Thursday, October 31, 2013

CWRU researchers aim nanotechnology at micrometastases

CWRU researchers aim nanotechnology at micrometastases


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Contact: Kevin Mayhood
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Case Western Reserve University



To infiltrate and quash aggressive cancers that survive traditional therapy



CLEVELANDResearchers at Case Western Reserve University have received two grants totaling nearly $1.7 million to build nanoparticles that seek and destroy metastases too small to be detected with current technologies.


They are targeting aggressive cancers that persist through traditional chemotherapy and can form new tumors. The stealthy travel and growth of micrometastases is the hallmark of metastatic disease, the cause of most cancer deaths worldwide.


The group, led by Efstathios Karathanasis, assistant professor of biomedical engineering and radiology, will spend the next five years perfecting molecular coatings, called ligands, that enable nanochains injected into a patient's blood to home in on micrometastases. The National Cancer Institute awarded the group $1.6 million to pursue the work.


The Ohio Cancer Research Associates awarded the group another $60,000 to increase the efficiency and rapid dispersal of chemotherapy drugs the nanochains tote inside the metastases.


The grants will build on earlier work by Karathanasis, Mark Griswold, professor of radiology and director of MRI research at the Case Western Reserve School of Medicine, and Ruth Keri, professor of pharmacology at the Case Western Reserve School of Medicine and associate director of research at the Case Comprehensive Cancer Center. They and colleagues invented a nanochain that explodes a barrage of chemotherapy drugs inside a tumor.


"When a patient is diagnosed with cancer, he or she undergoes surgery to remove the primary tumor, then undergoes chemotherapy to kill any residual disease, including distant micrometastases," Karathanasis said.


"Chemotherapy drugs are very potent, but because they are randomly dispersed throughout the body in traditional chemotherapy, they aren't effective with the aggressive forms of cancer," he continued. "You have to give the patient so much of the drug that it would kill the patient before killing those micrometastases."


But delivering the killer drug only to micrometastases is a challenge. They are hidden among healthy cells in such small numbers they don't make a blip on today's imaging screens.


Contrary to traditional drugs, you can control how a nanoparticle travels in the bloodstream by changing its size and shape. "You can think of nanoparticles as a pile of leaves in the back yard," Karathanasis said. "When the wind blows, each leaf has a different trajectory because each has a different weight, size and shape. As engineers, we study how nanoparticles flow inside the body."


The group built a nanochain with a tail made of magnetized iron oxide links and a balloon-like sphere filled with a chemotherapy drug. The chains are designed to tumble out of the main flow in blood vessels, travel along the walls and latch onto integrins, the glue that binds newly forming micrometastasis onto the vessel wall.


When chains congregate inside tumors, researchers place a wire coil, called a solenoid, outside the animal models. Electricity passed through the solenoid creates a radiofrequency field, which causes the magnetic tails on the chains to vibrate, breaking open the chemical-carrying spheres and launching the chemotherapeutic drug deep into a metastasis.


In testing a mouse model of breast cancer metastasis, the chains killed 3000 times the number of cancerous cells as traditional chemotherapy, extended life longer and in some cases completely eradicated the disease, while limiting damage to healthy tissue.


Due to their random dispersal, negligible amounts of a typical conventional chemo drug can reach into a metastasis. In recent testing, a remarkable 6 percent of the nanochains injected in a mouse model congregated within a micrometastatic site of only a millimeter in size. The researchers want even better.


Using the federal grant, the researchers will develop nanochains with at least two ligands, which are molecular coatings designed to draw and link the chains to micrometastases.


The different ligands will seek different locations on cancerous cells, increasing the odds of finding and attacking the target.


Using the Ohio grant, the researchers will find the optimal size of the nanochains, tail and the payload of drugs to make them as efficient and speedy killers as possible. By including fluorescent materials in the nanochains, they will be able to see the chains slip from the blood stream, congregate in micrometastases and explode the drugs inside, and make improvements from there.


Other members of the research group include Vikas Gulani, assistant professor of radiology at Case Western Reserve School of Medicine and director of MRI at UH Case Medical Center, Chris Flask, director of the Imaging Core Center in the Case Comprehensive Cancer Center and an assistant professor of radiology, and William Schiemann, an associate professor at the Case Comprehensive Cancer Center.


"Such work would not happen in other places", Karathanasis said. "This is truly interactive research with my lab, the Laboratory for Nanomedical Engineering, the Case Center for Imaging Research and the Case Comprehensive Cancer Center."


###


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CWRU researchers aim nanotechnology at micrometastases


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PUBLIC RELEASE DATE:

31-Oct-2013



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Contact: Kevin Mayhood
kevin.mayhood@case.edu
216-368-4442
Case Western Reserve University



To infiltrate and quash aggressive cancers that survive traditional therapy



CLEVELANDResearchers at Case Western Reserve University have received two grants totaling nearly $1.7 million to build nanoparticles that seek and destroy metastases too small to be detected with current technologies.


They are targeting aggressive cancers that persist through traditional chemotherapy and can form new tumors. The stealthy travel and growth of micrometastases is the hallmark of metastatic disease, the cause of most cancer deaths worldwide.


The group, led by Efstathios Karathanasis, assistant professor of biomedical engineering and radiology, will spend the next five years perfecting molecular coatings, called ligands, that enable nanochains injected into a patient's blood to home in on micrometastases. The National Cancer Institute awarded the group $1.6 million to pursue the work.


The Ohio Cancer Research Associates awarded the group another $60,000 to increase the efficiency and rapid dispersal of chemotherapy drugs the nanochains tote inside the metastases.


The grants will build on earlier work by Karathanasis, Mark Griswold, professor of radiology and director of MRI research at the Case Western Reserve School of Medicine, and Ruth Keri, professor of pharmacology at the Case Western Reserve School of Medicine and associate director of research at the Case Comprehensive Cancer Center. They and colleagues invented a nanochain that explodes a barrage of chemotherapy drugs inside a tumor.


"When a patient is diagnosed with cancer, he or she undergoes surgery to remove the primary tumor, then undergoes chemotherapy to kill any residual disease, including distant micrometastases," Karathanasis said.


"Chemotherapy drugs are very potent, but because they are randomly dispersed throughout the body in traditional chemotherapy, they aren't effective with the aggressive forms of cancer," he continued. "You have to give the patient so much of the drug that it would kill the patient before killing those micrometastases."


But delivering the killer drug only to micrometastases is a challenge. They are hidden among healthy cells in such small numbers they don't make a blip on today's imaging screens.


Contrary to traditional drugs, you can control how a nanoparticle travels in the bloodstream by changing its size and shape. "You can think of nanoparticles as a pile of leaves in the back yard," Karathanasis said. "When the wind blows, each leaf has a different trajectory because each has a different weight, size and shape. As engineers, we study how nanoparticles flow inside the body."


The group built a nanochain with a tail made of magnetized iron oxide links and a balloon-like sphere filled with a chemotherapy drug. The chains are designed to tumble out of the main flow in blood vessels, travel along the walls and latch onto integrins, the glue that binds newly forming micrometastasis onto the vessel wall.


When chains congregate inside tumors, researchers place a wire coil, called a solenoid, outside the animal models. Electricity passed through the solenoid creates a radiofrequency field, which causes the magnetic tails on the chains to vibrate, breaking open the chemical-carrying spheres and launching the chemotherapeutic drug deep into a metastasis.


In testing a mouse model of breast cancer metastasis, the chains killed 3000 times the number of cancerous cells as traditional chemotherapy, extended life longer and in some cases completely eradicated the disease, while limiting damage to healthy tissue.


Due to their random dispersal, negligible amounts of a typical conventional chemo drug can reach into a metastasis. In recent testing, a remarkable 6 percent of the nanochains injected in a mouse model congregated within a micrometastatic site of only a millimeter in size. The researchers want even better.


Using the federal grant, the researchers will develop nanochains with at least two ligands, which are molecular coatings designed to draw and link the chains to micrometastases.


The different ligands will seek different locations on cancerous cells, increasing the odds of finding and attacking the target.


Using the Ohio grant, the researchers will find the optimal size of the nanochains, tail and the payload of drugs to make them as efficient and speedy killers as possible. By including fluorescent materials in the nanochains, they will be able to see the chains slip from the blood stream, congregate in micrometastases and explode the drugs inside, and make improvements from there.


Other members of the research group include Vikas Gulani, assistant professor of radiology at Case Western Reserve School of Medicine and director of MRI at UH Case Medical Center, Chris Flask, director of the Imaging Core Center in the Case Comprehensive Cancer Center and an assistant professor of radiology, and William Schiemann, an associate professor at the Case Comprehensive Cancer Center.


"Such work would not happen in other places", Karathanasis said. "This is truly interactive research with my lab, the Laboratory for Nanomedical Engineering, the Case Center for Imaging Research and the Case Comprehensive Cancer Center."


###


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Source: http://www.eurekalert.org/pub_releases/2013-10/cwru-cra103113.php
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Bachmann-Strauss Foundation awards $1.2 million to establish Centers of Excellence around US

Bachmann-Strauss Foundation awards $1.2 million to establish Centers of Excellence around US


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Contact: cpepi@bsdpf.org
cpepi@bsdpf.org
212-682-9900
The Bachmann-Strauss Dystonia & Parkinson Foundation






(New York, N.Y. October 31, 2013) The Bachmann-Strauss Dystonia and Parkinson Foundation has awarded $1.2 million in matching grants to establish Dystonia and Parkinson's Disease Centers of Excellence at three major U.S. medical centers: the University of Alabama at Birmingham (UAB), the University of Florida (UF) and the University of California, San Francisco (UCSF). The new centers will join the existing Center of Excellence at Beth Israel Medical Center in New York City.


  • the University of Alabama at Birmingham Comprehensive Parkinson Disease and Movement Disorders Clinic (designated September 17th);
  • the University of Florida Health Center for Movement Disorders and Neurorestoration (designated September 26th); and
  • the UCSF Surgical Movement Disorders Center (opening November 5th).

"Proper diagnosis, treatment and comprehensive care have long been missing for people with dystonia and Parkinson's disease," said Bonnie Strauss, president and founder of The Bachmann-Strauss Dystonia & Parkinson Foundation. "As someone who lives with dystonia and struggled for years to find the right diagnosis, the opening of our new Centers of Excellence is a dream come true."


The Bachmann-Strauss centers will strengthen each university's clinical and research infrastructure, while providing a mechanism through which they can share knowledge and collaborate on new initiatives. The new centers are expected to be catalysts for breakthroughs in understanding and treating dystonia and Parkinson's disease. Matching grants will ensure that the centers are self-sustaining.


Additionally, the grants will ensure that patients with dystonia and Parkinson's disease have access to proper diagnosis, treatment and comprehensive care all coordinated seamlessly in one space. The patients will benefit from an integrated and coordinated approach to multi-disciplinary care that will include ease of access to movement disorder specialists, as well as physical, occupational and speech therapy. Services will also include diverse treatments including neurosurgery and genetic counseling.


Dystonia, which affects as many as 500,000 people in North America, is a movement disorder that causes the muscles to contract and spasm involuntarily. The involuntary muscle contractions force the body into repetitive, often twisting movements and awkward, irregular postures. It can affect the hands, feet, neck or other parts of the body. It may be genetic in origin or appear spontaneously, and dozens of diseases and conditions include dystonia as a major symptom.


Parkinson's disease is a chronic, progressive neurological disorder whose symptoms include tremor, stiffness, difficulty moving, and problems with walking and balance. According to the National Institutes of Health, Parkinson's affects about 500,000 people in the United States although many believe the numbers are higher. (The Parkinson's Disease Foundation estimates that as many as 1 million people are affected). Approximately 60,000 new cases are diagnosed each year. Most cases begin between the ages of 50 and 65, although younger people are affected, too. Currently available pharmacological and surgical treatments provide relief from some motor symptoms, but do not halt the ultimate progression of the disease.


The University of Alabama at Birmingham Comprehensive Parkinson Disease and Movement Disorders Clinic has the only program for movement disorders in Alabama and serves dystonia and Parkinson's patients from Mississippi, Florida, Tennessee, Georgia and Louisiana. The center was designated a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence based on a donation from the Foundation and a matching gift from the family of Mrs. Joel E. Johnson, Jr.

The program at UAB will enhance the access of patients to clinical trials in dystonia and Parkinson disease, and enable conduct of trials, which will advance the fields. The program will also facilitate the interactions between clinicians, basic scientists, and members of the community, and promote cross-culture efforts to translate new discoveries while training the next generation of dystonia and Parkinson disease clinicians and scientists through support of clinical and basic/translational fellowships.


"Dystonia has several forms and may be hereditary or caused by factors such as physical trauma, infection or reaction to a pharmaceutical, however most cases have no known cause," said David G. Standaert, M.D., Ph.D., professor and chair of the UAB Department of Neurology. "Treatment is difficult and has been limited to minimizing the symptoms. At present, there is no cure."


The is a leader in movement disorders and neurorestoration, and patients travel from all over the globe for personalized treatment. The center provides much needed multidisciplinary care to dystonia and Parkinson's patients, bringing together neurologists, neurosurgeons, psychiatrists, genetic counselors, physical therapists and other experts. The center was designated a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence based on a donation from the Foundation and with support from Tyler's Hope for a Dystonia Cure.


Michael S. Okun, M.D., the Adelaide Lackner professor of neurology and the center's co-director said "This funding will galvanize drug discovery, imaging and translational neuroscience and will train the scientists who will make this difference for the patients suffering from these diseases."


The Surgical Movement Disorders Center at UCSF provides state-of-the-art, comprehensive care to patients with movement disorders. The medical staff includes neurologists, neurosurgeons, neuropsychologists, radiologists and nurses who have specialized training in movement disorders. It offers a variety of services that include comprehensive neurological evaluations, medication treatment and disease management, botulinum toxin injections, neurosurgical procedures including deep brain stimulation, and deep brain stimulation programming for conditions such as dystonia, essential tremor, Parkinson's disease, spasticity and chorea.


Jill L. Ostrem, M.D., professor of neurology and medical director of the UCSF Surgical Movement Disorders Center said, "UCSF is very excited to be recognized as a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence. This Center will provide critical support for our busy clinical services and growing research efforts as they relate to dystonia and Parkinson's disease. Optimal results from surgery for Parkinson's disease and dystonia require close integration of neurosurgery, neurology, and nursing care; the new Bachmann-Strauss Center allows us to combine our neurological expertise and the skill Of UCSF's acclaimed Department of Neurological Surgery under Dr. Philip Starr in an impactful and revolutionary way."


I congratulate Drs. Standaert, Okun and Ostrem and their teams for all they have accomplished, and I look forward to working with them in the years to come," Strauss said. "Bringing together some of the world's leading experts in dystonia and Parkinson's disease under one roof will help to ensure that patients receive the best possible care."


###

About the Bachmann-Strauss Dystonia and Parkinson Foundation

The Bachmann-Strauss Dystonia & Parkinson Foundation is an independent, nonprofit, 501(c)(3) organization that was established in 1995 by Louis Bachmann (1916-2000) and Bonnie Strauss in order to find better treatments and cures for the movement disorders dystonia and Parkinson's disease, and to provide medical and patient information. Key among its efforts, the Foundation funds scientific and clinical research and helps raise awareness of dystonia and Parkinson's disease among the general public and the medical community.


Since its 1995 founding by Bonnie Strauss, The Bachmann-Strauss Dystonia and Parkinson Foundation has given $14 million to seed 225 research projects. The scientists involved were able to leverage that funding to secure an additional $60 million from the National Institutes of Health. For more information please go to: http://www.dystonia-parkinsons.org.


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Bachmann-Strauss Foundation awards $1.2 million to establish Centers of Excellence around US


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PUBLIC RELEASE DATE:

31-Oct-2013



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Contact: cpepi@bsdpf.org
cpepi@bsdpf.org
212-682-9900
The Bachmann-Strauss Dystonia & Parkinson Foundation






(New York, N.Y. October 31, 2013) The Bachmann-Strauss Dystonia and Parkinson Foundation has awarded $1.2 million in matching grants to establish Dystonia and Parkinson's Disease Centers of Excellence at three major U.S. medical centers: the University of Alabama at Birmingham (UAB), the University of Florida (UF) and the University of California, San Francisco (UCSF). The new centers will join the existing Center of Excellence at Beth Israel Medical Center in New York City.


  • the University of Alabama at Birmingham Comprehensive Parkinson Disease and Movement Disorders Clinic (designated September 17th);
  • the University of Florida Health Center for Movement Disorders and Neurorestoration (designated September 26th); and
  • the UCSF Surgical Movement Disorders Center (opening November 5th).

"Proper diagnosis, treatment and comprehensive care have long been missing for people with dystonia and Parkinson's disease," said Bonnie Strauss, president and founder of The Bachmann-Strauss Dystonia & Parkinson Foundation. "As someone who lives with dystonia and struggled for years to find the right diagnosis, the opening of our new Centers of Excellence is a dream come true."


The Bachmann-Strauss centers will strengthen each university's clinical and research infrastructure, while providing a mechanism through which they can share knowledge and collaborate on new initiatives. The new centers are expected to be catalysts for breakthroughs in understanding and treating dystonia and Parkinson's disease. Matching grants will ensure that the centers are self-sustaining.


Additionally, the grants will ensure that patients with dystonia and Parkinson's disease have access to proper diagnosis, treatment and comprehensive care all coordinated seamlessly in one space. The patients will benefit from an integrated and coordinated approach to multi-disciplinary care that will include ease of access to movement disorder specialists, as well as physical, occupational and speech therapy. Services will also include diverse treatments including neurosurgery and genetic counseling.


Dystonia, which affects as many as 500,000 people in North America, is a movement disorder that causes the muscles to contract and spasm involuntarily. The involuntary muscle contractions force the body into repetitive, often twisting movements and awkward, irregular postures. It can affect the hands, feet, neck or other parts of the body. It may be genetic in origin or appear spontaneously, and dozens of diseases and conditions include dystonia as a major symptom.


Parkinson's disease is a chronic, progressive neurological disorder whose symptoms include tremor, stiffness, difficulty moving, and problems with walking and balance. According to the National Institutes of Health, Parkinson's affects about 500,000 people in the United States although many believe the numbers are higher. (The Parkinson's Disease Foundation estimates that as many as 1 million people are affected). Approximately 60,000 new cases are diagnosed each year. Most cases begin between the ages of 50 and 65, although younger people are affected, too. Currently available pharmacological and surgical treatments provide relief from some motor symptoms, but do not halt the ultimate progression of the disease.


The University of Alabama at Birmingham Comprehensive Parkinson Disease and Movement Disorders Clinic has the only program for movement disorders in Alabama and serves dystonia and Parkinson's patients from Mississippi, Florida, Tennessee, Georgia and Louisiana. The center was designated a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence based on a donation from the Foundation and a matching gift from the family of Mrs. Joel E. Johnson, Jr.

The program at UAB will enhance the access of patients to clinical trials in dystonia and Parkinson disease, and enable conduct of trials, which will advance the fields. The program will also facilitate the interactions between clinicians, basic scientists, and members of the community, and promote cross-culture efforts to translate new discoveries while training the next generation of dystonia and Parkinson disease clinicians and scientists through support of clinical and basic/translational fellowships.


"Dystonia has several forms and may be hereditary or caused by factors such as physical trauma, infection or reaction to a pharmaceutical, however most cases have no known cause," said David G. Standaert, M.D., Ph.D., professor and chair of the UAB Department of Neurology. "Treatment is difficult and has been limited to minimizing the symptoms. At present, there is no cure."


The is a leader in movement disorders and neurorestoration, and patients travel from all over the globe for personalized treatment. The center provides much needed multidisciplinary care to dystonia and Parkinson's patients, bringing together neurologists, neurosurgeons, psychiatrists, genetic counselors, physical therapists and other experts. The center was designated a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence based on a donation from the Foundation and with support from Tyler's Hope for a Dystonia Cure.


Michael S. Okun, M.D., the Adelaide Lackner professor of neurology and the center's co-director said "This funding will galvanize drug discovery, imaging and translational neuroscience and will train the scientists who will make this difference for the patients suffering from these diseases."


The Surgical Movement Disorders Center at UCSF provides state-of-the-art, comprehensive care to patients with movement disorders. The medical staff includes neurologists, neurosurgeons, neuropsychologists, radiologists and nurses who have specialized training in movement disorders. It offers a variety of services that include comprehensive neurological evaluations, medication treatment and disease management, botulinum toxin injections, neurosurgical procedures including deep brain stimulation, and deep brain stimulation programming for conditions such as dystonia, essential tremor, Parkinson's disease, spasticity and chorea.


Jill L. Ostrem, M.D., professor of neurology and medical director of the UCSF Surgical Movement Disorders Center said, "UCSF is very excited to be recognized as a Bachmann-Strauss Dystonia and Parkinson's Disease Center of Excellence. This Center will provide critical support for our busy clinical services and growing research efforts as they relate to dystonia and Parkinson's disease. Optimal results from surgery for Parkinson's disease and dystonia require close integration of neurosurgery, neurology, and nursing care; the new Bachmann-Strauss Center allows us to combine our neurological expertise and the skill Of UCSF's acclaimed Department of Neurological Surgery under Dr. Philip Starr in an impactful and revolutionary way."


I congratulate Drs. Standaert, Okun and Ostrem and their teams for all they have accomplished, and I look forward to working with them in the years to come," Strauss said. "Bringing together some of the world's leading experts in dystonia and Parkinson's disease under one roof will help to ensure that patients receive the best possible care."


###

About the Bachmann-Strauss Dystonia and Parkinson Foundation

The Bachmann-Strauss Dystonia & Parkinson Foundation is an independent, nonprofit, 501(c)(3) organization that was established in 1995 by Louis Bachmann (1916-2000) and Bonnie Strauss in order to find better treatments and cures for the movement disorders dystonia and Parkinson's disease, and to provide medical and patient information. Key among its efforts, the Foundation funds scientific and clinical research and helps raise awareness of dystonia and Parkinson's disease among the general public and the medical community.


Since its 1995 founding by Bonnie Strauss, The Bachmann-Strauss Dystonia and Parkinson Foundation has given $14 million to seed 225 research projects. The scientists involved were able to leverage that funding to secure an additional $60 million from the National Institutes of Health. For more information please go to: http://www.dystonia-parkinsons.org.


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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.




Source: http://www.eurekalert.org/pub_releases/2013-10/tbd-bfa103113.php
Category: brett favre   Pauly D Baby   nascar   Agents of SHIELD   Andre Drummond  

Waiting to order or line up for a new iPad Air? Wait with iMore and win!

Waiting to order or line up for a new iPad Air? Wait with iMore and win!

The new iPad Air go on sale - and even sell out! - around the world right now. If you're in Asia or Oceania, you might even have your hands on one now. (Lucky!). If you're in Europe or the Americas, your chance will come soon enough! If you still haven't decided whether you're getting one or not, or which one you really want to get, I point you towards our fabulous iPad buyers guide which will answer absolutely any question you might have and tell you absolutely everything you really need to know!

Hopefully online stock isn't too slim. We've heard Apple has ample units on site at the store. Either way, if you don't mind waiting, by all means order online. If you have to have it now, now, now, get your butt over to an Apple Store or authorized reseller and get in line!

Whether you're waiting for online orders to go live, or you're waiting in line for a retail store to open, make sure you jump into official iMore Forums Waiting in Line for a New iPad thread and share your stories and pictures! We'll be having fun and even giving away some prizes! Seriously, you don't want to miss this!


    






Source: http://feedproxy.google.com/~r/TheIphoneBlog/~3/F1MCPTsGSQo/story01.htm
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ONE FC 12 set for November 15


Asia’s preeminent MMA promotion, ONE FC, will return to action on November 15 at the Stadium Putra in Kuala Lumpur, Malaysia for ONE FC 12. The fight card will be headlined by an inaugural welterweight title fight between Adam Kayoom and Nobutatsu Suzuki. The lineup will also feature the Malaysian featherweight final between A.J. Lias Mansor and Melvin Yeoh.


CEO of ONE FC Victor Cui stated, “MMA fans in Malaysia are about to be blown away by this fight card! It is stacked with the most exciting fighters from start to finish. I can’t tell you how excited I am that Malaysia has produced such elite talent and now they get to showcase their skills on the world stage on 15 November.”


ONE FC 12 will air live via online pay-per-view in the United States for $9.99 with the first two undercard bouts airing for free.


ONE FC 12 Fight Card:


  • Inaugural Welterweight Title: Adam Kayoom vs. Nobutatsu Suzuki

  • Malaysian Featherweight Final: A.J. Lias Mansor vs. Melvin Yeoh

  • Gianni Subba vs. Chen Yun Ting

  • Nik Harris vs. Zuli Silawanto

  • Steven Durr vs. Samir Mrabet


Source: http://mmafrenzy.com/95601/one-fc-12-set-for-november-15/
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Email goes 'Dark' -- encrypted, that is



In the light of a seemingly endless series of revelations about the NSA's multi-faceted infiltrations of just about every network there is, including the private fiber used by Google and Yahoo, more and more folks are stepping up to offer possible solutions.


But because both the Internet and encryption aren't as singular or straightforward as they could be, it isn't likely to be something that can be delivered as a single product anytime soon.


The most common analogy used about email security is that it's no better than a postcard written in pencil and sent via conventional mail. To do something about it, two big names in security, Lavabit and Silent Circle, are joining forces to create a project they call the Dark Mail Alliance.


Silent Circle, a provider of both encrypted email and phone solutions, and Lavabit, a secure email provider, both made headlines earlier this year when they voluntarily shut down their email services in the wake of Edward Snowden's leaks about NSA actions against ISPs, rather than be a party to such spying. Their plan is to help create a new email system that is as resistant as technologically possible to spying.


The idea isn't to offer a product per se, but rather to create an open standard that could be freely implemented by themselves or by third parties. "1,000 Lavabits all around the world," was how Jon Callas, CTO and founder of Silent Circle, described it in a discussion with Infoworld.


This decentralized plan is both the best and worst thing about the project: Best in the sense that no one person has explicit control over it, but worst in the sense that it's also not possible to guarantee how consistently it can be delivered if it's an open project.


The technical details of Dark Mail involve taking existing email clients -- Outlook and Exchange were cited as possible targets -- and outfitting them with add-ons that would use the XMPP Web messaging protocol in conjunction with another encryption protocol developed by Silent Circle, named, appropriately enough, SCIMP, or Silent Circle Instant Message Protocol. Encryption keys are held on the end user's system and not managed by the email providers themselves, so a court order against the ISP will yield nothing. Both the message's contents and metadata (e.g., to/from headers) are encrypted.


The thing is, the technical details of encrypted email aren't themselves the real obstacle. The difficulties tend to be social -- that is, getting people to use the existing standards and projects in the first place. Many existing packages, such as Enigmail, already allow you to equip email clients with encryption without too much difficulty. But few non-technical users bother with them, in big part because in order to send someone else an encrypted message, they have to be running the same software. The lack of a common implementation, as common as a web browser, is a big stumbling block, but end user indifference is ultimately the biggest reason why most email isn't encrypted.


The other issue is something Silent Circle and Lavabit are at least attempting to tackle: Participation from common email providers. If Gmail supported the Dark Mail standard, for instance, that would provide a great many existing email users with a near-seamless way to make use of it, but so far, no third-party mail providers have piped up. That might well be a defensive measure: If they announced early on they were working on such a thing, it would give attackers all the more time to try and plan a way to subvert it.


The Snowden papers have also showed how even those who do take the pains to encrypt can have their privacy subverted by attackers who simply perform an end-run around the encryption and intercept information either before or after it's ever encrypted. Unfortunately, the only way to prevent such a thing is via such extreme measures as an air-gapped system.


So what can we expect from Dark Mail? If it's ever implemented as its creators intend, it ought to serve two functions: Give end users a way to casually encrypt email without going through a whole hassle, and make them that much more conscious of how, on the current Internet, there may not be any safe places at all.


This story, "Email goes 'Dark' -- encrypted, that is," was originally published at InfoWorld.com. Get the first word on what the important tech news really means with the InfoWorld Tech Watch blog. For the latest developments in business technology news, follow InfoWorld.com on Twitter.


Source: http://www.infoworld.com/t/encryption/email-goes-dark-encrypted-229947?source=rss_infoworld_blogs
Tags: lakers   Brooke Greenberg   Supernatural   Witches of East End   blobfish  

Discover Musical Instruments Everywhere With This Tiny Synthesizer

Discover Musical Instruments Everywhere With This Tiny Synthesizer

London-based duo Dentaku have made digital instruments out of beer bottles, text messages, and color-sensing robots. But, for their latest trick, Yuri Suzuki and Mark McKeague want to let you make music. Meet Ototo, a tiny synthesizer that lets you make almost anything—from oranges to origami—into an instrument.

Read more...


    






Source: http://feeds.gawker.com/~r/gizmodo/full/~3/E03yr6IZLUg/discover-musical-instruments-everywhere-with-this-tiny-1455236971
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Three UK announces iPad Air pricing, starts at £119 up front

In less than 24 hours, the first UK iPad Air customers will be walking out of stores across the land with their new hotness, but for those looking for something a little more subsidized, Three might have you covered. Leaving it almost as late as possible, the carrier has announced pricing for the iPad Air and associated data plans. If you're going subsidized, then you're looking at dropping at least £119 up front.

For that, you'll get a 16GB WiFi + Cellular iPad Air with 15GB of data per month for two-years, at a monthly rate of £29. Pay £179 up front for the same iPad Air and you'll drop the monthly cost down to £25. Prices monthly remain the same and with 15GB of data for the 32GB and 64GB models, but prices up front then start from £219 and £289 respectively. And of course, these prices will include 4G LTE when Three launches it sometime in December.

If you're OK with buying your iPad Air outright – either from Apple or from Three – then you're open to a pretty good 10GB 1-month rolling contract for just £15 per month. The iPad Air will go on sale both online and in-stores at Three tomorrow, November 1. The iPad mini with Retina Display will follow later in November, though when is still anybodies guess. We'll update with pricing as and when we learn more. So, anyone buying this way?

Source: Three

iPad Air

iPad Air
Apple's full-sized iPad gets slimmed down. Features include:

Complete preview >

Released
November, 2013

Alternatives
Retina iPad mini, iPad 2

Replacements
iPad Air 2 (iPad 6)
Fall, 2014

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Buyers guide
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