ALS Stem Cell Therapy Shows Safety and Efficacy in Early Clinical Trials

ALSNewsTodayhttp://alsnewstoday.com/2016/01/29/clinical-data-from-nsi-566-als-trials-presented-by-neuralstem/

ALS Stem Cell Therapy Shows Safety and Efficacy in Early Clinical Trials

Neuralstem reports NSI-566 slowed disease progression and improved muscle and lung strength

January 29, 2016

By Magdalena Kegel

Biopharmaceutical company Neuralstem presented new and potentially promising results from its clinical investigations of NSI-566 — human spinal cord-derived neural stem cells for the treatment of conditions including amyotrophic lateral sclerosis (ALS) — at the recent Phacilitate Cell & Gene Therapy World conference in Washington, D.C.

Mostly, the problem is due to improper blood cialis without prescription circulation and ways to enlarge penis can be used to deal with impotency and Ed. Canadian Neighbor Pharmacy decides to explain men how levitra vs viagra may help cope with erectile dysfunction (ED). Whether it is reducing general weakness, improving energy levels, performance and endurance: When it comes to natural methods to increase stamina, the following benefits can be enjoyed by users of these capsules: Aging and low immunity Fatigue and weakness Poor stamina and low energy Weak erection and erectile dysfunction in men. prescription viagra without The mighty Himalayas have many secrets that many people at the lower altitudes sildenafil price in india of Earth still don’t know. Karl Johe, the company’s chairman and chief scientific officer, reported that two clinical trials of NSI-566 in a total of 30 ALS patients have been completed and met safety endpoints. NSI-566 is also currently in a Phase 1 trial for treating paralysis due to chronic spinal cord injury, as well as in a Phase 1 trial to treat paralysis from ischemic stroke

The presentation emphasized the treatment’s consistently demonstrated biological activity and several modes of beneficial actions, such as motor neuron rescue, motor improvement, and neuronal integration of the stem cells. The data presented originated from both human and animal studies.

To date, NSI-566 cells have been administered to 40 patients across four investigational safety trials. The dosing ranges are between 1.2 million to 24 million cells per patient, and the treatment has shown a high safety profile, with both Neuralstem and collaborators at research institutions stating that data support the treatment’s further clinical development in all three indications.

“The consistent biological activity of motor improvement by NSI-566 across multiple disease conditions in humans supports our regenerative hypothesis and is consistent with our preclinical data,” Dr. Johe said in a press release. “Based on these encouraging results, we are preparing to conduct additional clinical trials in each of these incurable neurodegenerative indications.”

Data from both the Phase 1 and Phase 2 ALS trials showed that patients improved on multiple levels, including better lung capacity and muscle strength, and experienced slower ALS progression. Phase 2 results also revealed that more than half of the patients had a reduction in the ALS Functional Rating Scale (ALSFRS) decline compared to historical data. The remaining patients — most exhibiting very low grip strength at the study’s start — did not experience a change in their rate of decline.

Neuralstem said that it intends to limit the next ALS trial of NSI-566 to patients with enough muscle strength to potentially benefit from the therapy.

Stem cell trial seeks longer lives for victims of deadly ALS

 

Researchers at Emory University in the United States are hoping to extend the lives of patients diagnosed with the deadly neuro-degenerative disease, Amyotrophic lateral sclerosis (ALS). ALS kills by destroying a patient’s nervous system but in clinical trials, the scientists say injections of neural stem cells show promise in slowing the disease’s progress. Ben Gruber reports.
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Neuralstem’s $19.6M offering takes ALS bid through phase II

By Randy Osborne, Staff Writer
Neuralstem Inc.’s $19.65 million from a stock offering will help
advance the lead compound NSI-566 in amyotrophic lateral sclerosis
(ALS), which is “about halfway through” a Phase II trial, said CEO
Richard Garr.
Rockville, Md.-based Neuralstem is selling about 6.7 million shares
at $2.91 each in the offering. Each investor also gets a warrant to
buy half the number of shares purchased. Warrants bear an exercise
price of $3.64, and can be exercised for fi ve years.
Shares (NASDAQ:CUR) closed Friday at $2.97, down 19 cents.
Expected to close next week, the offering’s proceeds will get
Neuralstem through Phase II in the ALS effort with spinal cordderived
stem cells, as well as the small-molecule program, where
the company has “just completed a Phase Ib trial in major depressive
disorder,” Garr told BioWorld Today. “We’re looking at the data now,
and anticipate sometime in this quarter fi ling for a Phase II.”
Stem cell trials are neither much more expensive nor much cheaper
than tests of other therapies. “That’s always in the eye of the
beholder, isn’t it?” Garr noted. “Drug trials, especially for depression,
are expensive. Everybody knows what the FDA expects and what the
parameters are. It doesn’t cost us any more or any less than anybody
else.”
Cell therapy as a whole is “fairly expensive,” he said. “In terms of the
dollars per patient, it’s very expensive, but in terms of the numbers
of patients, because it’s fairly small, the overall cost is manageable.”
The Phase II trial in ALS got funding help from the National Institutes
of Health and from the ALS Association, he said.
“We have to wait six months after the last surgery for the trial to
end,” Garr said. “Sometime near the end of this calendar year, the
Phase II [in ALS] should be over completely.”
Neuralstem’s approach represents the world’s fi rst intraspinal
injections of stem cells. “This is a targeted surgery at various
segments of the spinal cord, and the cells actually go into the
motor neuron pools in those segments and synaptically integrate,”
Garr said. “There have been, in the past, people who have tried to
put what you would think of as adult stem cells – all kinds of bone
marrow and blood stem cells and things like that – into the spinalfl
uid cavity,” though such experiments took place “mostly in Mexico
and in Germany and other places,” as well as China, he said.
“Our approach is unique, actually rebuilding the circuitry,”
Garr said. “These cells don’t fl oat up and down in the spinal
fl uid, and they don’t migrate to the spinal cord. They’re going
in and creating new circuitry inside very specifi c segments
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groups of muscles, he noted. In ALS patients, when the
muscles that control breathing and swallowing give way, so
do the patients, not long afterward.
HUMAN DATA FUELING STOCK
Neuralstem also has been given clearance by the FDA to
start a spinal cord injury trial in complete paralysis patients,
using the same technology.
“Geron, of course, famously, had an approval from the FDA
[for trials] with their oligodendrocyte progenitor [GRNOPC-1]
cells to try to treat spinal cord injury,” Garr said. “I believe
they may have actually transplanted two or three patients
before they pulled the plug.”
Menlo Park, Calif.-based Geron last April disclosed in an SEC
fi ling that the assets related to the program were taken over
by Asterias Biotherapeutics Inc., a subsidiary of regenerative
medicine specialist Biotime Inc., of Alameda, Calif. The deal
involved transfers of common stock and warrants, along
with patents, regulatory fi lings and investigational new drug
applications fi led with the FDA for Geron’s Phase I safety
study with the cells. (See BioWorld Today, Jan. 26, 2009, Jan.
27, 2009, and April 5, 2013.)
“The mechanism of action by the cells, even though it’s the
same cells, is a little different [in spinal cord injury, where]
the idea is literally to build new circuitry to bridge the gap,
to bring function back to paralyzed patients,” Garr said. “In
ALS, even though patients lose their ability to walk, it’s not
because there’s a break in the signal coming down the spinal
cord from the brain. It’s because the muscles have atrophied
and died. Our main goal here is to improve the quality of life
and extension of life for these patients, is to keep them off
breathing machines for as long as possible.”
Neuralstem’s shares have been on the climb for about a
year. ”We don’t really talk about the stock that much,”
Garr said, because market changes are too hard to explain,
in most cases. “The clear answer is, there’s no substitute
for human data,” and interim data have been showing up in
presentations.
“A publication is coming out, we expect, on the Phase I trial [in
ALS],” he said. “Some of the patients went public, and it was
in Newsweek. It was pretty clear, just from a lay perspective,
they were seeing a defi nite benefi t to a number of patients, and
long term, not just marginal but signifi cant, quantitative actual
improvement that no one has seen before, and that has lasted
a very long time.”

Decreasing Progression, Increasing Function

A small Phase I ALS study is getting big results with stem cell treatment.

By Zac Haughn, Senior Associate Editor

http://bmctoday.net/practicalneurology/2013/10/article.asp?f=decreasing-progression-increasing-function#

For neurologists who see amyotrophic lateral sclerosis patients (ALS), techniques for coping and support take up far more room in a doctor’s bag than treatments and drugs. Significantly improving quality of life is as tantalizing as it is far away. Except for a small group of patients receiving human fetal neural stem cells in a small Phase I study: Six study patients experienced a stable, very slowly progressing or improved disease course at more than approximately 700-to- 850 days post-surgery. The trial’s most impressive responder couldn’t walk without a cane before his treatment of one million cells—500,000 on either side of his lower spine; after several months he walked unaided in a 2.5 mile walk-a-thon.1

The company behind the study, Neuralstem, Inc., says their stem cell technology enables the production of neural stem cells of the human brain and spinal cord in commercial quantities, and the ability to control the differentiation of these cells constitutively into mature, physiologically relevant human neurons and glia. They received FDA approval to commence a NSI-566/ALS Phase II trial in April 2013, following conclusion of the Phase I trial to test the safety of its stem cells and transplantation surgery in patients with ALS in February 2013.

The Phase I safety trial enrolled 18 patients. The trial began with 12 late- to mid-stage ALS patients who received a series of injections in the L2-L4 lumbar region. The first six patients were all non-ambulatory with permanent paralysis. Of these, the first three patients were treated with five unilateral cell injections, while the next three patients received 10 bilateral injections in the same region. The trial then progressed to patients who were ambulatory. The first three of these received five unilateral injections. The next three patients received 10 bilateral injections in the same lumbar region.

The aforementioned six study patients who experienced positive results shared two common clinical characteristics. They had no bulbar features of ALS, a form of the disease that destroys motor neurons in the corticobulbar area of the brainstem in the early stages and typically progresses faster than the limb-onset ALS. Additionally, these patients all received stem cell transplantation early in the course of their disease (at an average of two years, one month after symptom-onset). Two of the patients showing stabilization or improvement were among the three to receive transplants in both the lumbar and cervical regions.

Of the nine remaining patients in the trial, three subjects had a long disease course (5.6, 11.6 and 12.7 years of known disease), at the time of their transplantation, likely representing atypical ALS, and have had little change in the trajectory of their disease. Finally, six of the trial patients died of their disease, seven-to-30 months after surgery. Two of these patients had features of bulbar ALS at the time of their transplantation.

The NSI-566/ALS Phase II dose escalation and safety trial will expand to two centers. The trial is designed to treat up to 15 patients, in five different dosing cohorts, increasing to a maximum of 40 injections, and 400,000 cells per injection based on safety. (Phase I topped out at 15 injections of 100,000 cells each.) The first 12 patients will receive injections in the cervical region of the spinal cord only, where the stem cells could help preserve breathing function. The final three patients will receive both cervical and lumbar injections.

Neuralstem received approval from the FDA to move into the cervical (upper back) stage of the trial in the fall of 2011. The first of six patients in the cervical cohorts to receive stem cells was treated on November 18, 2011, which marked the first FDA-approved intraspinal surgical transplantation of stem cells into the cervical region. The trial then advanced to the final cervical cohort of three patients. The FDA approved the return of three patients from earlier cohorts to receive cervical transplants, making them the first to receive stem cell transplantation in both the lower and upper parts of their spinal cord. The first of these were treated in June 2012 and received five stem cell injections into the cervical region of the back, for a total of 15 injections, including the 10 lower-back injections previously received. The last patient in the Phase I trial was treated in August 2012. The trial was designed as a safety trial to treat 18 patients, and conclude six months after the final surgery.

For more on the team’s work, Practical Neurology talked to Eva Feldman, MD, Russell N. DeJong Professor of Neurology, Director of the A. Alfred Taubman Medical Research Institute, and Director of the Program for Neurology Research and Discovery at the University of Michigan, and Karl Johe, PhD, Neuralstem Chief Scientific Officer and developer of the cells used in the trial.
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Can you talk about your Phase I findings and the data you presented at the Canadian Neurological Sciences Federation Congress?

Dr. Feldman: As we continue to analyze data from Phase I of our trial, we continue to be pleased with the results. While the trial was designed to test the safety of direct intraspinal injections of stem cells in patients with ALS, we have found that a subset of patients have shown little progression of their disease, in some cases more than two years since surgery.

As we have reported, these individuals had no bulbar features of ALS and surgical transplantation occurred early within the course of their disease (average of two years and one month after symptom onset at the time of surgery). These very preliminary 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.

The FDA recently approved your Phase II trial. What are your objectives and what do you hope to learn?

Dr. Feldman: Our goal for the second phase of the trial is to continue to demonstrate the safety of the cells and of our methodology. We have designed this phase of the trial to further measure efficacy of the treatment and to deliver more stem cells with each operation. Our ultimate goal is to accumulate sufficient safety data and positive exploratory endpoints to progress to a widespread Phase III trial to test the efficacy of this new therapy in a larger cohort of patients.

What are the challenges facing stem cell therapy in ALS?

Dr. Feldman: We have taken great care to design the trial so that the surgery is unlikely to compromise the remaining function of ALS patients who enter the trial. The challenge is three fold. First, can we continue to safely deliver these stem cells to the spinal cord? Second, because this is a different type of transplant compared to larger whole organ transplants (like for example a heart or kidney), can we discontinue transplant rejection drugs after a period of initial administration? And, finally, the third and key question: Can we measure efficacy of our treatment, i.e. in the simplest of terms, does stem cell therapy work in ALS patients?

Can you talk about cultivating human fetal neural stem cells? How are they different than embryonic stem cells?

Dr. Johe, Chairman of Neuralstem: Neuralstem’s FDA approved cGMP cell banks are cultured in serum free medium. The cells have a mitotic capacity of roughly 60 doublings, so unlike ES cells, they are not “immortal.” The cells constituitively differentiate into regionally specific and relevant phenotypes; they do not have to be “driven” to their desired fate unlike ES cells. This makes for a more robust and efficient and predictable manufacturing process. ES cells for instance need to be “driven” to a specific neural precursor fate, as opposed to their many other potential fates, then culled for purity/safety purposes. Our culture methods start with the right neural stem cell for a particular purpose.

  1. Fox, C. FDA-approved Stem Cell Trial Dramatically Slows ALS. Biosciencetechnology.com; 2013-05-30.

ALS Stem Cell Therapy: Too Soon to Tell

Meeting Coverage

ALS Stem Cell Therapy: Too Soon to Tell

http://www.medpagetoday.com/MeetingCoverage/ANA/42288

Published: Oct 15, 2013

By John Gever, Deputy Managing Editor, MedPage Today

http://www.medpagetoday.com/MeetingCoverage/ANA/42288

NEW ORLEANS — Phase I results of a neural stem cell treatment for amyotrophic lateral sclerosis showed hints of promise but solid evidence of efficacy will have to wait for the next round of tests, a researcher said here.

Among 15 patients receiving stem cell injections into their spinal cords in the dose escalation study, nine have survived and the three receiving the most extensive injections showed stabilization of functional scores after almost 2 years of follow-up, said Eva Feldman, MD, PhD, of the University of Michigan.

The treatment also appeared to be safe, with no evidence of spinal cord damage resulting from the procedures or other major complications, she told attendees at the annual meeting of the American Neurological Association, of which she is president.

But “whether there is a benefit, we simply don’t know” from this small trial, said Feldman.

Phase II studies testing larger stem cell doses have recently begun, with the first three patients having undergone procedures at Feldman’s clinic and at Emory University in Atlanta. Her report here was the first to provide full phase I results, which have also been submitted for journal publication, she said.

There is currently no disease-modifying treatment available for the neurodegenerative disease that affects motor neurons in the spinal cord. A few symptomatic therapies are used but they are only modestly effective.

The influences that http://respitecaresa.org/job/directcarestaff/application-11-17/ order generic cialis existed before the success of the treatment and some of them are really cheap are having 100 percent success rate since their release in the market. The doctor diagnoses and treats sildenafil india wholesale various conditions and their treatment can lead to ED such as anti-depressants : TCA (tofranil/pamelor), SSRI, chlorpromazine and valium barbiturates.Kamagra – An erectile dysfunction treatmentKamagra tablets are produced by Ajanta Pharmacy. Tamoxifen serves like an estrogen receptor antagonist in breast tissue and its commonly used for the preparation of this particular capsule are clinically approved by health experts. cialis no prescription This ayurvedic plant can be taken vardenafil 20mg tab as a dietary supplement. With stem cell therapy, the goal is, at a minimum, to prevent further neurodegeneration and disability progression. In the work reported by Feldman, the source material is a proprietary line of neural stem cells developed by Neuralstem. of Rockville, Md.

These cells are capable of self-renewal and also differentiating into both glial and neuronal progenitor cells. The former differentiate further into astrocytes and oligodendrocytes, while the latter may develop into functional neurons.

Extensive preclinical work in rodents and, later, pigs established that preservation of spinal cord function after mechanical and/or chemical injury could be achieved with the stem cells, and that the spinal cord injections could be done safely, Feldman said.

She said the exact mechanism of benefit remains unclear, but the animal studies suggested that the stem cells act to protect and preserve endangered nerve synapses in the spinal cord. “It’s definitely not replacement” of destroyed synapses, she said.

The human tests began in 2010 with three patients with advanced nonambulatory ALS, who received injections on one side of the lumbar spine. A second nonambulatory cohort received bilateral lumbar injections.

Feldman and colleagues then advanced the trial into ambulatory patients, with three-patient cohorts receiving unilateral lumbar and cervical injections.

The final cohort of three patients received bilateral lumbar injections followed about 18 months later by unilateral cervical injections.

Except in that last cohort, efficacy outcomes were mixed. Six of the 12 patients in the earlier cohorts showed relatively steep declines in revised ALS Functional Rating Scale (ALSFRS-R) scores, while declines were slower in the others. But scores remained essentially the same as at baseline — in the range of 32 to 45 points — in the three patients receiving both lumbar and cervical injections.

One theme emerging from the earlier cohorts was that patients with bulbar signs “did not do well,” Feldman said.

Autopsy findings in phase I participants who died indicated that the stem cells had survived in these patients and that there was no suggestion that the therapy had played a role in their deaths.

In the phase II study, the first groups of patients received 200,000 cells per injection, with five injections per patient along the spinal cord on each side — a total of 2 million cells. Subsequent cohorts will receive 10 injections per side and with more cells per injection, reaching an eventual total dose of 8 million cells.

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.

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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

Mich. university joins Lou Gehrig’s clinical trial

USAToday

USATodayhttp://www.usatoday.com/story/news/nation/2013/04/18/lou-gehrigs-disease-clinical-trial/2094867/

Mich. university joins Lou Gehrig’s clinical trial

Robin Erb, April 18, 2013

Study is only one if its kind because neural stem cells are injected into the spinal cord.

(Photo: Kimberly P. Mitchell, Detroit Free Press)

Story Highlights

  • University of Michigan joins Emory University in Atlanta in the clinical trial
  • In the study, human neural cells are injected directly into patients’ spinal cord
  • Currently, there is no cure for amyotrophic lateral sclerosis or ALS

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A clinical trial using human neural stem cells to halt or even reverse the deadly effects of Lou Gehrig’s disease may begin recruiting patients at the University of Michigan as early as this summer.

Until now, the surgeries have taken place at Emory University in Atlanta, led in part by a former U-M neurosurgery resident, Dr. Nicholas Boulis, and overseen by U-M physician and neurology professor Dr. Eva Feldman. The trial is the only one if its kind because the neural stem cells are injected directly into the spinal cord.

At Emory, 15 patients underwent surgery during Phase I, which was focused primarily on safety. At least one appeared to improve dramatically for a short time, regaining use of his legs. Feldman attended each surgery.

The go-ahead Monday by the U.S. Food and Drug Administration to expand the trial to Phase II means the surgeries can take place at U-M as well. The second phase will involve 15 patients split between U-M and Emory, according to U-M and the provider of the stem cells, Maryland-based Neuralstem.

Participants must be ambulatory and live close to those universities.

Currently, there is no cure for amyotrophic lateral sclerosis, often called ALS or Lou Gehrig’s disease. One drug extends life, but usually just by months.

The disease moves swiftly, with most people living two to five years after diagnosis. ALS deadens nerves, withers muscles and, in a final assault, cuts off a person’s ability to breathe even as their mind remains intact.

Dave Murray, 55, of Sterling Heights, Mich., said Wednesday he was “thrilled” by the trial’s move to U-M, though it’s unclear whether he would be eligible.

The former security alarm installer already has been a participant in two other clinical trials.

“I might be past the point of eligibility, but I’m always happy with any news that we might be moving forward,” he said. “It’s such a horrible disease.”

Two years ago, he was sitting with his coat draped over his arms on an exam table when a doctor gave him the diagnosis, and told him he had three, maybe five, years left. Only the sound of his doctor washing her hands at the tiny sink broke the suffocating silence that followed.

“The doctor, she was very compassionate,” recalled his wife, Sheryl Murray. “She left us room to cry. She said, ‘Take whatever time you need.'”

Feldman, the physician overseeing the trial, has spent her career stalking ALS and searching for a cure. She has watched helplessly as countless patients have died over the years — as many as five a week and as young as 16, she told the Free Press in 2012.

The trial is still early and will move slowly as she and other researchers continually assess their results and report the findings to the FDA.

Phase II means researchers can begin assessing the effectiveness of the procedure, not just its safety. In a lengthy surgery, a specially designed apparatus is attached to the spine and inserts human stem cells into a person’s spinal cord.

Feldman and others theorize that these new cells, once in the spinal cord, act as nursemaids to damaged nerve cells, sending out repair signals, and somehow halting the progression of the disease.

The cells were derived from a cell line that dates to the spinal cord of an aborted fetus in 2000. The cells are different from the embryonic stem cells that were the subject of a controversial ballot proposal in Michigan in 2008, when voters approved lifting the ban on embryonic stem cell research.

U-M’s Institutional Review Board, which oversees clinical trials to make sure they are scientifically and ethically sound, must sign off on the experimental surgeries before U-M begins recruiting.

Despite its limitations, the trial offers hope for those who see little of it once they are handed a diagnosis, said Sue Burstein-Kahn, executive director of ALS of Michigan. Her father died of ALS.

She called the FDA approval “wonderful” in that it could provide insights to a treatment for future patients.

“We need ALS research fast-tracked,” she said.

U-M may recruit ALS patients for stem cell clinical trial

Detroit Free Press
Detroit Free Presshttp://www.freep.com/article/20130417/NEWS06/304170160/U-M-may-recruit-ALS-patients-stem-cell-clinical-trialDr. Eva Feldman is overseeing the clinical trial. / Detroit Free Press

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By Robin Erb
Read the full article by clicking here

A clinical trial using human neural stem cells — injected into the spinal cord — to halt or even reverse the deadly effects of Lou Gehrig’s Disease may begin recruiting patients at the University of Michigan as early as this summer.

Until now, the surgeries have taken place at Emory University in Atlanta, led in part by a former U-M neurosurgery resident, Dr. Nicholas Boulis, and overseen by U-M physician and neurology professor Dr. Eva Feldman. The trial is the only one if its kind because the neural stem cells are injected directly into the spinal cord.

At Emory, 15 patients underwent surgery during Phase I, which was focused primarily on safety. At least one appeared to improve dramatically for a short time, regaining use of his legs. Feldman attended each surgery.

The go-ahead Monday by the U.S. Food and Drug Administration to expand the trial to Phase II means the surgeries can take place at U-M as well. The second phase will involve 15 patients split between U-M and Emory, according to U-M and the provider of the stem cells, Maryland-based Neuralstem.

Participants must be ambulatory and live close to those universities.

Currently, there is no cure for amyotrophic lateral sclerosis, often called ALS or Lou Gehrig’s disease. One drug extends life, but usually just by months.

The disease moves swiftly, with most people living two to five years after diagnosis. ALS deadens nerves, withers muscles and, in a final assault, cuts off a person’s ability to breathe even as their mind remains intact.

Dave Murray, 55, of Sterling Heights said Wednesday he was “thrilled” by the trial’s move to U-M, though it’s unclear whether he would be eligible.

The former security alarm installer already has been a participant in two other clinical trials.

“I might be past the point of eligibility, but I’m always happy with any news that we might be moving forward,” he said. “It’s such a horrible disease.”

Two years ago, he was sitting with his coat draped over his arms on an exam table when a doctor gave him the diagnosis, told him he had three, maybe five, years left. Only the sound of his doctor washing her hands at the tiny sink broke the suffocating silence that followed.

“The doctor, she was very compassionate,” recalled his wife, Sheryl. “She left us room to cry. She said ‘Take whatever time you need.’ ”

Feldman, the physician overseeing the trial, has spent her career stalking ALS and searching for a cure. She has watched helplessly as countless patients have died over the years — as many as five a week and as young as 16, she told the Free Press in 2012.

The trial is still early and will move slowly as she and other researchers continually assess their results and report the findings to the FDA.

Phase II means researchers can begin assessing the effectiveness of the procedure, not just its safety. In a lengthy surgery, a specially designed apparatus is attached to the spine and inserts human stem cells into a person’s spinal cord.

Feldman and others theorize that these new cells, once in the spinal cord, act as nursemaids to damaged nerve cells, sending out repair signals, and somehow halting the progression of the disease.

The cells were derived from a cell line that dates to the spinal cord of an aborted fetus in 2000. The cells are different from the embryonic stem cells that were the subject of a controversial ballot proposal in Michigan in 2008, when voters approved lifting the ban on embryonic stem cell research.

U-M’s Institutional Review Board, which oversees clinical trials to make sure they are scientifically and ethically sound, must sign off on the experimental surgeries before U-M begins recruiting.

Despite its limitations, the trial offers hope for those who see little of it once they are handed a diagnosis, said Sue Burstein-Kahn, executive director of ALS of Michigan. Her father died of ALS.

She called the FDA approval “wonderful” in that it could provide insights to a treatment for future patients.

“We need ALS research fast-tracked,” she said. “This isn’t even about a cure. People would be happy with the treatment.”

Contact Robin Erb: 313-222-2708 or rerb@freepress.com.

Kofi Myler

What’s next?

■A University of Michigan Institutional Review Board will review the protocols for the trial, considering the ethics and science of the experimental procedure.
■ The university cannot begin recruiting until the the board OKs the trial. The approval process could take months.
■ Once approval is given, the research team, made up of doctors, nurses, researchers and others, may begin recruiting. Because the trial will likely involve fewer than 15 patients at U-M, it’s unclear how they will be recruited.
■U-M most likely will post recruiting information on its clinical trials website,www.umclinicalstudies.com. For general information for ALS patients wishing to take part in U-M research, e-mail jkballar@umich.edu.

Kofi Myler
Kofi Myler

 

 

Scientists Seek Stem Cell Cure For Spinal Cord Injuries

WAMU

WAMUScientists Seek Stem Cell Cure For Spinal Cord Injuries

By: Emily Berman // January 25, 2013

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or continue to read the condensed transcript here
Thomas Hazel PhD and Richard Garr @Neuralstem
Thomas Hazel, Ph.D, and Richard Garr pose in their neural stem cell laboratory, in Rockville, Md.

Neuralstem, a Rockville-based biotech company, has just been approved by the FDA to begin implanting stem cells into people with spinal cord injuries. While there’s a long scientific journey ahead, this trial could mean hope for paraplegic and quadriplegic patients all over the world.

The nervous system works, by sending electrical signals up and down the spinal cord. Degenerative diseases like Multiple Sclerosis, ALS, or Parkinsons impair the ability to send those signals. “There’s a gap,” says Richard Garr, co-founder and CEO of Neuralstem. He says there’s something that’s blocking signals from getting through.

Unlike our skin cells, the central nervous system doesn’t repair itself when damaged. “You’re born with a certain number of neurons, and that’s the way it is.” says Garr.

In 1998, Garr met Karl Johe, Ph.D. who had made a discovery while working at NIH. Around week 7 or 8, when the human embryo is the size of the tip of your thumb, there are cells in the brain area of the embryo that have all the information they need to become neurons. These are called ‘neural stem cells.’ Dr. Johe developed and patented techniques for extracting and multiplying these cells, then implanting them as ‘replacement neurons.’

“We’re actually putting in cells that are going to turn into neurons that are going to bridge the gap,” he says. “We’re creating new circuitry.”

Dr. Thomas Hazel, the head of Research at Neuralstem, explains one of the most important aspects of neural stem cells is that they can easily replicate. The lab received a donated tissue from a legally aborted fetus about 10 years ago, and they’ve been using those cells ever since.

The surgery recently approved by the FDA is much like an earlier trial, done on ALS patients. The surgeon injects neural stem cells directly into the patient’s spinal cord. Those stem cells grow into neurons, and if all goes according to plan, they help messages pass from the brain to muscles.

The ALS trial is waiting for phase 2 approval, but patients, on their own, are reporting some improvement. The spinal cord trial will take on eight patients who have experienced injury in the past 1 to 2 years in the thoracic spine, which is from the chest, down. Neuralstem will announce the partner hospitals in the coming months, and hope to start the surgeries in summer 2013.