07 October, 2016

Strange 'chimeras' defy science's understanding of human genetics

The human genome is far more complex than thought, with genes functioning in an unexpected fashion that scientists have wrongly assumed must indicate cancer, research from the School of Medicine indicates.

Hui Li, PhD, of the UVA School of Medicine and the UVA Cancer Center

Hui Li, PhD, of the Department of Pathology and the UVA Cancer Center, is a pioneer in a small but emerging field that is challenging fundamental assumptions about human genetics. He seeks to understand what is called chimeric RNA – genetic material that results when genes on two different chromosomes produce “fusion” RNA in a way scientists say shouldn’t happen. Researchers have traditionally assumed these chimeric RNA are signs of cancer, of something gone wrong in the genetic transcription process. But Li’s work shows that’s not always the case. Instead, these strange fusions can also be a normal, functional part of our genetic programming.

“This is actually a double-edged sword for cancer diagnosis and treatment. … It basically says the old practice of finding any fusion RNA and claiming it’s a cancer fusion is over. We can’t just say, OK, we found a fusion, it must be a cancer marker, let’s translate it into a biomarker [to detect cancer],” Li said. “That’s actually dangerous. Because a lot of normal physiology also has fusion RNAs. There’s another layer of complexity.”

Full story can be found from University of Virginia website.

FDA cleared Second Generation Parkinson’s KinetiGraph

Global Kinetics Corporation has received notification from the US Food and Drug Administration of 510 (k) marketing clearance for its second generation technology – the PKG™-Watch.

Clearance of this technology signals a major milestone for Global Kinetics, underpinning aggressive expansion into new product and service offers to meet the needs of the Parkinson's community worldwide.

The new technology is a core platform for the company to reach scale in the US, European and Asia Pacific clinical care markets by overcoming previous distribution and data handling constraints. It enables GKC to capitalise on our growing telehealth and clinical trial services businesses, and to build on our already substantial partnerships with global pharmaceutical and device leaders in Parkinson's.

Developed based on extensive feedback from users of the previous-generation PKG™, the Second Generation PKG™ is smaller, more compact and includes a touch sensitive backlit screen with haptic and visual feedback, a water resistance enclosure and mobile charging and data handling capacity.

Source: Global Kinetics Corporation

06 October, 2016

Owlstone Medical Pediatric Disease Breathalyzer CE Approved


Owlstone Medical announced it has developed and received CE mark approval for a paediatric version of the company’s disease breathalyzer, ReCIVA™. The marking extends the scope of breath testing in early stage diagnostics and therapy response to include children and in particular, the difficult to manage group of child asthma patients. Both the adult and pediatric versions of the breathalyzer are now being used in EMBER (East Midlands Breathomics Pathology Node), a £2.5 million project, funded by the Medical Research Council (MRC) and the Engineering and Physical Sciences Research Council (EPSRC). The primary aim of EMBER is to develop breath-based systems for molecular pathology of disease and clinically validate breathomics as a new diagnostic modality.
Currently one in 11 children in the UK has asthma and it is the most common long-term medical condition. Volatile organic compounds (VOCs) in breath have been shown to correlate to inflammatory subtype in asthma, which helps guide better treatment decisions. Owlstone Medical uses the Respiration Collector for In Vitro Analysis (ReCIVA), in combination with the Field Asymmetric Ion Mobility Spectrometer (FAIMS) sensor platform, to accurately and selectively detect volatile organic compounds (VOCs) in breath. In February, the company won an NHS contract for STRATA (Stratification of Asthma Treatment by Breath Analysis) to adapt its disease breathalyzer technology for precision medicine and companion diagnostics in asthma. The paediatric version of ReCIVA is suitable from ages 5 and up and has been developed as breath sampling offers a completely non-invasive way to test children.
Source: Owlstone Medical

Toward visible-light-based imaging for medical devices

MIT researchers have developed a technique for recovering visual information from light that has scattered because of interactions with the environment — such as passing through human tissue.
The technique could lead to medical-imaging systems that use visible light, which carries much more information than X-rays or ultrasound waves, or to computer vision systems that work in fog or drizzle.
Full story is available on MIT website.

Low-cost sensor for cystic fibrosis diagnosis based on citrate

Penn State biomaterials scientists have developed a new, inexpensive method for detecting salt concentrations in sweat or other bodily fluids. The fluorescent sensor, derived from citric acid molecules, is highly sensitive and highly selective for chloride, the key diagnostic marker in cystic fibrosis.

“Salt concentrations can be important for many health-related conditions,” said Jian Yang, professor of biomedical engineering. “Our method uses fluorescent molecules based on citrate, a natural molecule that is essential for bone health.”
Compared to other methods used for chloride detection, Yang’s citrate-based fluorescent material is much more sensitive to chloride and is able to detect it over a far wider range of concentrations. Yang’s material is also sensitive to bromide, another salt that can interfere with the results of traditional clinical laboratory tests. Even trace amounts of bromide can throw off test results. With the citrate-based sensor, Yang’s group can distinguish the difference between chloride and bromide. The group is also working to establish a possible new standard for bromide detection in diagnosis of the disease.
Yang is collaborating with Penn State electrical engineer professor Zhiwen Liu to build a handheld device that can measure salt concentrations in sweat using his citrate-based molecules and a cell phone. This could be especially useful in developing countries where people have limited access to expensive analytical equipment.
“We are developing a platform material for sensing that is low cost, can be automated, requires no titration by trained staff or expensive instrumentation as in hospitals, and provides fast, almost instantaneous, results,” said Liu.
In “Citrate-based fluorescent materials for low-cost chloride sensing in the diagnosis of Cystic Fibrosis,” recently published online in Chemical Science, Yang compared their citrate sensors against the gold standard sweat test performed in a clinical laboratory. Their results were similar.
“Beyond cystic fibrosis, our platform can also be used for many other diseases, such as metabolic alkalosis, Addison’s disease, and amyotrophic lateral sclerosis. All of those diseases display abnormal concentrations of chloride in the urine, serum or cerebral spinal fluid,” Yang said.
According to the U.S. National Library of Medicine, cystic fibrosis is a common genetic disease within the white population in the United States. The disease occurs in 1 in 2,500 to 3,500 white newborns. Cystic fibrosis is less common in other ethnic groups, affecting about 1 in 17,000 African Americans and 1 in 31,000 Asian Americans.”
“According to recommendations from the CF Foundation, Bethesda, MD, all patients undergoing evaluation for possible diagnosis of CF should have sweat testing performed,” said Robert Vender, a pulmonary specialist at Penn State Health Milton S. Hershey Medical Center who treats cystic fibrosis patients. “To date, measurements of sweat chloride — in millimoles per liter — are only used for diagnostic purposes. However, given the recent scientific and medical advances in CF patient-directed therapy and the development and FDA approval of therapies specifically designed to modify cystic fibrosis transmembrane conductance regulator protein function, serial measurements of sweat chloride may have potential as a therapeutic surrogate indicator of drug effect and is currently measured in many pharmaceutical-industry sponsored studies as a response to these novel treatments. The link between the surrogate marker of sweat chloride and actual objective clinical outcomes such as improved lung function still remains to be determined.”
Full story can be found from the Pennsylvania State University website.

Treatment could prevent neuropathy in diabetics

For the 25 percent of type-2 diabetes patients who suffer from numbness and extreme nerve pain in their feet, a new dermatological treatment being tested by Northwestern Medicine scientists could potentially help prevent and maybe even reverse the neuropathy.

In a study just published in Molecular Pain, Northwestern Medicine researchers showed that depleting a chemical called GM3 through genetic modification prevented the development of neuropathy in obese diabetic mice.
The researchers are now applying a gene therapy ointment to deplete GM3 and GM3 synthase, which is the enzyme that makes GM3. The hope is that this GM3-depleting ointment, applied just to the footpad of diabetic mice, will prevent or, even better, reverse the existing neuropathy.
The type of neuropathy the researchers are trying to treat goes beyond the typical numbness some patients with neuropathy experience, said first author Dr. Daniela Menichella, assistant professor of neurology at Feinberg whose focus is the clinical care and laboratory-based research of diabetic neuropathy.
Leading up to this treatment, the researchers had discovered that routine diabetic mice had a lot more GM3 and GM3 synthase in their nerves compared to normal mice. They found the same thing to be true in the skin of mice and humans with diabetes.
The scientists then compared the appearance and function of the nerves in mice in which GM3 was depleted by genetic manipulation. In routine diabetic mouse skin, the nerves had virtually disappeared from degeneration, but they were absolutely normal in appearance in the GM3-depleted mice, even though the mice were as obese and diabetic as the routine diabetic mice.
To test response to pain, researchers used filaments of increasing force to touch the paws of mice and then timed how long it took for the mice to withdraw their paw from the pain stimulation.
Based on these discoveries, the researchers have advanced the approach to regionally depleting GM3 in the feet with the novel ointment.
Source: Northwestern University

FDA approves hybrid closed loop system for type 1 diabetes

Medtronic announced that it had received FDA approval for the world’s first hybrid closed loop (HCL) insulin delivery system – the MiniMed 670G system. It’s the company’s most advanced insulin pump and sensor system to date and provides patients living with diabetes more glucose control than ever before.

The system, which automatically adjusts the delivery of basal insulin, is also customizable so patients can choose from various levels of automation that best fit their management needs. The MiniMed 670G requires reduced patient interaction and uses the company’s most advanced SmartGuard™ HCL algorithm to minimize spikes and dangerous lows in blood sugar levels so patients feel better more often.
The system is approved for treatment of people living with type 1 diabetes 14 years of age and older. A clinical study is ongoing to evaluate the safety and efficacy of the therapy in children ages seven to 13, as well as a feasibility study evaluating the therapy in children ages two to six.
Medtronic will begin commercial release in Spring 2017.
Source: Medtronic

05 October, 2016

Disposable Colonoscope System Approved by FDA

GI View Ltd., developer of advanced GI screening systems, announced that it has received FDA 510(k) clearance for the new Aer-O-Scope® Colonoscope System, a disposable, self-propelled, joystickcontrolled, easy-to-use colonoscope system, now with therapeutic access. The new
system has two working channels that enable therapeutic access using standard tools, such as snares and forceps, to take biopsies or perform polypectomies.

The Aer-O-Scope is the first colonoscope to provide a 360° omni-directional visualization of the colon to detect polyps behind folds. There is also no risk of contamination or disease transmission between patients from the device as it is to be used only once and then disposed. The Aer-O-Scope employs a soft multi-lumen tube designed to significantly reduce pressure on the colon wall, which in turn, increases
patient safety. The tube is also hydrophilic, which reduces the friction between bowel and scope by more than 90%. Patient safety and comfort as well as physician ease of use are further maximized by the system’s self-propelled intubation, created using balloons and low pressure CO2 gas. As the system is joystick controlled it is also extremely simple to
operate and requires minimal training. Like all colonoscopes, the Aer-O-Scope provides insufflation, irrigation and suction.
Source: GI View Ltd

Detecting emotions with wireless signals

As many a relationship book can tell you, understanding someone else’s emotions can be a difficult task. Facial expressions aren’t always reliable: A smile can conceal frustration, while a poker face might mask a winning hand.
But what if technology could tell us how someone is really feeling?

Researchers from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) have developed “EQ-Radio,” a device that can detect a person’s emotions using wireless signals.
By measuring subtle changes in breathing and heart rhythms, EQ-Radio is 87 percent accurate at detecting if a person is excited, happy, angry or sad — and can do so without on-body sensors.
MIT professor and project lead Dina Katabi envisions the system being used in entertainment, consumer behavior, and health care. Film studios and ad agencies could test viewers’ reactions in real-time, while smart homes could use information about your mood to adjust the heating or suggest that you get some fresh air.
“Our work shows that wireless signals can capture information about human behavior that is not always visible to the naked eye,” says Katabi, who co-wrote a paper on the topic with PhD students Mingmin Zhao and Fadel Adib. “We believe that our results could pave the way for future technologies that could help monitor and diagnose conditions like depression and anxiety.”
EQ-Radio builds on Katabi’s continued efforts to use wireless technology for measuring human behaviors such as breathing and falling. She says that she will incorporate emotion-detection into her spinoff company Emerald, which makes a device that is aimed at detecting and predicting falls among the elderly.
Using wireless signals reflected off people’s bodies, the device measures heartbeats as accurately as an ECG monitor, with a margin of error of approximately 0.3 percent. It then studies the waveforms within each heartbeat to match a person’s behavior to how they previously acted in one of the four emotion-states.
Full Story is available from MIT website.

Delivering beneficial bacteria to the GI tract

The human digestive tract contains trillions of bacteria, many of which help digest food and fight off harmful bacteria. Recent studies have shown that some of these bacteria may influence, for better or worse, human diseases such as diabetes, heart disease, and cancer.

As scientists have learned more about these bacteria, many have raised the possibility that manipulating these populations, known collectively as the microbiome, could improve human health.
Looking toward that future, a team of MIT scientists has developed a strategy for delivering large numbers of beneficial bacterial to the human gut.
“Once the microbiome is better understood, we can use this delivery platform to target certain areas and introduce certain species there,” says Ana Jaklenec, a research scientist at MIT’s Koch Institute for Integrative Cancer Research and one of the senior authors of a paper describing this approach in the Sept. 12 issue of the journal Advanced Materials.
Jaklenec and colleagues developed a way to coat bacteria with polymer layers that protect them from the acids and bile salts found in the digestive tract. When the microbes reach the intestine, they attach to the intestinal lining and begin reproducing.
“The bacteria are delivered and they adhere to the intestinal wall, where they survive much better than noncoated bacteria,” says Koch Institute postdoc Aaron Anselmo, the paper’s first author.
Full story is available from MIT website.

iBeat and Dr. Mehmet Oz To Launch Lifesaving Smartwatch

Mehmet Oz, called America’s Doctor by many, has joined with health tech startup iBeat to launch a breakthrough heart monitoring smartwatch that empowers people to live longer lives. The partnership with Dr. Oz will kick off with pre-orders for its iBeat Life Monitor – a watch that continuously monitors one’s heart for life threatening emergencies and notifies loved ones and emergency responders in such an event. A world renowned leader in cardiothoracic surgery, a transplant surgeon, and holder of eight patents, Dr. Oz has saved thousands of lives both in the operating room and by educating his millions of viewers. After seeing the massive impact potential of the iBeat technology in their San Francisco headquarters, Oz invested, partnered with, and joined on as Special Advisor to the company.

“The iBeat Life Monitor was designed to continuously measure and monitor one’s heart and potentially prevent fatal heart incidents,” said Dr. Oz, seven-time Emmy Award winning host of the nationally syndicated “The Dr. Oz Show.” “This medical-grade device not only provides users with a sense of safety and control over their own heart health – which is vital in the treatment and prevention of heart failure – but also allows their loved ones and family members to take a more observant role in their care as well. To make a positive impact on the health of others, I’ve learned that we need to make it easy to do the right thing. This device is not only a technological breakthrough that will be more effective than anything on the market, it fits into a person’s wardrobe with style and ease, making it simple to integrate its lifesaving properties in one’s everyday routine. As Special Advisor, I look forward to raising awareness around preventing life-threatening heart issues and highlighting a device that can truly save lives.”
The iBeat Life Monitor differentiates itself from other wearables on the market by continuously monitoring and analyzing user’s heart activity and instantly detecting the signs of oncoming cardiac arrest (a sudden cessation of heart function). If the device detects a life-threatening heart emergency, it will engage the user and ask if he or she is ‘OK.’ If the user selects ‘No’ or is unresponsive, iBeat will instantly alert the user’s loved ones and emergency responders in real-time, helping ensure immediate care delivery and potentially saving the user’s life.
The iBeat Life Monitor does not need a cell phone, mobile app, Bluetooth connectivity, or Wi-Fi to function. The device is fully cellular, while built-in GPS ensures the user’s loved ones and first response teams know exactly where the user is in an emergency. In such an instance, emergency contacts will get a text with a link showing where the user is and where they are in-transit so they can meet them at the hospital or nearby care center. Users will also have access to an online dashboard where they can see their daily, weekly, and monthly overall heart health (beats per minutes, heart pattern changes, etc.) and compare it to others within their age range. The device is also equipped with an Emergency-On-Demand button which, when long-pressed for two seconds, will allow users to reach out to their emergency contacts, or if needed, 911.
While the watch is primarily targeted at baby-boomers, especially those who live alone, and individuals with existing heart conditions, the device is receiving notable interest from younger adults and millennials who have parents and grandparents that could greatly benefit from the device. iBeat has already raised $1.5 million in funding from private investors and is looking to establish the market for the iBeat Life Monitor through pre-orders, as well as support the tooling and production line needed to bring the device to the masses.
“The early interest we’ve seen in iBeat has been remarkable,” said Ryan Howard, founder and CEO of iBeat. “We are excited to bring our device to the Indiegogo platform to drive even more awareness around the product and its ability to potentially save someone’s life. If you suffer a life-threatening heart incident such as sudden cardiac arrest, you have a 90% chance of dying without intervention. There are many devices on the market including diabetic monitors, heart-rate monitors, and other health monitoring solutions, but all these devices only passively monitor you. None of them actively monitor and analyze your heart health around-the-clock like the iBeat Life Monitor. Continual monitoring and quick intervention can mean the difference between life and death in emergency situations.”
Source: iBeat

New Treatment for Depressed Smokers Trying to Quit

Northwestern Medicine researchers have pinpointed why quitting smoking is particularly difficult for depressed people and now are testing a new smoking cessation treatment combining medication and behavioral activation therapy targeted at this population.

Depressed smokers experience adverse withdrawal states that contribute to resumption of smoking, including low mood, difficulty engaging in rewarding activities and impaired thinking/memory, the paper reports. These symptoms are more severe for people with depression than for those without depression. In addition, depressed smokers tend to have fewer ways to cope with the symptoms and the nicotine in cigarettes helps to mitigate these problems, which is why depressed people tend to relapse at higher rates.
Full story is availale from Northwestern University website.

Monitoring Parkinson's symptoms at home

Parkinson’s disease is the second most common neurodegenerative disorder in the developed world, with around 60,000 people diagnosed in the U.S. each year.

Although there is no cure for the disease, there are treatments that can reduce the severity of a patient’s symptoms. But for these treatments to be effective, clinicians need a method to regularly monitor the patient’s symptoms in the home.
In a paper published today in the journal Scientific Reports, researchers at MIT and elsewhere describe a technique they have developed to monitor Parkinson’s disease progression as patients interact with a computer keyboard.
In this way the technique, which is based on technology originally developed to replace computer passwords, allows Parkinson’s signs to be monitored as people perform ordinary tasks such as typing emails or updating their Facebook status, according to Luca Giancardo, a former Catalyst Fellow in the Madrid-MIT M+Vision Consortium in the Research Laboratory of Electronics at MIT, and one of the paper’s lead authors.
“This approach uses something we do normally — interacting with a digital device — so it does not add any additional burden or take time away from daily activities,” he says.
Parkinson’s disease, which is caused by a loss of nerve cells in the brain leading to a reduction in levels of the chemical dopamine, is a progressive disorder with signs including tremors and motor difficulties, and ultimately severe disability and dementia.
Full Story can be found from MIT website.

Europe develops guidelines to improve mHealth app quality

In February 2016, the European Commission appointed a working group to draft mHealth assessment guidelines. These mHealth assessment guidelines are intended to establish a soft law reference framework for mHealth apps, providing a framework of safety, quality, and reliability, and effectiveness criteria, to improve the use, development, recommendation and evaluation of mHealth apps on the European market.
 
Authors – Marc Martens & Maria-Paz Martens
The large number of lifestyle and wellbeing apps available on the European market with no clear evidence in relation to their quality and reliability has raised concerns about the ability of consumers to assess their usefulness. In addition, taking into account that the quality of data is essential to link apps to electronic health records and for effective uptake in clinical practice, some further assurances as to the quality of the app were needed.
The working group includes representatives of patients, health professionals and providers, payers, industry, academia and public authorities, representing hereby all interested parties in the consultation process.
The mHealth assessment guidelines are foreseen to be drafted in four iterations, with each followed by further stakeholder engagement. The second iteration, the version which forms the subject of this article (hereafter ‘second draft’) and which was published at the end of May 2016, refined the content of the first draft, which was presented at an open stakeholder meeting at the beginning of May (hereafter ‘first draft’).
The last iteration of the guidelines is set to be produced at the end of December 2016. The feedback is to be included in the final report, which is expected on 25 January 2017.
Source: Bird & Bird

BD and Apax Partners Forms Joint Venture to Launch Global Respiratory Business

BD and Apax Partners announced the launch of a joint venture – Vyaire Medical – a standalone, global respiratory solutions company. The closing finalizes the sale of 50.1 percent interest in BD’s Respiratory Solutions business to funds advised by Apax Partners, a leading global private equity firm. Vyaire Medical includes all business lines within BD’s Respiratory Solutions business, including Ventilation, Respiratory Diagnostics, Vital Signs and AirLife, and will have estimated annual revenue of over  $800 million. BD will retain a 49.9 percent minority interest in the new company.

BD’s Respiratory Solutions facilities will transfer to the new company, including locations in Yorba Linda, Calif.; Palm Springs, Calif.; Plymouth, Minn.; Mexicali, Mexico; Cotia, Brazil; Hoechberg, Germany and Shenzhen, China. The new company will employ more than 5,000 associates around the world.
BD plans to use net proceeds for share repurchases, subject to market conditions. In fiscal year 2017, due to the limited profitability of the business today, BD anticipates earnings dilution of approximately $0.10 to $0.14, net of share repurchases. The company expects to record a material tax loss on the transaction at the time of closing.
A press release is available from BD website.

Intuitive Surgical established joint venture in China

Intuitive Surgical and Shanghai Fosun Pharmaceutical (Group) Co., Ltd. announced a joint venture to research, develop, manufacture and sell innovative, robotic-assisted catheter-based medical devices.

The joint venture between Intuitive Surgical, the global leader in robotic-assisted minimally invasive surgery, and Fosun Pharma, a leading healthcare group strategically comprising the complete value chain, will initially produce products targeting early diagnosis and cost-effective treatment of lung cancer, one of the most commonly diagnosed forms of cancer in the world.
The technology will be used in robotic-assisted medical devices based on catheters, and incorporates proprietary intellectual property developed or owned by Intuitive Surgical.  The joint venture will be registered in Shanghai, where it will perform research and development activities and manufacture catheter-based products for global distribution. Distribution in China will be conducted by the joint venture. Distribution outside of China will be conducted by Intuitive Surgical.
Source: Intuitive Surgical

04 October, 2016

Promising biomaterial to build better bones with 3-D printing

A Northwestern University research team has developed a 3-D printable ink that produces a synthetic bone implant that rapidly induces bone regeneration and growth. This hyperelastic “bone” material, the shape of which can be easily customized, one day could be especially useful for the treatment of bone defects in children.

Bone implantation surgery is never an easy process, but it is particularly painful and complicated for children. With both adults and children, often times bone is harvested from elsewhere in the body to replace the missing bone, which can lead to other complications and pain. Metallic implants are sometimes used, but this is not a permanent fix for growing children.
“Adults have more options when it comes to implants,” said Ramille N. Shah, who led the research. “Pediatric patients do not. If you give them a permanent implant, you have to do more surgeries in the future as they grow. They might face years of difficulty.”
Source: Northwestern University

New imaging device instantly visualizes potentially harmful bacteria at POC

MolecuLight Inc. has received CE Mark approval authorizing commercial sales in the European Union of its MolecuLight i:X Imaging Device, that is revolutionizing wound care.

The MolecuLight i:X will be making its European debut at the World Union of Healing Societies (WUWHS) World Congress, September 25-29 in Florence, Italy. The company will introduce the product to wound care clinics and hospitals across Europe, demonstrating how, with the MolecuLight i:X incorporated into their clinical assessment of wound care patients, health care professionals will have access to real-time visualization of potentially harmful bacteria immediately at the bedside.
The MolecuLight i:X uses the principle of fluorescence to capture and document either still images or videos of wounds as well as their surrounding areas where potentially harmful bacteria may be present, without the need of contrast agents.
Source: MolecuLight

Mellon Medical Unveils Single-Handed Suturing Device

Mellon Medical is unveiling a patented ground breaking global innovation in suturing technology. The company has developed a platform technology for suturing with a single hand. The Switch®, a disposable precision-suturing instrument, enables surgeons to suture tubular and layered structures about twice as fast as the conventional technique. The technology is expected to reduce the risk of complications, resulting in improved patient outcome and a reduction of costs. Mellon expects market introduction of the Switch® – which has been successfully tested by a large number of experienced vascular surgeons – in 2017, once final development and CE certification process have been completed.
The Switch® can be operated by lightly pinching the double-action buttons with thumb and index finger of one hand. The other hand is free to present the tissue to be sutured. This technique greatly improves the precision and efficiency of the suturing process, as surgeons no longer need to switch the needle between instruments and focus on getting control over the needle.
   
In the Switch®, the needle is always secured in one of the two jaws. The predictable linear path followed by the straight needle causes less motion friction, reducing the likelihood of damage to the vessel wall and resulting in a high quality connection.
Source: Mellon Medical

GE Healthcare launches new compact ultrasound system

GE Healthcare announced the global commercial launch of its new generation of high-end portable compact cardiovascular ultrasound, the Vivid™ iq. A smaller sized compact weighing just 4.5 kg, the Vivid™ iq matches exceptional image quality with extraordinary functionality, allowing clinicians to diagnose in more settings than ever before. From the Cath lab and the OR to the ER or even a tented exam room in a remote location, this ultra-portable diagnostic ultrasound system delivers premier cardiac care without compromises.

As GE Healthcare’s most advanced portable cardiovascular ultrasound to date, the Vivid™ iq was developed alongside clinicians and healthcare providers around the world. Dr. Ferran Rosés Noguer, head of the Pediatric Cardiology Department at Vall d’Hebron University Hospital in Barcelona, said: “Vivid iq is a huge step forward in terms of image quality and innovative design. It is extremely user friendly, truly portable, with a fantastic interface and a great design that is really futuristic and elegant at the same time.”
With today’s increasing patient volumes, Vivid™ iq helps adapt to new challenges with the combination of power and portability.
A press release can be found from GE Healthcare website.

Memory loss not enough to diagnose Alzheimer's

Relying on clinical symptoms of memory loss to diagnose Alzheimer’s disease may miss other forms of dementia caused by Alzheimer’s that don’t initially affect memory, reports a new Northwestern Medicine study.
There is more than one kind of Alzheimer’s disease. Alzheimer’s can cause language problems, disrupt an individual’s behavior, personality and judgment or even affect someone’s concept of where objects are in space.
If it affects personality, it may cause lack of inhibition. “Someone who was very shy may go up to grocery store clerk — who is a stranger — and try to give her a hug or kiss,” Rogalski said.
This all depends on what part of the brain it attacks. A definitive diagnosis can only be achieved with an autopsy. Emerging evidence suggests an amyloid PET scan, an imaging test that tracks the presence of amyloid — an abnormal protein whose accumulation in the brain is a hallmark of Alzheimer’s — may be used during life to determine the likelihood of Alzheimer’s disease pathology.
Full story is available from Northwestern University website.

FDA Approves Medtronic TrailBlazer Angled Peripheral Support Catheter

Medtronic announced that the U.S. Food and Drug Administration (FDA) has cleared the TrailBlazer(TM) angled support catheter for use in the peripheral vascular system. Support catheters such as the Trailblazer are often used in endovascular procedures treating complex peripheral artery disease (PAD).

The new TrailBlazer angled support catheter is designed to support a guide wire during access to the peripheral arteries, and to enable delivery of solutions and diagnostic agents. The catheter features a braided stainless steel shaft for robust pushability and a 25 and 30 degree angled tapered tip to access and cross complex lesions. To enhance physician visibility, each of the .014″, .018″ and .035″ guidewire compatible devices is designed with three radiopaque marker bands and a radiopaque shaft. Additionally, both the .014″ and .018″ TrailBlazer angled support catheter can fit coaxially through the .035″ support catheter for increased reach and pushability.
A press release can be found from Medtronic Website.

Online gamers invited to tackle rare muscle disorder

Gamers who have helped scientists understand the structure of hundreds of complex proteins by playing an online protein folding game Foldit are being invited to help work out the structure of an abnormal protein that causes a disabling muscle disorder called limb girdle muscular dystrophy. The project hopes to enlist thousands of volunteers from around the world to help determine the shape of the protein that lies at the root of the disease.

Limb girdle muscular dystrophy, or LGMD, is a rare, inherited disorder that primarily affects the muscles of the upper arms and legs. As the disease progresses, it becomes increasingly difficult for people with LGMD to perform such common activities as lifting objects, standing up from a chair, or climbing stairs. As the disease progresses, it becomes increasingly disabling. Currently there is no effective treatment or cure.
Proteins are made of a string of molecules, called amino acids, which are linked together like beads on a string. The sequence of the amino acids determines the folded shape a protein takes, which in turn determines how the protein works. In order for proteins to function properly they must fold into the right shape. If they don’t, they won’t work well, if at all, which can result in disease.
In the new project, which will be launched on Limb Girdle Muscular Dystrophy Awareness Day, Friday, Sept. 30, the Foldit players will focus on a protein called dysferlin that is believed to help maintain muscle cells and allow them to recover from injury.
People who inherit genes responsible for one form of LGMD, called LGMD-2B, cannot make normal dysferlin. As a result, they become weaker and weaker as their muscles gradually deteriorate.
The goal of the project is to work out the structure of dysferlin to better understand how it functions and what other proteins it interacts with. This information could lead to better treatments and perhaps a cure. LGMD-2B is a special interest of the Jain Foundation, which was founded by Ajit Jain, whose son has the disease.
Full story can be found from University of Washington website.

BD New Automated ID/AST System Against Antimicrobial Resistance

BD announced the launch of its next generation diagnostic instrument for the rapid identification of bacteria and detection of antimicrobial resistance.

The global health care community is facing unprecedented challenges with the spread of multidrug resistant organisms, and today’s clinical microbiology laboratories are under increasing pressure to provide fast and accurate bacterial identification and antimicrobial susceptibility testing (ID/AST) results to influence clinical decision and outcomes.
The new BD Phoenix™ M50 ID/AST system helps deliver the same rapid, accurate and cost-effective testing as the legacy BD Phoenix™ 100, within a smaller footprint. The system is highly reliable and requires no preventative maintenance, thanks to innovative materials and engineering techniques employed during its development.  In addition to being robust, the system offers multiple languages, facilitating even broader adoption in laboratories around the world.
The new system benefits from the demonstrated performance of the legacy BD Phoenix 100 system for detecting current and emerging resistances as well as the extended testing capabilities provided by BD Phoenix™ Emerge AST panel with 136 wells.
The BD Phoenix M50 system also offers integration with multiple other analyzers, including the BD BACTEC™ and BD Bruker™ MALDI Biotyper systems, through BD EpiCenter™ middleware connectivity that enables data traceability and security, paperless workflow and flexible communication capabilities to deliver the efficiencies expected by laboratories of all sizes.  The BD Phoenix M50 system joins the overall BD diagnostics portfolio to help drive the transformation of microbiology.
A press release is available from BD website.