http://www.youtube.com/watch?v=IHDODOY1_Hc

Slayer
A quick slip of the tongue can get it snipped, talk fast or let the gun unleash its whip as if you were living in alternate history well-equipped, vampires slaying rubber rounds on your whip with the simple tip of their fangs now you can #39;t drive away. Mansion lurks behind you go inside an elevator, taking you through its spine to the tune of Yamashita on the keys of the organ chimes as a Skeleton Ape wants to harvest yours, proclaiming “they #39;re mine!” by throwing barrels of rotten goods upon the floor, a pon de replay of this would be unimaginably horrific full, but the gold collected makes this trip a bit less of a sore. No reason to have it, but the color makes you feel lavish in a place filled with strange beings with bad habits. Constantly twitching like you had Parkinson #39;s disease, to react quickly and avoid being sliced by these armored fleas. You think nature #39;s bad, wait til you see the axes these creatures have, as they go from x, y, to z in your face inside this pad. Escaping is now your number one priority, but these mirrors suck you in like portals with a Valve-like authority to a place that parallels where you were, but something #39;s off, the lights are, so are your arms, a few yards away they #39;re hanging from the loose wooden ones of a rocking chair in a hallway, all you can do is stare, as everything around you turns all grey… a mist forms in the air, see-through figure with no face rises from the stairs, you think you have x-ray vision, but no it #39;s just not …From:ShakatheShockerViews:1 0ratingsTime:01:35More inMusic

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Slayer – Video

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http://www.youtube.com/watch?v=tupO8OUFfUQ

Cognitive-Communication Treatments Parkinson #39;s Disease | Aimee Mooney, MS, CCC-SLP
Parkinson #39;s Disease is a chronic and progressive neurodegenerative disease that affects1.5 million people with an additional 60000 new diagnoses made annually. Over 85% of the diagnoses are made in individuals over age 50. With the Baby Boomers increasing in age, Speech and Language Pathologists need to be ready to treat this population. The presentation of the disease is individualized and multifaceted, including both motor and non-motor symptoms. It is unpredictable and complex, with progression leading to increased disability. Parkinson #39;s Disease moves through Stages and has impact on cognition, communication, voice and swallow function. This course will provide you with a foundational understanding of the etiology of PD an it #39;s subsequent effect on function. It will introduce the tools you need to address each of thes above domains during the stage progression. You will have up-to-date information on the best evaluation and assessment tools for this population. You will learn about recent, evidence-based treatments for cognition and voice. You will develop confidence in understanding the role of the SLP in leading coordinated team treatment of patients with Parkinsons and Parkinsons #39; + Syndromes. Watch the full presentation at http://www.videoce.tvFrom:ahcEducationViews:0 0ratingsTime:04:36More inEducation

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Cognitive-Communication Treatments

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http://www.longevitymedicine.tv/cognitive-communication-treatments/

http://www.youtube.com/watch?v=NK-a_FzqRgs

Mucuna Formulation No.25831 for Parkinson #39;s Disease: Pankaj Oudhia #39;s Medicinal Plant Database
Mucuna pruriens (L.) DC. Formulations for Parkinson #39;s disease from Pankaj Oudhia #39;s Medicinal Plant Database: Septenary Ingredients Important Septenary Ingredients of Mucuna pruriens (Wild Collection) based Traditional Herbal Formulations used for treatment of Parkinson #39;s disease. In Indian Traditional Healing thousands of Mucuna based Traditional Herbal Formulations are used for treatment of Parkinson #39;s disease. Most of these Herbal Formulations are still waiting for documentation. Pankaj Oudhia has collected information about +40000 promising Formulations during his Ethnobotanical surveys during 1990-2012. Present series is a part of the documentation work. – This video is a part of Compilation of Pankaj Oudhia #39;s Research Works at Indira Gandhi Agricultural University, Raipur, India (1990-2001), – This video is a part of Pankaj Oudhia #39;s report on Indo-African Traditional Healing and Forgotten Herbal Formulations. – This video is a part of Pankaj Oudhia #39;s report on Endangered Species of India. – This video is a part of Pankaj Oudhia #39;s report on Forgotten Herbal Formulations of the World with special reference to Asia. – This video is a part of Pankaj Oudhia #39;s report on North American and European Medicinal Species in Traditional Healing of Asia. – This video is a part of Pankaj Oudhia #39;s series on Forgotten Traditional Formulations for Parkinson #39;s disease. – This video is a part of Pankaj Oudhia #39;s report on Mucuna species in Indian Traditional Healing. – This video is a …From:Pankaj OudhiaViews:0 0ratingsTime:00:13More inScience Technology

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Mucuna Formulation No.25831 for Parkinson’s Disease: Pankaj Oudhia’s Medicinal Plant Database – Video

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http://www.longevitymedicine.tv/mucuna-formulation-no-25831-for-parkinsons-disease-pankaj-oudhias-medicinal-plant-database-video/

Dear Drs. Donohue and Roach My dad, age 77, has just been told he has Parkinson’s disease. We, his children, aren’t sure of the implications of this for him, our mother or us. Currently, he isn’t greatly impaired. He moves more slowly, but his thinking is clear. His hands don’t shake.

What can we expect? B.B.

Answer Parkinson’s disease, PD, is estimated to affect a million North Americans. It’s a difficult illness difficult to have, difficult to treat and difficult to understand. Most of the time, the illness strikes people over the age of 60, and most cases of Parkinson’s disease are not inherited.

The underlying problem is a depletion of dopamine, a brain chemical that is vital to smooth, coordinated muscle movement and to thinking. Four prominent signs distinguish this illness. One is tremor, a shaking of the hands when they’re at rest, as they are when they’re lying in the lap. The index finger and thumb constantly roll over each other. Muscle rigidity is obvious when a doctor tries to move the arms or legs of the patient. They tend to be tightly frozen. Parkinson’s patients find it hard to button a shirt or tie shoes. Bradykinesia, slowness of movement, is another sign of PD. Typically, patients walk with slow, shuffling steps. They’re quite prone to falls. As times passes, many patients develop trouble with clear thinking.

The treatments for Parkinson’s disease are many. Often the first choice is Sinemet, a combination of levodopa and carbidopa. It restores brain dopamine levels. I’ll mention some other drugs to give you an idea of available medicines, but I can’t elaborate on the way they work space isn’t available for that. Amantadine, Artane, Requip and Comtan are but a few of the Parkinson’s medicines that can be turned to if Sinemet fails to bring a satisfactory response.

From the time of diagnosis, Parkinson’s patients average 10 more years of life.

Dear Drs. Donohue and Roach Doctors, three, told me they thought I had ovarian cancer and that I needed urgent surgery. I was taken to surgery but I didn’t have ovarian cancer. I had a dermoid cyst.

How come three doctors, all of whom had me get ultrasounds, couldn’t diagnose this without sending me to surgery? N.C.

Answer Dermoid cysts contain cells that belong to skin, hair, oil glands, teeth, muscle, lungs and the digestive tract. Although ultrasound pictures of the ovary are able to furnish an answer on the nature of such a mass, the pictures don’t always provide a definitive answer.

Write Drs. Paul Donohue and Keith Roach at P.O. Box 536475, Orlando, Fla. 32853-6475.

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A primer on Parkinson's disease

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http://www.longevitymedicine.tv/a-primer-on-parkinsons-disease/

–Moving Day, A Walk for Parkinson’s, to benefit the Parkinson Foundation of the National Capital Area and the National Parkinson Foundation–

WASHINGTON, Oct. 29, 2012 /PRNewswire-USNewswire/ –The National Parkinson Foundation (NPF) in partnership with Parkinson Foundation of the National Capital Area (PFNCA) is holding Moving Day, a fundraising walk for Parkinson’s disease (PD) in Washington, D.C. Moving Day will be held at Nationals Park on Sunday, November 4th with gates opening at 8:30 AM. The money the local community raises through Moving Day will help improve the lives of Parkinson’s patients and families affected by the disease in the greater D.C. area.

Each walk will feature a “Movement Pavilion,” with activities such as yoga, Pilates, Tai Chi, dance and much more. Studies show that movement is beneficial and proven to help manage the symptoms of PD, improving flexibility and mobility. The aim is to encourage people to stay active and move for better health.

Katie Couric joined Moving Day last year as honorary national chair to help spread awareness about the disease and promote NPF’s goal of generating funds to support needed research for PD. Couric watched her father battle PD for years. “I am proud to be a part of this mission and in doing so, honor my wonderful father, who was a true profile in courage as he soldiered on every day to remain an active and vibrant part of the family he so loved,” said Couric.

People who take part in Moving Day become part of a nationwide movement to beat Parkinson’s by supporting education and outreach, cutting-edge research aimed at better treatment and care, advancement of clinical care through healthcare professional training and raising general awareness about the disease.

Almost everyone is touched by Parkinson’s in one way or another with an estimated 1 million people in the United States living with the disease. To learn more about Moving Day Washington, D.C. and how you, your family and friends can get involved, please visit http://www.movingdaydc.org.

About Parkinson’s DiseaseParkinson’s disease is a neurodegenerative brain disorder that progresses slowly in most people with PD. When 60 to 80 percent of the dopamine-producing cells in the brain are damaged, and do not produce enough dopamine, the motor symptoms of Parkinson’s disease appear. In the United States, 50-60,000 new cases are diagnosed each year, adding to the 1 million people who have Parkinson’s disease. It is estimated that 4 to 6 million people around the world have Parkinson’s.

About The National Parkinson Foundation (NPF)Founded in 1957, NPF’s mission is to improve the quality of care for people with Parkinson’s disease. NPF has funded more than $164 million in care, research and support services. For more information about NPF and the Moving Day event, please visit http://www.parkinson.org or call toll-free 1-800-4PD-INFO (473-4636).

About Parkinson Foundation of the National Capital Area (PFNCA)PFNCA is the largest local provider of support, education and exercise programs for Parkinson’s patients and their loved ones. Exercise, Dance, Yoga, Pilates, Choir and Aerobics classes are available every week and there is no charge for Parkinson’s community members to participate. Connect with us by calling 703-734-1017 or visit http://www.parkinsonfoundation.org.

Contact: Lou Nistler Executive Director Parkinson Foundation of the National Capital Area lnistler@parkinsonfoundation.org 703-734-1017

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It's Time for Washington, D.C. To Get "Moving" For Parkinson's Disease

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http://www.longevitymedicine.tv/its-time-for-washington-d-c-to-get-moving-for-parkinsons-disease/

Freddie Roach (L) said his Parkinson’s had no impact upon his training of Amir Khan (AP)Amir Khan has a history of finding someone to blame after he loses a fight. When he was beaten by Lamont Peterson in December, Khan fingered referee Joe Cooper and the three judges before settling on the so-called “Mystery Man,” Mustafa Ameen.

Khan and his team ignored the fact they’d competed in a compelling fight that was very close and which could have gone either way. Could Khan have been declared the winner in that fight? Absolutely. But was it an outrageous injustice that Peterson won it? Absolutely not.

Khan returned to the ring on July 14 in Las Vegas, but it didn’t turn out as he planned. Angered by pre-fight taunts from trainer Angel Garcia, Khan fought the wrong style and was knocked out by Danny Garcia in the fourth round.

Instead of accepting the blame for that, on Tuesday, he found another culprit: Trainer Freddie Roach. At a news conference to announce his Dec. 15 match in Los Angeles with Carlos Molina, Khan told reporters that he replaced Roach with Virgil Hunter as his trainer after the Garcia loss because Roach’s Parkinson’s disease was impacting his ability to coach.

It’s hard to see him older and getting worse. I wish him the best. Freddie, with the Parkinson’s disease, he was struggling with instructions and couldn’t move as well.

Roach has battled Parkinson’s for years. He is plagued by tremors, but he’s been named Trainer of the Year by the Boxing Writers Association of America five times. He’s won it in three of the last four years and in four of the last six.

Roach angrily disputed Khan’s contention and said he, not Hunter, would still be training Khan had he agreed to walk away from several of his other fighters.

Khan had followed Roach around the world to train and, not unreasonably, wanted a trainer who would give him 100 percent of his attention. Because of his success, Roach is one of the world’s most-sought trainers. He said he understood Khan’s decision to leave, but insisted it had nothing to do with his Parkinson’s.

If that was true, why would he say to me, ‘Fire Manny Pacquiao and Chavez Jr.’, and they’ll keep me? Him, his father, his lawyer and his uncle all said that.It had nothing to do with Parkinson’s.Parkinson’s had nothing to do with it. They know that. And I wish them the best of luck.

Khan is a skilled fighter who will do well under Hunter. He’s also at a point in his career where he needs to work with someone who will give him his undivided attention and help bring out his many skills. If he loses to Molina, he’ll be all but done as a big-time attraction.

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Freddie Roach disputes Amir Khan’s contention that Parkinson’s is impacting his coaching ability

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http://www.longevitymedicine.tv/freddie-roach-disputes-amir-khans-contention-that-parkinsons-is-impacting-his-coaching-ability/

ScienceDaily (Oct. 19, 2012) By reprogramming skin cells from Parkinson’s disease patients with a known genetic mutation, researchers at the Salk Institute for Biological Studies have identified damage to neural stem cells as a powerful player in the disease. The findings, reported online October 17th in Nature, may lead to new ways to diagnose and treat the disease.

The scientists found that a common mutation to a gene that produce the enzyme LRRK2, which is responsible for both familial and sporadic cases of Parkinson’s disease, deforms the membrane surrounding the nucleus of a neural stem cell. Damaging the nuclear architecture leads to destruction of these powerful cells, as well as their decreased ability to spawn functional neurons, such as the ones that respond to dopamine.

The researchers checked their laboratory findings with brain samples from Parkinson’s disease patients and found the same nuclear envelope impairment.

“This discovery helps explain how Parkinson’s disease, which has been traditionally associated with loss of neurons that produce dopamine and subsequent motor impairment, could lead to locomotor dysfunction and other common non-motor manifestations, such as depression and anxiety,” says Juan Carlos Izpisua Belmonte, a professor in Salk’s Gene Expression Laboratory, who led the research team. “Similarly, current clinical trials explore the possibility of neural stem cell transplantation to compensate for dopamine deficits. Our work provides the platform for similar trials by using patient-specific corrected cells. It identifies degeneration of the nucleus as a previously unknown player in Parkinson’s.”

Although the researchers say that they don’t yet know whether these nuclear aberrations cause Parkinson’s disease or are a consequence of it, they say the discovery could offer clues about potential new therapeutic approaches.

For example, they were able to use targeted gene-editing technologies to correct the mutation in patient’s nuclear stem cells. This genetic correction repaired the disorganization of the nuclear envelope, and improved overall survival and functioning of the neural stem cells.

They were also able to chemically inhibit damage to the nucleus, producing the same results seen with genetic correction. “This opens the door for drug treatment of Parkinson’s disease patients who have this genetic mutation,” says Belmonte.

The new finding may also help clinicians better diagnose this form of Parkinson’s disease, he adds. “Due to the striking appearance in patient samples, nuclear deformation parameters could add to the pool of diagnostic features for Parkinson’s disease,” he says.

The research team, which included scientists from China, Spain, and the University of California, San Diego, and Scripps Research Institute, made their discoveries using human induced pluripotent stem cells (iPSCs). These cells are similar to natural stem cells, such as embryonic stem cells, except that they are derived from adult cells. While generation of these cells has raised expectations within the biomedical community due to their transplant potential — the idea that they could morph into tissue that needs to be replaced — they also provide exceptional research opportunities, says Belmonte.

“We can model disease using these cells in ways that are not possible using traditional research methods, such as established cell lines, primary cultures and animal models,” he says.

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Key player in Parkinson's disease neuron loss pinpointed

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http://www.longevitymedicine.tv/key-player-in-parkinsons-disease-neuron-loss-pinpointed/

ScienceDaily (Oct. 24, 2012) Scientists may have discovered why the standard treatment for Parkinson’s disease is often effective for only a limited period of time. Their research could lead to a better understanding of many brain disorders, from drug addiction to depression, that share certain signaling molecules involved in modulating brain activity.

A team led by Bernardo Sabatini, Takeda Professor of Neurobiology at Harvard Medical School, used mouse models to study dopamine neurons in the striatum, a region of the brain involved in both movement and learning. In people, these neurons release dopamine, a neurotransmitter that allows us to walk, speak and even type on a keyboard. When those cells die, as they do in Parkinson’s patients, so does the ability to easily initiate movement. Current Parkinson’s drugs are precursors of dopamine that are then converted into dopamine by cells in the brain.

The flip side of dopamine dearth is dopamine hyperactivity. Heroin, cocaine and amphetamines rev up or mimic dopamine neurons, ultimately reinforcing the learned reward of drug-taking. Other conditions such as obsessive-compulsive disorder, Tourette syndrome and even schizophrenia may also be related to the misregulation of dopamine.

In the October 11 issue of Nature, Sabatini and co-authors Nicolas Tritsch and Jun Ding reported that midbrain dopamine neurons release not only dopamine but also another neurotransmitter called GABA, which lowers neuronal activity. The previously unsuspected presence of GABA could explain why restoring only dopamine could cause initial improvements in Parkinson’s patients to eventually wane. And if GABA is made by the same cells that produce other neurotransmitters, such as depression-linked serotonin, similar single-focus treatments could be less successful for the same reason.

“If what we found in the mouse applies to the human, then dopamine’s only half the story,” said Sabatini.

A detailed view of dopamine neurons.

The surprising GABA story began in the Sabatini lab with a series of experiments designed to see what happens when cells release dopamine. The scientists used optogenetics, a powerful technique that relies on genetic manipulation to selectively sensitize cells to light. In laboratory dishes, researchers tested brain tissue from mice engineered to show activity in dopamine neurons. Typically in such experiments, other neurotransmitters would be blocked in order to highlight dopamine, but Tritsch, a postdoctoral fellow in the Sabatini lab, decided instead to keep the cell in as natural a state as possible.

When Tritsch activated the dopamine neurons and examined their effects on striatal neurons, he naturally expected to observe the effects of dopamine release. Instead, he saw rapid inhibition of the striatal neurons, making it clear that another neurotransmitter — which turned out to be the quick-acting GABA — was at work. This was so unusual that the team launched a series of experiments to confirm that GABA was being released directly by these dopamine neurons.

A standard way to detect GABA is to look for vesicular GABA transporter, or VGAT, a protein that packages and carries GABA into neurotransmitter vesicles. The scientists silenced the gene that makes VGAT in mice and found that the dopamine neurons released GABA even in the absence of VGAT.

The researchers then tested other transporters, zeroing in on one that ferries dopamine and a variety of other neurotransmitters. For reasons they don’t yet understand, this protein — the vesicular monoamine transporter — also shuttles GABA.

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Challenging Parkinson's dogma: Dopamine may not be the only key player in this tragic neurodegenerative disease

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http://www.longevitymedicine.tv/challenging-parkinsons-dogma-dopamine-may-not-be-the-only-key-player-in-this-tragic-neurodegenerative-disease/

A review paper: "The definition of sarcopenia continues to evolve, from an observational phenomenon to a differential diagnostic approach. Clinical relevance for sarcopenia is defined by a loss in lean muscle mass and impairment of functional status. A therapeutic approach to the loss of skeletal muscle mass and strength in older persons depends on correct classification. The term sarcopenia is reserved for age-related decline in muscle mass not attributable to the presence of proinflammatory cytokines. For persons with sarcopenia, the primary intervention should include resistance exercise. An improvement in muscle mass and strength has been demonstrated with resistance exercise, even in the very old. Targeting the hormonal changes with aging is an attractive intervention. However, testosterone replacement in elderly hypogonadal men has demonstrated only modest increases in muscle mass and strength. Administration of growth hormone in pharmacologic doses increases muscle mass but not muscle strength. Nutritional therapy is promising, but the effects in clinical trials have been small."

View the Article Under Discussion: http://www.ncbi.nlm.nih.gov/pubmed/20497850

Read More Longevity Meme Commentary: http://www.longevitymeme.org/news/

A recent early stage trial demonstrated that first generation autologous stem cell transplants should be beneficial even if provided long after a serious damage has occurred. Large numbers of transplanted stem cells, grown over a period of weeks from a patient's own cells, can spur the body to heal injuries that would normally linger:

Heart Damage Improves, Reverses After Stem Cell Injections in a Preliminary Human Trial:

Researchers have shown for the first time that stem cells injected into enlarged hearts reduced heart size, reduced scar tissue and improved function to injured heart areas ... while this research is in the early stages, the findings are promising for the more than five million Americans who have enlarged hearts due to damage sustained from heart attacks. These patients can suffer premature death, have major disability and experience frequent hospitalizations. Options for treatment are limited to lifelong medications and major medical interventions, such as heart transplantation

...

Using catheters, researchers injected stem cells derived from the patient's own bone marrow into the hearts of eight men (average age 57) with chronically enlarged, low-functioning hearts.

"The injections first improved function in the damaged area of the heart and then led to a reduction in the size of the heart. This was associated with a reduction in scar size. The effects lasted for a year after the injections, which was the full duration of the study,"

...

"This therapy improved even old cardiac injuries. [Some] of the patients had damage to their hearts from heart attacks as long as 11 years before treatment."

This is generally good news for people who presently bear injuries and damage - or expect to suffer damage in the years between now and when stem cell medicine is in its prime. The most plausible future outcome looks to be that even the early stage and comparatively crude transplant therapies will provide significant benefits above and beyond any present form of medicine.

Of course, they would arrive far more rapidly and be far less costly in a world absent the FDA - but there is always medical tourism. A range of stem cell therapies that are presently forbidden from commercial development in the US have been available for several years elsewhere in the world:

The FDA forbids the development of new medical technologies long past the point at which any sane person would consider them a good risk, and in the process makes these technologies vastly more expensive. Medical tourism is a sane response to heavy-handed and unaccountable government employees: "Gregg Victor is one of the 1.5 million Americans who traveled abroad to get medical treatments last year. ... More than a few were pursuing new stem-cell-based treatments unavailable in the States ... 'I am not waiting for the FDA to rule to get treatments,' says Gregg Victor, who chose her clinic in Germany after spending a year and a half looking into stem cell treatments available all over the world. ... Jordan happened upon TheraVitae, a Bangkok-headquartered biotechnology company that markets 'VesCell stem cell treatments' via licensing agreements with four clinics in Thailand ... Thai doctors injected 25 million of his own stem cells into Jordan's heart. Twenty thousand miles, 22 days, a cardiac arrest and $43,000 later, he came home to his wife with an ejection fraction between 30% and 35%. Even Jordan's doctor had to admit he was happy with the results." Results are mixed, much as you'd expect. Caveat emptor, and do your research - but a great many people are materially benefiting from technologies still forbidden by their own governments.

Public release date: 24-Oct-2012 [ | E-mail | Share ]

Contact: Marla Paul marla-paul@northwestern.edu 312-503-8928 Northwestern University

CHICAGO — In an early-stage breakthrough, a team of Northwestern University scientists has developed a new family of compounds that could slow the progression of Parkinsons disease.

Parkinsons, the second most common neurodegenerative disease, is caused by the death of dopamine neurons, resulting in tremors, rigidity and difficulty moving. Current treatments target the symptoms but do not slow the progression of the disease.

The new compounds were developed by Richard B. Silverman, the John Evans Professor of Chemistry at the Weinberg College of Arts and Sciences and inventor of the molecule that became the well-known drug Lyrica, and D. James Surmeier, chair of physiology at Northwestern University Feinberg School of Medicine. Their research was published Oct. 23 in the journal Nature Communications.

The compounds work by slamming the door on an unwelcome and destructive guest — calcium. The compounds target and shut a relatively rare membrane protein that allows calcium to flood into dopamine neurons. Surmeiers previously published research showed that calcium entry through this protein stresses dopamine neurons, potentially leading to premature aging and death. He also identified the precise protein involved — the Cav1.3 channel.

These are the first compounds to selectively target this channel, Surmeier said. By shutting down the channel, we should be able to slow the progression of the disease or significantly reduce the risk that anyone would get Parkinsons disease if they take this drug early enough.

Weve developed a molecule that could be an entirely new mechanism for arresting Parkinsons disease, rather than just treating the symptoms, Silverman said.

The compounds work in a similar way to the drugisradipine, which is commercially available FDAapproved for treatment ofhypertension, for which a Phase 2 national clinical trial withParkinson’spatients — led by Northwestern Medicine neurologist Tanya Simuni,M.D. — was recentlycompleted. Isradipine studies in Parkinson’s disease aremoving forward, but because isradipinewas developed for treatment ofhypertension, it interacts with other channels found in the walls ofbloodvessels. This limits the dose of the drug that can be administered to patientswithParkinson’s disease.

The challenge for Silverman was to design new compounds that specifically target this rare Cav1.3 channel, not those that are abundant in blood vessels. He and colleagues first used high-throughput screening to test 60,000 existing compounds, but none did the trick.

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Parkinson's breakthough could slow disease progression

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http://www.longevitymedicine.tv/parkinsons-breakthough-could-slow-disease-progression/

Are you looking for another reason to exercise? Exercise can improve your life by increasing creativity, focus and intelligence.

Many people look at exercise as a requirement.  They know they are supposed to exercise, but they don’t necessarily enjoy it.  As a result, many dieters find that they are forcing themselves to exercise.  On the other hand, often people who aren’t trying to lose weight skip exercising altogether.  As you know, everyone should exercise because there are countless health benefits to exercising, which include fighting diseases like stroke, osteoporosis, diabetes and high blood pressure.

However, it is important to realize that exercise can improve your life in ways that are not necessarily even fitness related.  Exercise can allow you to find solutions, boost creativity and improve your focus.

A recent study at the National Cheng Kung University in Taiwan showed that the brainpower of mice improves when they are allowed to exercise. When mice are forced to exercise more than they normally would, the mice’s thinking power improves yet further.  Scientists noted major developments in the brain when the mice were pushed beyond their natural exercise inclinations.

So does the brainpower improve because of increased blood flow to the brain?  Interestingly, a recent study out of Columbia University and the Salk Institute showed that exercise’s improvements in focus and thinking result from more than just blood flow.  Scott Small and Fred Gage conducted this experiment.  They found that during exercise, muscles contract and chemicals and proteins are released.  One protein called IGF-1 releases chemicals in the brain that stimulate neurons to branch out in new directions. The end result is new connections between our brain cells.  These new connections are responsible for making us smarter!

As you boost your focus and mental ability, you also boost your creativity when you exercise.  Keith Sawyer, PhD the author of the book Group Genius: The Creative Power of Collaboration stated “Physical activity gets your mind into the bodily experience, so that subconscious connections can pop up.”  Exercise also releases cortisol from your body.  If there is too much cortisol in your system caused by stress, your ability to be creative shuts down.

Make sure that you do not force too much exercise on yourself.  After all, overtraining can lead to injuries and can be counterproductive to improving your life.  Exercise for at least 30 minutes at a time.  If you are looking to find creative ideas, consider exercising alone as an exercise companion may distract you.  Bring a small notepad and jot down ideas.

Once you understand these benefits of exercising, you will be more likely to want to integrate exercise in your daily routine.  If you are having difficulty focusing or being creative, you will quickly find that exercise can be the solution to your problems.

Sources:
living.health.com
smallbusiness.yahoo.com

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/sci-tech/article/45157

A team of scientists at Northwestern University have discovered what might slow the progression of Parkinson’s disease. This compound was developed by Richard B. Silverman at the Weinberg College of Arts and Sciences and creator of the molecule that became the drug Lyrica.

This compound or rather the family of compounds work by blocking calcium flow in the brains neurons. The main mechanism is the suppression of a membrane protein, which allows calcium to flow into the dopamine neurons. With this membrane protein blocking calcium flow into the dopaime neuron it avoids further cell damage.

D. James Surmeier, the chair of physiology at Northwestern previously published research which showed that calcium entry through the protein channel Cav1.3 stresses the dopamine neurons which could potentially lead to premature aging and death. The research team at Northwestern has previously published research showing how calcium entry through the protein channel Cav1.3 stresses the dopamine neurons, which has been shown to lead to premature aging and death.

“We’ve developed a molecule that could be an entirely new mechanism for arresting Parkinson’s disease, rather than just treating the symptoms,” Silverman explained.

A Phase 2 national clinical trail with Parkinson’s patients was led by Northwestern Medicine neurologist Tanya Simuni, M.D. The new compound works in a similar way as the drug Isradipine (A calcium channel blocker used to reduce risk of stroke and heart attack). However Irasdiphine interacts with other channels found in the walls of blood vessels and Isradipine can not be used in a high enough concentration to be effective against Parkinson’s.

One challenge for Silverman was in creating a new compound that would specifically target the rare Cav1.3 channel. He and his colleagues did a high-throughput screening to test 60,000 existing compounds, none of which did what Silverman required. Subsequently, Silverman looked at compounds he had developed for other neurodegenerative diseases and identified one compound he believed had promise. Soosung Kang, a postdoctoral associate in Silverman’s lab was tasked with refining the molecules until they where able to only shut the Cav1.3. It took Mr. Kang 9 months to finally succeed.

“The drug relived the stress on the cells,” Surmeier said. “We have a long way to go before we are ready to give this drug, or a reasonable facsimile, to humans, but we are very encouraged,”

The next step for the Northwestern team is to improve the pharmacology of the compounds to make them suitable for human use and eventually move to Phase 1 clinical trials.

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Slowing Down Parkinson's

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http://www.longevitymedicine.tv/slowing-down-parkinsons/

TORONTO, ONTARIO–(Marketwire – Oct 29, 2012) – Cynapsus Therapeutics Inc. (TSX VENTURE:CTH) today announced that its APL-130277 for Parkinson”s was recognized as one of the Top Ten Neurology Projectsto Watch in 2012 by a joint selection committee including Dr. Harry Tracy, a noted authority on pharmacological interventions for diseases of the brain and editor of the highly respected biotechnology publication NeuroPerspective, as well as with Elsevier Business Intelligence, the publishers of In Vivo, Startup and The Pink Sheet.Cynapsus has been invited to present the APL-130277 Project at Elsevier”s Therapeutic Area Partnerships Meeting taking place on November 28-30, 2012 at the Westin Copley in Boston.

Criteria for selection of the Top 10 Neurology Projects to Watch in 2012 were:

APL130277 is a unique and innovative, sublingual thin film strip formulation of apomorphine. Apomorphine is an approved drug prescribed in the US, Europe and several other countries. It is administered as a subcutaneous injection or infusion to Parkinson”s patients experiencing daily “OFF” or motor fluctuation episodes. APL130277 would provide patients with a convenient and more tolerable alternative to multiple daily injections. As a new means of delivering an approved drug, this clinical stage project is expected to follow a bioequivalence regulatory and clinical path which would culminate in a New Drug Approval application in 2015.

“We are humbled to be recognized from among several hundred worthy neuroscience projects, worldwide. This is a significant honor and further independent validation of the potential of APL-130277. This comes only a few months after receiving a significant grant from The Michael J. Fox Foundation for Parkinson”s Research (MJFF) to help support our next clinical study (CTH103). The MJFF Clinical Intervention Award was provided through the Edmond J. Safra Core Programs for Parkinson”s Research,” said Mr. Anthony Giovinazzo, President and Chief Executive Officer of Cynapsus.”Since we started this project, we determined that there are a large number of Parkinson”s patients who would benefit from needle-free delivery of the drug.This includes patients who want a convenient alternative to a very painful injection regimen, patients who have resisted initiating therapy because of the needle issues, and the increase in PD population as a result of the growing aging baby boomer generation. These factors combined indicate that the number of Parkinson”s patients worldwide could potentially increase 2-to-3 fold over the next 8 to 10 years. This significant potential unmet medical need coupled with a short and lower risk clinical pathway would be of interest to many in global and specialty pharma, especially given that our pending patent estate, when approved and granted, would provide protection to 2031 at a minimum.”

About Parkinson”s Disease

Parkinson”s disease is a chronic, degenerative neurological disorder that results from the loss of dopamineproducing nerve cells in the brain. Currenttreatments for Parkinson”s disease are able to reduce the symptoms of the disease but are not able to treat the underlying neurodegenerative processes that lead to a decline in physical and cognitive functions that affects some patients with Parkinson”s disease. It is estimated that over one million people in the United States and 5 million people globally are living with Parkinson”s disease. According to the National Institute of Neurodegenerative Disease and Stroke, the average age of onset is 60, although some people are diagnosed at age 40 or younger.

About Cynapsus Therapeutics

Cynapsus is a specialty pharmaceutical company developing the only orally administered convenient (sublingual) delivery of the only approved drug (apomorphine) to treat the motor symptoms of Parkinson”s disease. Over one million people in the United States and an estimated 5 million people globally suffer from Parkinson”s disease. Parkinson”s disease is a chronic and progressive neurodegenerative disease that impacts motor activity, and its prevalence is increasing with the aging of the population. Based on the IMPACT Registry Study and the results of Cynapsus” Global 500 Neurologists Survey, is estimated that between 25 percent and 50 percent of patients experience “OFF episodes” in which they have impaired movement or speaking capabilities. Current medications only control the disease”s symptoms, and most drugs become less effective over time as the disease progresses.

Cynapsus” lead drug candidate, APL130277, is an easytoadminister, fastacting reformulation of an approved drug, apomorphine, used to rescue patients from OFF episodes. Cynapsus is focused on rapidly maximizing the value of APL130277 by completing pivotal studies in advance of a New Drug Application expected to be submitted in 2015. Cynapsus anticipates outlicensing to an appropriate pharmaceutical partner before such an application is submitted.

More information about Cynapsus (TSX VENTURE:CTH) is available at http://www.cynapsus.ca and at the System for Electronic Document Analysis and Retrieval (SEDAR) at http://www.sedar.com.

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Cynapsus Therapeutics' APL 130277 for Parkinson's Chosen As One Of The Top Ten Neurology Projects To Watch For 2012

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A research project underway at Lund University and funded by the Michael J. Fox Foundation will use optogenetics to monitor the effectiveness of transplanted cells in combating the effects of Parkinson’s disease, the latest step in the use of the technique to study this condition.

The team led by Merab Kokaia proposes to take human skin cells and modify them to act as nerve cells, a “reprogramming” step known as transdifferentiation and which involves introducing new foreign genes into the cell.

Each cell will also be equipped with genes for a light-sensitive protein, which allows them to react when irradiated with light, in this case blue light from a laser or LED supplied via optical fiber. This responsiveness, and the ability to target it onto specific cells of interest, is the basis of optogenetics.

Once prepared, the cells will be transplanted into the brains of laboratory rats modeling Parkinson’s disease.

“This is the first time such an approach is going to be used,” said Kokaia. “If we get signals from the host brain as a response to light, we know that they come from the transplanted cells since they are the only ones to carry the light-sensitive protein. This gives us a much more specific way of studying the brain’s reactions compared to inserting an electrode, which is the current method. With an electrode, we do not know whether the electric signals that are detected come from ‘new’ or ‘old’ brain cells.”

Dopamine release One particular goal is to investigate more fully the factors affecting the release of dopamine, a chemical responsible for transmitting the signals within the brain that allow for coordination of movement, and one therefore of keen interest to researchers hoping to understand Parkinson’s disease.

“The principle is that optogenetic stimulation or activation of the cells would increase release of dopamine from these cells,” Kokaia commented to Optics.org. “Dopamine is the main neurotransmitter that is in short supply in Parkinson’s disease, since the cells producing dopamine die. Our idea is to transform cells derived from human skin into neurons that can produce dopamine, and then use optogenetics to try to increase dopamine release from these transplanted cells.”

Although this ambition might still be some way off, Kokaia believes that the approach is a sound one as a route to tackle the disease. “We know that this is long term research, but the methodology is interesting and it will be exciting to see what we can come up with,” he said.

The Michael J. Fox Foundation agrees, and has provided a grant of $75,000 to the project. Established by actor Michael J. Fox in 2000, the Foundation has invested over $300 million towards combating Parkinson’s disease, and is said to be the largest private funder of research into the condition in the world.

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Optogenetics assists in fight against Parkinson's disease

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Dr. Buttar offers hope for Cancer and Autism
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Ever since Roy Roden was diagnosed with Parkinsons disease three years ago, hes been on a race to get the most out of life while his body still can.

He has skydived, traveled, zip-lined.

Now, the South Florida native is putting his relay into higher gear, planting his foot firmly on a bike pedal.

Roden and his wife Lynn, of North Miami Beach, will take off Thursday with their two dogs on a cross-country bike ride from Seattle to Miami, to raise awareness and money for Parkinsons.

If you found out you have a degenerative disease, what are you going to do with the next 10 years of your life? Roden said. I want to do something.

Roden, 54, plans to spread the word about clinical trials and share his experience with his most recent treatment, deep brain stimulation.

His doctors are behind him.

I give it the thumbs up, said Dr. Carlos Singer, professor of neurology at the University of Miami School of Medicine and division chief of Parkinsons and movement disorders. It can be inspiring to people. Its neat. It shows how active a person with Parkinsons can be.

A progressive, neurodegenerative brain disorder, Parkinsons is the second most common degenerative disease of the brain, after Alzheimers. It affects one million people in the United States, including an estimated 35,000 in South Florida, according to the National Parkinson Foundation, which is based in Miami.

Each year, about 50,000 to 60,000 cases of Parkinsons are diagnosed, with an average age at diagnosis of 62.

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Couple to bike cross-country for Parkinson’s charities

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At Sanctuary Medical Center, our team of renowned longevity physicians and medical professionals, in Boca Raton and New York, act as a guides and partners in your journey to health and wellness, creating longevity and wellness programs that are tailored especially for you. Each age management physician is board certified and is trained extensively in preventative and longevity medicine. With over 100 years of experience combined, their expertise is sought after by the media, patients and medical professional alike. Each physician is actively involved in the medical community through research, physician training and faculty appointments. Their work has been published in numerous trade and academic journals.From:AgeManagementDocsViews:47 0ratingsTime:00:30More inScience Technology

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GF-1 Therapy: More Potent Than Growth Hormone Therapy To Reverse Aging? - Thierry Hertoghe, MD
Please enjoy this excerpt from his presentation at the Clinical Applications for Age Management Medicine Conference. Growth hormone treatment of adults has gained wide recognition as the major hormone therapy that can oppose the progression of aging. But growth hormone acts in great part by stimulating the secretion of another hormone produced in the liver, insulin-like growth factor 1 or IGF-1. IGF-1 is at the base of most of the anabolic effects of growth hormone. But IGF-1 has some greater effects. It produces anabolic effects where growth hormone fails (in utero, aging liver of elderly persons, age-related growth hormone resistance, etc.) and reduces blood sugar levels, being a major antidiabetic hormone. Moreover, the association of growth hormone and IGF-1 may synergistically work in some patients to produce greater age-reversing effects. Dr Thierry Hertoghe is a world renowned expert on male and female hormones, and he follows in the footsteps of his grandfather and father who all specialised in the same subject. He has written numerous books on natural hormones and he lectures all round the world, and 3Geese wanted to understand all about the hormones that he prescribes to his patients. President, International Hormone Society; European Academy of Quality of Life and Longevity Medicine (EAQUALL); World Society of Anti-Aging Medicine (WOSAMM) Author, The Hormone HandbookFrom:AgeManagmentMedicineViews:525 3ratingsTime:11:40More inEducation

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GF-1 Therapy: More Potent Than Growth Hormone Therapy To Reverse Aging? - Thierry Hertoghe, MD - Video

Aubrey de Grey: "The Singularity and the Methuselarity: Similarities and Differences"
As progress in longevity medicine accelerates, eventually we will reach a point where medical therapies repair the damage of aging faster than it accumulates. The moment at which this happens is being called the "Methuselarity". At Singularity Summit 2009.From:singularitysummitViews:147 3ratingsTime:28:09More inScience Technology

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Aubrey de Grey: "The Singularity and the Methuselarity: Similarities and Differences" - Video