The company may also launch additional trials involving patients with Alzheimer’s, dementia, traumatic brain injury and degenerative brain diseases.

Neuralstem is also working with members of the National Football League Alumni Association to develop a trial for treating ex-athletes. There have been a number of high-profile suicides among former players in recent years, some of whom had been diagnosed with traumatic brain injury. Lee Nystrom, a former NFL Alumni Association chairman and ex-Green Bay Packer, says his group is ready to start “pushing the envelope to create therapies” to help ex-players suffering from brain injuries that linger long after they’ve hung up their jerseys.

If the results of Neuralstem’s second phase are strong, a third phase would involve hundreds, maybe thousands, of subjects.  But even in the best-case scenario, Garr says, it will be five years before someone like me buys NSI-189 at the pharmacy.

Until that time, there are the standard antidepressants.

Over the years, I’ve taken ever-changing drugs and dosages. Ten milligrams of Lexapro, then 20. Forty milligrams of Celexa, Lexapro’s weaker sibling, then down to 20. A year ago I weaned myself off Celexa, chopping the pill into smaller and smaller pieces, and spacing the dosages farther and farther apart until I stopped altogether. I felt good. For a while. Then that familiar feeling returned. Dullness. Darkness. My body so heavy I couldn’t lift it. Thoughts so slow I felt I could grab them out of the air. I made it through six months before I needed to erase the pain.

Now I’m on antidepressants again. Every couple of weeks I grab a handful of pills and subject them to a pill cutter, a little guillotine that slices the pink ovals into two half moons. I take half a day. It’s an act of hope and submission. I still need you, I’m saying, but I only need half of you. One day, maybe, I won’t need you at all.

U-M stem cell trial produces positive results for ALS patients

http://www.detroitnews.com/article/20130708/LIFESTYLE03/307080030/U-M-stem-cell-trial-produces-positive-results-ALS-patients?odyssey=tab|topnews|text|FRONTPAGE

Dr. Eva Feldman, a University of Michigan professor and neurologist, says the results of the stem cell clinical trial are extremely hopeful. (David Guralnick/The Detroit News)
When Ted Harada agreed to participate in a clinical trial testing stem cells in patients with Lou Gehrig’s disease, doctors warned him he could become paralyzed, or even die.
Instead, Harada experienced something almost unheard of in patients with an incurable disease: His symptoms improved.
As part of the trial led by a University of Michigan researcher, Harada had two surgeries in which 1.5 million stem cells were injected into his lower and upper spine.
Soon after the first surgery, Harada stopped using a cane. He regained strength in his arms and hands and even participated in a three-mile walk to raise awareness about Lou Gehrig’s disease, or amyotrophic lateral sclerosis, an aggressive, progressive neuro-degenerative disorder that affects the nerves and brain.
“We’ve all heard the slogan, ‘You can’t win the lottery unless you buy a ticket,’ ” said Harada, 41, who lives near Atlanta, Ga., with his wife and three children. “I am not a lottery player, but in this case I was. Maybe I will get lucky.”
Harada is among four patients who have either improved or stabilized in the closely watched clinical trial, the nation’s first to use stem cells in patients with the disease — named after the New York Yankees legend whose career was cut short by the disorder. Gehrig died in 1941 at age 37. The disease typically kills patients in three to five years. Only one treatment is available, and it extends life by just a few months.
The four patients who stabilized or improved in Phase I of the trial had two clinical features in common: At the time of surgery, they were early in the course of their disease — an average of two years and one month after the onset of symptoms. They also had none of the ALS symptoms known as “bulbarfeatures” — trouble speaking or swallowing.
Though preliminary, the results offer hope, said Dr. Eva Feldman, a University of Michigan professor and neurologist who is the trial’s principal investigator.
“The results suggest that intraspinal stem cell transplantation of ALS subjects with no bulbar symptoms early in the course of their disease could slow disease progression,” Feldman said. “I am extremely hopeful that we have found a way early in the course of the disease to make a true difference. Any treatment that can slow the progression of the disease is truly a home run for Lou Gehrig.”
ALS affects as many as 30,000 Americans at any given time, according to the ALS Association, a national nonprofit providing assistance to those with the disease.
The clinical trial was launched in 2010 with 15 patients at Emory University in Atlanta, and is expected to expand to U-M soon with 15 more patients at both locations for the second phase.
Although a small group of patients improved or stabilized during Phase I of the trial, five of them have since died from the disease. A sixth patient died of a congenital heart defect unrelated to ALS.
So, if you are a old age man levitra side effects with erectile problem, visit your doctor for prescription and at more affordable prices) online. Therefore, after the patent rights of the cheap india cialis you get the enduring sexual stamina that helps you to get relief from stress and focus on lovemaking. While, on one hand the customer base of this ED medicine is constantly viagra cialis generic increasing, on the other hand, numerous cases are coming up claiming it to be ineffective and useless for children’s and women’s to consume this herbal pill regularly two times with water to cure male sexual disorders or getting that discuss with partner or doctor. When folks are usually identified as Attention deficit hyperactivity disorder, on most occasions, these are currently being wrongly diagnosed which is basically because of generic tadalafil cipla disarray inherited plus much more. The other five patients in Phase I are still alive but had a long disease course before entering the trial, and do not represent typical ALS.
During the first phase of the trial, surgeons injected up to 1.5 million stem cells into either the lumbar, cervical or both parts of the spinal column, first in patients who could not walk and then in those able to walk. The doctors areinjecting fetal stem cells provided by Neuralstem Inc., a Maryland company.
Phase II will involve more injections and millions more stem cells and will focus on the upper portion of the spinal column, where nerve cells supply the diaphragm. When those cells are damaged, patients have difficulty breathing, which is a common problem in ALS patients.
Feldman, who is also president of the American Neurological Association, said she believes the stem cells played a therapeutic role in the small number of patients who stabilized or improved.
“The stem cells surround the sick nerve cells and help nurse them so they can remain more stable,” Feldman said.
At the beginning of the trial, Feldman stressed Phase I was an important step to determine if the stem cell treatments are safe. She recently reported the improvement of patients at a conference in Romania and is preparing to submit the results to a peer-reviewed journal.
It’s not unusual to hear about early results of a high-profile trial, but people should not read too much into it, said Steve Goodman, associate dean of clinical and translational research at the Stanford University School of Medicine.
“In an incurable disease with little hope, any glimmer of information that a useful therapy might be in the works is, of course, newsworthy, as long as release of such information does not compromise the treatment of current or future patients,” said Goodman, who is not familiar with Feldman’s clinical trial.
“That said, if the release occurs before efficacy and safety are well enough established, there is always the possibility that desperate patients outside the trial will clamor for the therapy, which can be dangerous in itself, or make future studies difficult. And of course, if there is a financial interest in disseminating results, that raises questions about both the motivation and ethics of raising too much hope on the basis of very early-phase results.”
In spite of experts who warn about early results leading to premature hope, those with loved ones who have succumbed to ALS are thrilled to hear there could be some movement in the future for better treatments.
Among them is Malcolm Beaton, an Allen Park resident who lost a father, two brothers and four sisters to the disease.
“Everything quits working but your mind. You know everything that is going on around you, but you cannot communicate,” said Beaton, 77. “It’s a horrible, horrible disease.
“God bless those scientists that are doing that research. If they come up with a cure, imagine how that would have affected my family. I might maybe still have my brothers and sisters here.”

From The Detroit News: http://www.detroitnews.com/article/20130708/LIFESTYLE03/307080030#ixzz2YTWGTZUx

Ted Harada: His ALS miracle continues to amaze

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Ted Harada: His ALS miracle continues to amaze

Stem-cell protesters are blind to the big picture

After stem cell injections, Ted Harada no longer needs his canes

You can understand Ted Harada being more than a little cheesed off when knee-jerk protesters start whining about embryonic stem cells and how it’s against God’s wishes and all that is moral and right to use them in the name of science.

But Harada is too busy still reveling in the seemingly miraculous improvement in his symptoms of ALS to be mad at anyone. Nothing is going to wipe that smile off his face.

Here’s the deal:

Harada, 40, is a former manager at FedEx who first noticed symptoms of ALS in 2009 while playing Marco Polo with his kids in the family swimming pool.

On March 9, 2011, he got an injection of 500,000 stem cells — the cells were derived by Rockville, Md.-based Neuralstem Inc. after a patient donated her fetus’ spinal-cord tissue in 2002 — as part of an 18-operation, 15-patient trial that last 2 1/2 years.

Harada doesn’t know if the tissue was from an embryo that was aborted or one that was miscarried or one that died as a result of an accident. The stem cells he got weren’t from that embryo, they were from cells that begat cells that begat cells that begat cells during 11 years and many generations of cells.

The operations were conducted by Emory University Hospital physician Dr. Nicholas Boulis. The trial was designed, in part, by Dr. Eva Feldman, director of the A. Alfred Taubman Medical Research Institute at UM and director of the ALS clinic at the UM Health System. Boulis is a former colleague of hers at UM.

Harada was one of three patients who got two rounds of injections, the second last August. Researchers monitored all patients for side effects, the trials proved to be safe and last month, the U.S. Food and Drug Administration gave its blessing for Phase 2 trials, to begin later this year in Ann Arbor and at Emory.

Signs of Harada’s ALS diminished noticeably after his first injection, and the improvement after his second injection was even more noticeable.

He hasn’t used his canes in months, his strong grip has returned, he easily walks upstairs to kiss his kids goodnight. On Oct. 20, he was even able to do a 2.5-mile fundraising walk in Atlanta to fight ALS.

“If the walk had been in July, I wouldn’t have attempted it,” he said. “After a third of a mile I would have been done. I would have sat down and said, `Someone come pick me up in a car.’ ”

Harada still has ALS. He still knows the likely prognosis is death. But there’s hope the prognosis of death won’t always accompany the diagnosis, now that there’s clearly some mechanism for improvement that researchers need to understand and refine.

“We’ve got to turn Lou Gehrig’s disease into Lou Gehrig’s chronic illness,” he told me last summer.

Today, Harada told me nearly all the improvement that happened after his last injection is still evident. Wednesday, he underwent his usual round of post-injection testing at Emory. “I’ve been doing great and feeling great. Just now, the left leg showed a little bit of weakness returning, but I’m still so much better than I was before the surgeries. It’s the first time, since August, they’ve noticed any slight weakness.

“It’s clear from the data that the injections reversed my symptoms and slowed down the progression of the disease. I’ve received a blessing. I almost forget I have ALS. I don’t have the constant reminder of having to use the canes. Now, I don’t think about ALS every day. Every couple of days something happens and I think, `Oh, yeah, I have ALS.’ ”

When Feldman told me the good news in April that the FDA had given its blessing for Phase 2 trials, she said Harada would be welcome to apply for another round of injections.

And Boulis briefly told him the same thing in Atlanta. But he and Feldman had overlooked an important detail: The trial protocol calls for patients who have been diagnosed within a certain window of time. Harada had been recently diagnosed when he got his first injection, and the thought, based on how well he did, is that those more recently diagnosed will show more dramatic results.

Alas, the irony is that based on his success, the change in test criteria now excludes him from further participation.

“I’d be intellectually dishonest if I said I wasn’t disappointed, but I’m still the biggest cheerleader for the trials,” he said. “If they can get good results and get to market, I might still be able to take advantage.”

The day after UM and Feldman happily announced Phase 2 trials would commence, loud and strident protesters showed up at UM to bloviate against the use of embryonic stem cells.

They were on TV, they were on the radio. Never mind that the embryo they were concerned about died 11 years ago and that this is a line of cells gathered legally in a process that obeyed all state and federal rules and is finally giving hope to people who no longer are sure their disease is a death sentence.

“I don’t think the protestors understand,” said Harada. “An embryo dying is a one-time tragedy, I know that. But this is a way to turn it into a gift. And it’s a gift that’s done so much good. That’s proved to be life extending.”

ALS patient is living his second miracle

http://www.crainsdetroit.com/article/20121130/BLOG007/121139991/als-patient-is-living-his-second-miracle

ALS patient is living his second miracle

Follow-up stem-cell operation has more amazing results

November 30, 2012

ALS patient is living his second miracle

Follow-up stem-cell operation has more amazing results

Emory University Hospital
Doctors inject stem cells into ALS patient

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Ted Harada is living his second miracle right now, savoring every minute of every hour of it for as long as it lasts. His strength is back up, there’s a spring in his step, he’s got a strong grip back in his hands, and the symptoms of his ALS once again are in retreat to the ongoing surprise of his doctors and to the delight of his family.

Once again, Harada is easily going up the stairs to tuck his kids in at night and give them a kiss, instead of struggling up a step at a time, having to hold onto the handrail for support. Once again, he knows — or is as close to knowing as you can with such a disease — that he is part of something that will eventually change the death-sentence prognosis that until now has been a certainty as soon as there is a diagnosis with the dreaded words no one wants to hear: amyotrophic lateral sclerosis — Lou Gehrig’s disease.

“The first time, it’s easy to say it was an outlier. Luck. But I’ve been helped twice. Twice, and you can throw luck out the window. They’ve got to figure out, now, what’s going on with me,” he says. “We’ve got to turn Lou Gehrig’s disease into Lou Gehrig’s chronic illness.”

Some background: I interviewed Harada by phone in early October for a package of stories Crain’s ran Oct. 29 about successful Phase 1 human trials that University of Michigan and Emory University physicians and researchers had recently concluded in Atlanta, injecting stem cells into the spinal column of ALS patients.

Because Phase 1 trials are designed to test safety before any approval from the Food and Drug Administration to move on to Phase 2 trials, which test efficacy, researchers are cautious. They generally decline much comment for fear about running afoul of the bureaucrats.

But patients themselves are free to talk to anyone they want, and Harada was eager to tell his tale.

Ted Harada

 

Harada, 40, is a former manager at FedEx who first noticed symptoms of ALS in 2009 while playing Marco Polo with his kids in the family swimming pool.

On March 9, 2011, he got an injection of 500,000 stem cells — the cells were derived by Rockville, Md.-based Neuralstem Inc. after a patient donated spinal-cord tissue in 2002 — as part of an 18-operation, 15-patient trial that last 2½ years.

The operations were conducted by Emory University Hospital physician Dr. Nicholas Boulis. The trial was designed, in part, by Dr. Eva Feldman, director of the A. Alfred Taubman Medical Research Institute at UM and director of the ALS clinic at the University of Michigan Health System. Boulis is a former colleague of hers at UM.

Harada was one of three patients who got two rounds of injections, the second this past Aug. 22. Researchers monitored all patients for side effects, of course, and the trials proved to be remarkably safe. The results were presented by Feldman in October at the annual meeting of the American Neurological Association in Boston.

Researchers also do a variety of tests on patients to look for signs of efficacy, too, to give them an idea of what they might expect should they get to Phase 2. Some patients showed little or no improvement. Others had modest gains.

Harada was off the charts.

When I interviewed Harada, he was feeling punk from fighting off a lingering staph infection and thought he was starting to see an improvement in symptoms as a result of the injection of cells Aug. 22. Because of the infection, it was hard to tell, and researchers at Emory hadn’t begun doing follow-up tests with him.

University of Michigan

Eva Feldman

 

But there was no equivocation about the miracle that had happened after Harada’s first injection.

Two weeks after the operation, Harada thought he was feeling stronger, that there had been an improvement in his overall health. But he was afraid he was imagining things. That it was wishful thinking. Or a placebo effect.

Before the operation, Harada could barely limp with the help of canes or handrails up the steps to say goodnight to his kids at his home in McDonough, Ga. If he sat in a chair and his wife put the least bit of resistance on the top of his knee, he couldn’t budge his leg off the ground.

Harada didn’t wait for the doctors to test him.

“I asked my wife to come over and give me a test,” he told me in October.

She braced her hand against the top of his knee, as she had done many times. This time, though, his foot didn’t stay planted on the ground. It went up in the air.

They tried it, again. She pushed harder. He lifted his leg. A third time, his wife really pressing down her hand.

He lifted his leg.

She pushed down with two hands. He lifted his leg. “It was shock. ‘Is this real? This isn’t supposed to happen,’ ” Harada recounted to me.

He called the folks at Emory to tell them the news. He doesn’t blame them for what happened next. They tried to temper his enthusiasm. They explained the power of placebo effects.

“I know what a placebo effect is. I’m not crazy. This isn’t a placebo effect,” Harada responded.

“If anyone was more surprised than me, it might have been my doctors,” he told me.

Subsequent tests showed emphatically that what was going on — the mechanism of which is still not understood — was clearly not a placebo. Across a range of tests, there was demonstrative, clear, seemingly miraculous improvement.

“Every night I went to bed worried I’d wake up and it would be gone, that I’d have made the whole thing up,” he said. And every day for two or three months, not only did he wake up and hadn’t made the whole thing up, he woke up stronger than when he went to bed.

“I continued to improve in quantum leaps,” he said.

About a year after the operation, Harada began to notice a gradual decline, a decline that continued until his second operation — though he was still stronger when he went into the second operation than he had been going into the first.

When I talked to him in October, Harada was pretty sure he was feeling a little better but was tempering his expectations. “It would have been greedy to expect such good results, again,” he said.

Today, though, his staph infection has been cleared up, and there’s empirical evidence another miracle is taking place.

“I’m definitely getting stronger, there’s no doubt. Tests are showing beyond a doubt I’ve gained strength again,” Harada said. “I have more energy. My legs don’t get tired as quickly as they did. My hands have gotten stronger, again.”

By Oct. 20, Harada was feeling strong enough that he took part in a 2.5-mile fundraising ALS walk in Atlanta.

“If the walk had been in July, I wouldn’t have attempted it,” he said. “After a third of a mile, I would have been done. I would have sat down and said, ‘Someone come pick me up in a car.’ ”

Harada did the 2.5 miles, no problem, still going strong when he hit the finish line.

Harada said one researcher told him after putting him through his tests on a visit earlier this month that, in Harada’s words: ” ‘If I hadn’t seen it with my own eyes, I wouldn’t believe it. If I was at another hospital and reading reports about you, I’d say it had to be B.S.’

“I’ve been blessed beyond belief,” he said.

Harada still has ALS. He still knows the likely prognosis is death. For him. But based on what has happened to him, there’s hope the prognosis of death won’t always accompany the diagnosis. Not now, not that there’s clearly some possible mechanism for improvement, something researchers need to understand and refine.

Feldman is awaiting approval from the FDA for a Phase 1B trial that she hopes will begin soon in Ann Arbor. It involves injecting three patients with 1 million stem cells, double the dose of the first trials.

If there are no ill effects from doubling the amount of stem cells, a Phase 2 study of 32 patients could begin next summer.

It’s worth repeating Harada’s words: “We’ve got to turn Lou Gehrig’s disease into Lou Gehrig’s chronic illness.”

Based on what’s happened, and what is happening, with Harada, that no longer seems like wishful thinking.

 

 

 

 

 

 

Advances in regenerative medicine may let patients grow own transplants

Modern medicine:

Advances in regenerative medicine may let patients grow own transplants

http://www.msnbc.msn.com/id/48976348/ns/health-mens_health/

By Maggie Fox

NBC News

A few years ago, Dr. Anthony Atala’s lab at Wake Forest University got good at making ears. They were growing new ears on a scaffold using patient’s cells, because so many soldiers were losing their ears in explosions. Now the Department of Defense has a project that’s closer to Atala’s heart: making new genitals for soldiers who have stepped on bombs.

Other labs are still moving forward with the ear project for the military.  But Atala has special expertise dating back to his days as a pediatric urologist. He’s already grown bladders using a patient’s own cells, and he’s made penises that rabbits were able to put to their proper use, fathering litters of new little bunnies. He hopes to use this expertise to help rebuild the bodies of veterans wounded in Iraq and Afghanistan, as well as men and boys injured in car accidents.

Atala is one of the pioneers of regenerative medicine. But the field has
taken off in a big way, attracting biotechnology companies, the U.S.
military and academic labs, which are working to literally make the blind see and the lame walk again. They’re perfecting spray-on skin and to mass-produce new body parts using bioprinters based on the jet printers attached to your home computer.

“Right now, the way these organs are made is creating them one by one. By bringing the bioprinting in, we can scale it up,” says Atala, whose lab has contracts with the four-year-old Armed Forces Institute of Regenerative Medicine (AFIRM), biotechnology companies and private foundations.

All of this technology is years away from the doctor’s office. The most
advanced treatments have just begun the very earliest stages of human testing. But all evidence points to the tantalizing prospect of
grow-your-own organs and possibly even limbs within a decade or so, and some approaches, such as muscle transplants and spray-on skin, are helping a lucky few now.

Atala’s lab in 2006 made the first full organ ever grown and implanted into a human – the bladder – and the rabbit penises were the first solid organs. A new bid from AFIRM caught his eye. It called for experts in rebuilding the lower abdomen, the genitals, the pelvic area and the bladder.

These injuries are among the least talked-about but among the most horrible affecting war veterans. The improvised explosive devices, or IEDs, planted by insurgents across Iraq and Afghanistan blow off feet, legs and arms, and they can especially damage the pelvic areas that are difficult to protect with body armor.

Atala’s lab is also working to make kidneys, muscle implants, and even to find ways to get fingers to regenerate on their own. (It has to do with waking up some very powerful DNA that goes to sleep soon after a fetus develops). AFIRM’s mission is to align labs like Atala’s with others around the country, getting them to collaborate on projects rather than compete.  AFIRM currently funds around 50 research labs, including leaders such as the University of Pittsburgh Medical Center, Rutgers University, the Cleveland Clinic and Rice University.

“We don’t really feel that other groups are competition at all,” Atala says “Our interest is really to get these technologies into patients. We consider the disease the competition.”

Spray-on skin One area of intense competition – or collaboration – is in spraying on new skin. AFIRM is funding several projects testing a product that uses a patient’s own skin cells, so that rejection is not an issue. Old-fashioned skin grafts may close a wound or a burn, but they don’t heal prettily.  ReCell is a product, more of a process really, that uses a small plug of a patient’s own skin, broken down into a soup using enzymes. Cells known as keratinocytes, which give skin its structure, and the melanocytes, which give color, are pulled out, mixed into a liquid suspension and then sprayed over the damaged area.

It’s a thin layer but the cells quickly multiply and, if the process is done right, form an even layer of new skin within days. The result is much more natural-looking than a graft.

Skin is easier to heal because it’s a relatively simple organ and on the
surface of the body. Limbs are more complicated – they are made up of bone, muscle, nerves, connective tissue and also skin.

Labs are taking a more traditional approach in trying to restore limbs, by transplanting them. But even there regenerative medicine can play a role.  This is where stem cell research comes in. Stem cells are the body’s master cells, and there are several kinds. People have stem cells known as adult stem cells all through their bodies, and they are already partly “educated” to become blood, muscle, bone or nerve cells.

These cells divide and multiply to produce muscle, bones and blood, and they also secrete compounds that help existing tissue and cells regenerate. Some of the projects on AFIRM’s wish list include calls for labs that can combine techniques used to build new body parts with the use of stem cells to help them generate and integrate with the rest of the body.

More powerful cells come from embryos that have barely begun to develop. An entire human body, the collection of muscle, bone, brain, blood, nerves and organs, all develops from the ball of just a few cells that forms days after fertilization. Each one of these cells, known as human embryonic stem cells, contains all the coding needed to make every cell type in the body.
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Helping the blind see In January, scientists at Advanced Cell Technology, a company based in Massachusetts, reported they had used some of these human embryonic stem cells to partially restore vision in two legally blind patients. First they “trained” the cells by incubating them in a nourishing soup of chemicals designed to make them differentiate into retinal cells. The stem cells, infused directly into the eye, regenerated cells known as retinal pigment epithelium cells.

One patient said she can thread needles again and another has been able to resume shopping on her own. ACT has since gotten permission to treat more patients with higher doses of the cells, now that they have at least been shown not to cause any harm. They’re going after patients with degenerative eye diseases such as age-related macular degeneration and Stargardt disease.  In both conditions the cells in the retina gradually die and patients go slowly and irreversibly blind.

They’ve treated 11 more patients, says ACT’s chief medical officer Dr.
Robert Lanza. “In all the patients we have been seeing a very real
biological signal,” Lanza told NBC News. “We have been very pleased because we are talking about very advanced stage patients, and there’s really no treatment for them.”

The experiments, known as clinical trials, are strictly regulated. In the
early stages of human testing, where ACT is now with stem cells, Stage 1 trials recruit only volunteers with advanced, severe disease who have little to lose. The tests are not aimed at showing whether the treatment works, but to ensure that it doesn’t do any harm. Showing efficacy is a big bonus.

“We are far enough along now that we can go into patients with better
vision. That is where we think we will see a very dramatic improvement,” said Lanza.

It doesn’t always go this well. ACT was neck and neck with another company called Geron to be the first to test human embryonic stem cells in people. Geron got there first in 2010, infusing the cells into a young man injured in a car accident, as well as three others. The hope was to regenerate their severed spinal cords. Again, these first patients were treated experimentally only to show the approach was safe and no one dared hope they’d actually improve. And none of them did. Geron dropped its stem cell program in November 2011, saying it wanted to focus on cancer drugs instead.

Lanza said the eyes are a great place to test new treatments because
researchers can literally look in there and see what’s happening. The
spine’s a little harder, but other labs are trying to help there, too.

‘I was afraid it would be a dream’ Ted Harada had a second infusion of stem cells last month. The 40-year-old former Fedex employee has Lou Gehrig’s disease, medically known as amyotrophic lateral sclerosis or ALS. It attacks nerves called motor neurons, gradually and inexorably paralyzing its victims. It’s always fatal as patients lose every bit of their ability to move, even to breathe. There’s no treatment and no cure.

Harada is hopeful enough to have tried the highly experimental treatment not once but twice. It’s painful – surgeons have to cut open his spine and infuse the stem cells right into his spinal fluid. But the last time Harada was treated, he went from walking with a cane to running with his kids – a transformation that made him an instant television celebrity.

“The results I saw were nothing short of miraculous,” says Harada, who lives in Georgia and who got treated at Emory University. “Within two weeks I started feeling my legs getting better. I was afraid it would be a dream and I would wake up and it would be gone again.”

And the effects did gradually wear off, Harada says. “All of a sudden I
started noticing fatigue in my legs,” he told NBC News. “I started noticing trembling, shaking in my legs. If you do a lot of weight lifting you know that rubbery feeling your legs get when they are spent?” That’s how he felt.

In August, Harada got a second infusion of stem cells, which are made by a company called Neuralstem, this time in his neck. “There were a lot of reasons to think this could not safely be done. The spinal cord itself is very precious real estate,” says Dr. Eva Feldman, a neurologist at the University of Michigan who is working on the ALS trial. “You are putting a needle into the spinal cord.”

Feldman admits that researchers on the trial don’t fully understand what the cells are doing. In animals, she says, they form new connections with damaged motor neuron cells in the spine. “They essentially nurture the sick cells into health,” she said. They secrete compounds known as growth factors that nourish the cells in the spinal cord. “They go in there and clean it up so that the whole environment looks less inflammatory … We are not letting the fact that we don’t fully understand how they work prevent us from using
them.”

Harada thinks he may already be feeling something but admits it might be wishful thinking. Trained nurses will measure his muscle strength to see if the new treatment has helped. “I am determined and relentless for them to utilize me as their guinea pig to figure out what is helping me and they can translate this into helping all the other cases of ALS,” says Harada. “I don’t want to provide false hope.”

That’s one thing that worries Dr. Paul Knoepfler, a professor of medicine at the University of California Davis. “There are a lot of clinics sprouting up, offering people stem cell treatment for anything that might be ailing you,” Knoepfler said in a telephone interview. “Some of these pop up in a strip mall, even. They might charge $20,000.”

Yet few, if any, have any real medical credibility, says Knoepfler. “For the most part, the science just isn’t there and yet people are talking about spending a whole chunk of their life savings and the clinic could be totally bogus,” he said.

“We are worried not only for specific patients, but it may tarnish the whole field generally if we have patients getting hurt or even killed by so-called stem cell treatments.”

(c) 2012 NBCNews.com Reprints

Neuralstem Showing Promise In Stem Cell Treatment Of ALS

Neuralstem Showing Promise In Stem Cell Treatment Of ALS

by Ramu Iyer

A few days ago, local Fox TV stations aired a story about a medical trial by Neuralstem (CUR), which they described as “one of the most powerful stories we’ve ever reported.” Ted Harada is the eighteenth and final patient to receive human stem cell transplant treatment for amyotrophic lateral sclerosis (ALS) patients as part of a clinical phase 1 trial being conducted at Emory. He is also one of the first patients to ever experience a partial recovery from the dreaded disease. It is also called Lou Gehrig’s disease (the famous sporting star Lou Gehrig died of the disease), and sometimes motor neuron disease, because it is a gradual degeneration of the nerves that control motor functions.  It progressively incapacitates the body’s motor functions to the point where the patient cannot breathe by himself or herself. Up until this point, it has been invariably fatal, with no current treatment or cure. A new stem cell treatment from Neuralstem could change all that.

Neuralstem announced the completion of the phase 1 trial of its NSI-566 spinal cord neural stem cells for the treatment of amyotrophic lateral sclerosis (ALS or Lou Gehrig’s disease), with the treatment on Harada. Harada was the third patient to return for an additional set of injections, and phase 1 will conclude six months after this last treatment.  He had his first treatment seventeen months ago when stem cells were transplanted.  Soon he began to get better, and could even walk around the neighborhood with the help of a cane. But recently, the weakness started to come back and Ted volunteered for the second round of treatment.

Neuralstem found out that the fatal nerve damage caused by ALS could be slowed down, and even reversed, by supporting healthy cells in the spinal column with the integration of targeted stem cells.  The stem cells have been cultured and multiplied in their laboratories, and treatment consists of both injecting cells into the spinal cord and exposing the spinal cord to introduce the cells. The stem cells have the capability of growing into nerve cells that support the existing nerves.  You can appreciate the delicacy of the process when you understand that the spinal cord controls every breath you take and every muscle in your body. After completing preliminary studies in animals, the company received FDA approval for human treatment as well as the highly coveted orphan designation. The company developed a patented device for intra-spinal cord surgery, which was used for the stem cell treatment in the eighteen patients. Neuralstem also devised procedures to freeze and preserve the stem cells until they are used.

The purpose of the phase 1 trial was only to assess the safety of the treatment, not to prove the efficacy of benefits. The phase 1 trial commenced in January 2010. The first twelve patients received the treatment in the lumbar or lower back region of the spine.  The treatment was then advanced to the cervical or upper back region. The last three patients received treatment in both regions and the FDA approved the inclusion of previously treated patients in this last batch. The motor neurons that control breathing and the ones that patients need to survive are in the upper spinal cord, primarily in the neck. It is also important to remember that the dosages used in the trial, including the treatment of Ted Harada, were approximately one third of the dosages that will be eventually used.  The trial also meant that patients had to agree to undergo the spinal procedure and to take immuno-suppressant drugs for the rest of their lives in order to prevent rejection of the stem cells being infused.
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“There have been many firsts in this trial, including the first lumbar intraspinal injections, the first cervical region intraspinal injections, and the first cohort of patients to receive both,” commented  Jonathan D. Glass, MD, Director of the Emory ALS Center. Eva Feldman, MD, PhD, Director of the A. Alfred Taubman Medical Research Institute and Director of Research of the ALS Clinic at the University of Michigan Health System, is the principal investigator on the trial, and an unpaid consultant to Neuralstem. She noted, “We have found the procedure to be extremely safe. In some patients, it appears that the disease is no longer progressing, but it is too early to know if the result from that small number of patients is meaningful.”

Just a few days earlier, Neuralstem announced that it had received a notice of issuance for patent number 12/710,097, titled “Transplantation of Human Neural Cells for Treatment of Neurodegenerative Conditions.” This patent covers both the culturing of central nervous system cells as well as transplanting them into spinal cord tissue to treat neurodegenerative conditions including ALS. This is an important addition to its intellectual capital, because it covers every stage and facet of the treatment, and the patent is valid up to the year 2030.

In addition to ALS, the company is also targeting other major central nervous system ailments with its treatment such as spinal cord injury and ischemic spastic paraplegia, and has submitted an IND (Investigational New Drug) application to the FDA for a phase 1 safety trial in chronic spinal cord injury. The company is conducting a phase 1b to evaluate the safety of NSI-189, its first neurogenic small molecule compound, for the treatment of major depressive disorder (MDD).

This is a promising beginning, but there is still a long way to go before the treatment can be brought to market. This is shaping up to be a promising treatment for a disease previously considered as fatal and untreatable that is going to provide a ray of hope for many patients who may have given up on their condition altogether. While it is still too early to judge whether the treatment is going to be a blockbuster or not, the company is showing great promise. If you are interested in gaining exposure in the biotechnology sector, you should watch this stock carefully for further favorable developments.

Transparency/Disclosure: I am not a registered investment advisor and do not provide specific investment advice. The information contained herein is for informational purposes only. Nothing in this article should be taken as a solicitation to purchase or sell securities. Before buying or selling any stock you should do your own research. I am a consultant to a third-party and have received two hundred fifty dollars for independent research. Always discuss investments with a licensed professional advisor before making any financial decisions. Statements made herein are often “forward-looking statements” as stipulated under Section 27A of the Securities Act of 1933, Section 21E of the Securities Act of 1934, and the Private Securities Litigation Reform Act of 1995. While I have researched this company thoroughly, my due diligence is not a substitute for your own.

Henry County man undergoes experimental ALS stem cell surgery

Henry County man undergoes experimental ALS stem cell surgery


By Beth Galvin, FOX Medical Team reporter

Read the full article Click Here

ATLANTA -A Henry County father of three has gambled on a risky, cutting-edge spinal surgery not once, but twice.

Ted Harada is the 15th and final patient to undergo a human stem cell transplant for amyotrophic lateral sclerosis (ALS) patients. He’s part of an Emory study being watched all over the world.

The surgeons aren’t just injecting cells into the spinal cord — they’re exposing the spinal cord,  It controls every breath, every movement, every muscle.

Ted and Michelle Harada have been down this road before. The two have been married 18 years. Ted, 40, was diagnosed with ALS two years ago.

“I know it’s the right thing.  And I know it’s the right thing not just because it will help me, but because there’s a lot of people out there that need help,” said Harada.

Ted knows ALS, also known as Lou Gehrig’s disease, will progressively shut down his muscles, until he can’t breathe on his own.

Ted volunteered for the first-ever human stem cell trial for ALS at Emory. He said that he’s taking the risks for his three children – a 14-year-old son, 12-year-old daughter and 8-year-old daughter.

“But that fact that it was so cutting edge of science and medicine is what appealed to me,” said Harada.

Doctors are using stem cells taken from a fetus aborted 12 years ago. They’ve been cultured and multiplied in a lab by a company called Neuralstem. They’re injecting them directly into the spinal cords of people with ALS.

Seventeen months ago, the cells transplanted into Ted’s lower spine, which controls his legs.

“Now this is a disease that doesn’t get better.  So we don’t see patients who spontaneously get better. It just doesn’t happen,” said Emory neurologist  Dr. Jonathan Glass.

But Ted did get better. Soon he could walk through his McDonough neighborhood without a cane — the one patient of 15 study volunteers to measurably get stronger.

“How could I not believe in it, when I’ve seen what it’s done, for whatever reason?  I mean, I understand it’s a safety trial, but you still can’t deny or ignore the results I’ve seen,” said Herada.

Are you 40+ and having erectile dysfunction? Are you getting low confidence while super cheap viagra http://downtownsault.org/barishs/ getting into the bed. In people with type II or III bleeding may be severe and potentially life-threatening. viagra online canadian Erectile dysfunction is viagra prices in usa an inability to sustain an erection even after being sexually aroused. There are millions of men today who suffer from this sexual dysfunction and this sildenafil generic from canada has provided them with the ultimate solution towards resolving their impotency issues. “I have difficulty explaining it —  it was unexpected,” said Glass. “It was nice to see.”

But recently the weakness has come back, So, Ted returned for one more surgery.

“I told him the risks, he knows the risks, and the risks are large,” said Glass.

“But there’s part of me that has to say, ‘Hey, it worked once, why can’t it help again,'” said Ted.

Before Ted’s second surgery began, Glass had to make sure the stem cells were still viable. To go forward, at least 70 percent have to be alive. In Ted’s case, 86.3 percent were alive.

It was neurosurgeon Nick Boulis’ 18th stem cell transplant at Emory.

“We’re going to do five injections of the cervical spinal cord,” said Boulis.

The Emory/University of Michigan team focused on the neck because the nerves there control breathing.

“Because that’s why people die.  People die of ALS because they can’t breathe,” said Glass.

Dr. Boulis and the team carefully teased open the most delicate, dangerous, real estate in the body: the cervical spinal cord. A few feet away, Dr. Glass drew the stem cells into a hair-thin tube, about 100,000 at a time.

“And then we’ll do that five times, so it will be 500,000 cells he’ll get,” said Glass.

The cells were injected into a two centimeter section of Ted’s spinal cord. The only goal of this trial  is to prove this surgery, and these cells are safe, not whether they work. But lab studies show the stem cells may help damaged or dying spinal nerve cells repair themselves.

After almost six hours in the operating room, the surgery was complete.

Nothing is promised, nothing guaranteed. But there’s hope. And for the Haradas that’s enough.

Five days out, Ted says he’s doing OK.

Now, the Emory-Michigan team will take all of its safety data to the Food and Drug Administration to ask permission to move on to the next phase of the trial. That could take about a year.

Miracle Improvement In ALS Patient Could Force Big Pharma To Get Serious On Stem Cell Therapy

Miracle Improvement In ALS Patient Could Force Big Pharma To Get Serious On Stem Cell Therapy

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Results of the study, published in April 2012, validated the safety of the procedure as none of the twelve patients’ bodies rejected the stem cells, nor was there any evidence of long-term complications. In the case of Harada, the procedure yielded positive results that allowed him to walk without a cane and helped improve his breathing. This August, Dr. Eva Feldman, a neurologist at the University of Michigan, surprisingly declared the stem cell therapy had essentially stopped the progression of the disease. The encouraging results have led to U.S. Food and Drug Administration (FDA) concurrence to inject stem cells in the cervical, or upper region, of the spinal cord.

Harada’s sudden and unexpected improvement begs several questions on the investment front; what impact will there be on the stem cell industry and will capital from major pharmaceutical companies start to flow more rapidly?

First, expect biotech companies to explore less conventional and more daring regions of the body to inject stem cells. The Neuralstem project is one of the only medical procedures that utilized the spinal cord as the entry point for stem cell injection. Second, Harada’s improvement may diminish some of the public’s aversion to stem cell treatments due to ethical concerns. The vast potential of stem cell therapies to cure humanity’s worst ailments and disorders will ease opposition to its use, creating a window that major pharmaceuticals could use to invest more resources into the industry.

Many of the major pharmaceutical companies have invested in stem cell research and biotech companies to a marginal degree. For example, Pfizer has partnered with Athersys (ATHX) to use stem cell therapy to treat inflammatory bowel disease (IBD). The drug, derived from stem cells found in bone marrow and based on Athersys’ Multistem commercial product, is currently in FDA phase 2 clinical studies. Pfizer is also working with the University College of London to develop a stem cell-based treatment for macular degeneration.

Johnson & Johnson has teamed up with Novocell, Inc to develop stem cell therapies to treat diabetes and cancer. Advanced Cell Technology (ACTC.OB) is using embryonic stem cells in an attempt to treat Stargardt’s macular dystrophy and age-related macular degeneration, two diseases that cause blindness. Neuralstem is developing stem cell treatments for strokes, Alzheimer’s, spinal cord injuries, and Parkinson’s disease. GE Healthcare (GE ) has also advanced stem cell
research through its cell technologies R&D department. Stephen Minger, the head of this department, captured the evolving stem cell industry perfectly: “When you see companies like Pfizer, GlaxoSmithKline (GSK), Johnson & Johnson, and GE invest in stem cells and regenerative medicine, it suggests a level of maturity. It is still high risk, but it is a calculated risk.”

Based on the major player’s existing involvement in stem cell research, it would not be surprising if Harada’s improvement demonstrates the technical maturity needed to push the industry to the next level. The stem cell industry certainly presents many risks; it may be very difficult to commercialize a product and caution must be given to the ethical, political, and legal concerns of stakeholders. Nonetheless, investors should watch Harada’s condition closely over the coming months and years to catch a glimpse into the future of stem cell therapy, and whether the major pharmaceutical companies finally get serious about its potential.

New Cells for ALS Patients

New Cells for ALS Patients

http://www.technologyreview.com/news/428956/new-cells-for-als-patients/

Surgeons have transplanted a second dose of neural cells into a patient’s spinal cord in a pioneering trial.

Susan Young  <http://www.technologyreview.com/contributor/susan-young/>

Thursday, August 23,

Brave attempt: Neurosurgeons at Emory University deliver a second dose of neural cells into the spinal cord of an ALS patient.
Kerry Ludlam, Emory University

This week, surgeons at Emory University in Atlanta implanted a second dose of neural cells into a patient’s spinal cord, part of an experimental treatment aimed at slowing the progression of ALS, or Lou Gehrig’s disease.

The patient, Ted Harada
<http://www.ajc.com/opinion/give-hope-to-those-1431799.html> , is the third person this summer to receive a second dose as part of the trial. The cells are produced by a Rockland, Maryland-based company called Neuralstem <http://www.neuralstem.com/>  that isolates stem cells from the brain and spinal cord of aborted fetuses. The company is also targeting other major central nervous system conditions with its cell therapy platform, including spinal cord injury, ischemic spastic paraplegia, chronic stroke, and brain cancer.
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ALS gradually destroys the connections between the spinal cord and motor neurons, eventually robbing patients of all ability to move. The hope is that the cells injected into the spinal cord will provide support, perhaps by releasing growth factors, and prevent motor neurons from dying. “They nurture the dying motor neurons back to health or make them healthier and slow down the degenerative process,” says Richard Garr, CEO of Neuralstem.

“We have found that the procedure is extremely safe,” says Eva Feldman <http://www.umich.edu/%7Eneurosci/faculty/efeldman.htm> , a neurologist at the University of Michigan and the lead investigator of the trial. “In a subset of patients, we seem to see that the disease is no longer progressing,” but it is too early to know if the result from that small number of patients is meaningful, she says.

In his first surgery, Harada received 10 injections, each containing about 100,000 cells, on the sides of his lower spinal cord. After the procedure, he was able to move his limbs with strength and dexterity that surpassed his abilities before the treatment. While some ALS patients may see brief periods of small improvements or stabilization, this degree of recovery is unheard of. In the last few months, Harada says his abilities have slowly been regressing, although at a slower pace than before the treatment.

In this week’s procedure, instead of injecting cells into Harada’s lower
spine, a surgeon will place the cells into his upper spinal cord, a region that holds the large nerve cells that control breathing. Since ALS patients usually die of respiratory arrest, the researchers hope the treatment will protect motor neurons in the upper spinal cord and prevent or slow the loss of lung function.

Neuralstem’s cells are somewhat different than typical stem cells, in that they have a defined fate. By taking cells from a fetus of a particular gestation stage, the company generates cells that are still able to divide but turn into a specific cell type, such as a spinal cord cells. This unique property of Neuralstem’s cells enables the company to test potential drugs in specific central nervous system cell types in culture dishes. The company is currently searching for drugs that can protect and nurture neurons from the hippocampus, a part of the brain critical for forming and storing memories.

Another ALS trial, under way at the Mayo Clinic, is testing a  treatment that injects a patient’s own stem cells, isolated from fat tissue, into his or her spinal fluid. So far, two patients have undergone the procedure. Like the Emory trial, the Mayo Clinic study
<http://clinicaltrials.gov/ct2/show/NCT01609283?term=NCT01609283&rank=1>  is focused on safety. Although such stem cell treatments are still quite new and carry risks, the dire situation of ALS patients shifts the balance of risk and benefit. “When you have a disease like ALS, where the average survival is two to three years after diagnosis and it is uniformly fatal, investigators and the FDA think it’s ethical to try these more desperate approaches that carry potentially higher risk,” says Anthony Windebank <http://mayoresearch.mayo.edu/mayo/research/staff/windebank_aj.cfm> , a neurologist who heads the Mayo trial.

If the procedure proves safe, one of the next steps for the field would be to genetically modify the cells to produce specific growth factors likely to prevent motor neuron death, says Windebank. “If there’s any sign of efficacy with these approaches, then translation into the clinic would happen very rapidly.”

Landmark Surgery for ALS Patient Ted Harada Set for Today

http://www.benzinga.com/news/12/08/2851094/landmark-surgery-for-als-patient-ted-harada-set-for-today

Landmark Surgery for ALS Patient Ted Harada Set for Today

Louis Bedigian , Benzinga
Staff Writer

When NeuralStem (NYSE: CUR) announced that it had been successful in reversing the progression of ALS in 39-year-old Ted Harada, many wondered if researchers were finally on the cusp of a cure. Gizmodo chronicled the impressive story of the man, who showed signs of recovery last year after receiving an experimental stem cell.

Harada is scheduled to receive one final surgery in Atlanta today at the Emory University Hospital in Atlanta. This is the final part of an 18-patient Phase 1b trial. If all goes well, the study will advance to Phase 2.
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In April, Eva Feldman (the principal investigator for the trial; she is also the director of the A. Alfred Taubman Medical Research Institute and the U-M Health System’s ALS Clinic) said that the study, “reinforces our belief that we have demonstrated a safe, reproducible and robust route of administration into the spine for these spinal cord neural stem cells.”

“The publication covers data up to 18 months out from the original
surgery,” she said in a press release regarding the research. “However, we must be cautious in interpreting this data, as this trial was neither designed nor statistically powered to study efficacy.”

National news media outlets, including FOX and MSNBC, have been covering the study and the progress that Harada — who has reportedly become somewhat of a celebrity in Atlanta and within the medical community — has been making.

During the Phase 1b portion of the trial, NeuralStem’s primary goal is to prove that it is safe to inject stem cells into the spinal cord. If this
proves to be safe, more human patients will be enrolled in the next phase.