E-HEALTH - E-SANTE - PHARMAGEEK
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10 great sports digital marketing campaigns

From econsultancy.com

Sports marketers don't always get it right.

From ill-judged commercial stunts at live games, to betting companies with distasteful social media profiles, to exploitative pricing in-app, there are many bad examples.

However, more often, such great subject matter lends itself to great campaigns.

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#FDA Blames Computer Glitch for Hundreds of Errors Found in Essure Adverse Event Reports

From www.nbcnewyork.com

Since it hit the market, doctors have reported hundreds of problems with a form of birth control called Essure. But a new analysis of those alleged problems, known as adverse event reports, shows many have been mislabeled.

 

Physicians and nurses have reported more than 300 problems with Essure since August of last year, according to Madris Tomes, a former Food and Drug Administration analyst. In most cases, the data field for the reporter’s occupation doesn’t say "physician." It says "other."

 

"If the FDA is relying on those physician reports to appear very obviously to be physician reports, then I would say it is concealment," Tomes said in an interview with the I-Team.

The FDA blamed a computer glitch for the inconsistencies in its safety data in a statement Tuesday

Pharma Guy's curator insight, May 4, 1:50 PM

Also read: "Patient Advocacy Group Calls On Congress To Investigate FDA’s Role In Essure Approval"; http://sco.lt/4neB1d 

NHS patients to be monitored remotely in digital healthcare revolution

From www.telegraph.co.uk

The NHS is going high-tech with new proposals announced today which could see
conditions being monitored remotely to free up doctors' appointments
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E-santé: les 10 tendances à surveiller

From www.frenchweb.fr

Aux Etats-Unis, les hôpitaux qui proposent les meilleures «expériences patients» ont des marges 50% supérieures à leurs concurrents.
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Dans le sillage de Withings, racheté par Nokia, 49 pépites françaises de l'e-santé à découvrir

From www.usinenouvelle.com

En janvier, au Consumer electronics show (CES) de Las Vegas, l’incontournable rendez-vous mondial de la high-tech, les pépites...
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Can technology help us to treat diabetes better?

From patientstalk.net

Wearables, patches, nanosensors and other emerging technologies can radically enhance the quality of diagnostics and treatment of severe diseases such as cancer or cardio failure. We will address now the third part of the triptych: diabetes. According to WHO diabetes ‘will be the 7th leading cause of death in 2030’ with about 347 million people…
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E-santé: à quel stade de développement en sont les entreprises du secteur?

From www.frenchweb.fr

Seuls 5% des entreprises de santé interrogées ont trouvé un modèle économique viable dans le digital, d'après le rapport State of Digital Health Innovation.
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Prochaine Rencontre IRL le 12 mai : "La co-construction au coeur de l'e-santé" - Club Digital Santé

From club-digital-sante.info

Pour la seconde Rencontre IRL (In Real Life) du Club Digital Santé de 2016, nous vous convions le 12 mai pour une session sur « La co-construction au coeur de l’e-santé ». Nous avons le plaisir de vous convier à une nouvelle Rencontre IRL du Club Digital Santé organisée en partenariat avec l’agence Wellcom qui nous recevra …
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Participez au concours d'infographie Doctors 2.0 & You / Club Digital Santé - Club Digital Santé

From club-digital-sante.info

  Pour encourager la production et la diffusion d’infographies pédagogiques dédiées à la Santé digitale, le Club Digitale Santé s’associe à Doctors 2.0 & You pour organiser le 1er concours d’infographie santé digitale. L’arrivée proche de la 6ème édition du congrès Doctors 2.0 & YOU, dédié à ces thématiques, nous donne l’opportunité de réaliser le concours …
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Preparing the doctor of the future: Medical school and residency program evolution

From dupress.com

The basic structure of US medical education has hardly changed in the past 100 years. Yet in the 21st century, doctors must navigate a dizzying array of high technology, new regulations, and shifting patient expectations. How can medical schools better prepare the physician of tomorrow?
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Santé connectée : le meilleur... ou le pire

From blogs.lexpress.fr

Voilà pourquoi il me semble essentiel que les patients restent propriétaires de leurs données personnelles et que les pouvoirs publics « gardent la main » sur la gestion de ces données. Faute de quoi, la santé connectée n’offrira pas le meilleur, à savoir une responsabilisation de l’ensemble des acteurs, médecins patients et payeurs. Mais le pire : une rentabilisation forcée sans la moindre solidarité collective.
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[INFOGRAPHIE] L’e-santé a la côte chez les patients

From www.objetconnecte.com

A l'aube de l'e-santé, il est important de se demander ce qu'en pensent les premiers concernés. Selon Pharminfo, le résultat est plutôt favorable.
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Eight technologies that could change healthcare beyond recognition

From www.theguardian.com

Smartphones, genome sequencing and wearable technology will bring benefits but also challenges to health and social care
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Healthcare in the digitisation era

From www.bigdataleaderseurope.com

If health is to be reduced to the 0’s and 1’s of digitalisation, then the pharmaceutical industry needs to ensure it is a ‘1’ and not a ‘0’
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Generali en attente de la Cnil pour son assurance santé qui récompense les comportements sains

From www.larevuedudigital.com

Generali doit encore passer le barrage de la Cnil pour son offre d'assurance santé qui récompense les efforts ...   Cet article est …
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«L’e-santé n’est que le début d’un grand bouleversement »

From pulse.edf.com

L’e-santé va bouleverser la médecine, décryptage avec Dominique Noël, présidente du Festival de la Communication Santé.
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Les seniors et le digital : une population aussi connectée - Blog du Modérateur

From www.blogdumoderateur.com

Seniors et digital = Error 404 ? Oubliez ce cliché ! La 3ème édition du baromètre TNS Sofres sur les 55 ans et + montre clairement que les Silvers et Inter
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Top 11 Innovations in Health Care Technology in 2016

From getreferralmd.com

Here are some of the top healthcare technologies of 2016 and beyond…The Star Trek Style Tricorder

To start off, Yes I am a Star Trek Nerd, loved almost every series, specially TNG (The Next Generation) and no not because I shave my head like Patrick Stewart.

 

Star Trek: The Next Generation
Patrick Stewart as Captain Jean-Luc Picard

Star Trek has always inspired millions of people, including myself to reach beyond what we thought was possible and achieve the impossible.  And futuristic medical devices are no different.

Qualcomm has a contest, called XPrize, that was just extended till 2017 for 7 final teams developing the almighty Tricorder featured in the picture below from the popular Star Trek series. The winner receives $10 million to bring the device to reality. 

 

 

In the fictional Star Trek universe, a tricorder is a multifunction hand-held device used for sensor scanning, data analysis and recording data.

Three primary variants of the tricorder appear in Star Trek, issued by the fictional organization Starfleet.  The standard tricorder is a general-purpose device used primarily to scout unfamiliar areas, make detailed examination of living things, and record and review technical data. The medical tricorder is used by doctors to help diagnose diseases and collect bodily information about a patient. 

 

2.   Interoperability between Health Systems

Interoperability solutions for exchanging patient information across care settings is one particular technological development that will shape the future of healthcare organizations.


Value-based care and health information exchanges are an increasingly important part of the overall healthcare landscape, and the ability for all providers – from general practitioners and specialists to post-acute care organizations, etc. – will only grow as a critical component of care delivery in the future.

These types of solutions have only started being developed in the past few years by companies such as referralMD, that are changing how healthcare companies communicate by including post-acute care providers in critical interoperability workflows, as these providers are expected to be a big part of health care cost containment.

 

By including post-acute care in interoperability strategies, healthcare organizations can ensure that critical patient information across all care settings will be connected, providing a more detailed patient picture for more specific treatment plans and improved patient care.

The statistics are damning, hospitals lose $75+ million per year per 100 affiliated physicians due to referral leakage, a burden that can be reduced by proper referral network management that companies such as referralMD can help monitor.  Hospitals are just starting to get make changes in their budgets to include programs that can truly help patients receive better care, and save their staff’s time in the process.

Not only are hospitals affected but so are small-to-mid sized practices, with many having to juggle 100’s of specialty offices with different workflow requirements, without an electronic way to exchange information, the process breaks down, information is not accurate, and time is wasted.

3. Robotic Nurse Assistant

I have many of friends that are nurses that are injured every year from having to move or lift patients in bed or after an emergency from a fall.  The problem is very common and many of times there is not someone around that is strong enough to lift a patient immediately after one of these occurrences.

There are many variations from a full robot such as RIBA (Robot for Interactive Body Assistance) developed by RIKEN and Tokai Rubber Industries and assisted hardware such as HAL (Hybrid Assistive Limb) robot suits delivered by Cyberdyne.


 

RIBA is the first robot that can lift up or set down a real human from or to a bed or wheelchair. RIBA does this using its very strong human-like arms and by novel tactile guidance methods using high-accuracy tactile sensors. RIBA was developed by integrating RIKEN’s control, sensor, and information processing and TRI’s material and structural design technologies.

 

 

 

 

 

A company by the name of HAL is a robotics device that allows a care worker to life a patient with more stability and strength and helps prevent injuries to our nurses.

 

4. Artificial Retinas

The United States typically defines someone as legally blind when the person’s central vision has degraded to 20/200, or the person has lost peripheral vision so that he sees less than 20 degrees outside of central vision. Normal vision is 20/20, and people can usually see up to 90 degrees with their peripheral vision. An estimated 1.1 million people in the United States are considered legally blind.

This has led to companies like Nano-Retina to develop a sophisticated and elegant solution intended to restore the sight of people who lost their vision due to retinal degenerative diseases. The miniature Nano Retina device, the NR600 Implant, replaces the functionality of the damaged photoreceptor cells and creates the electrical stimulation required to activate the remaining healthy retinal cells. NR600 consists of two components; a miniature implantable chip and a set of eyeglasses worn by the patient.


 

Very interesting technology for those that are always sitting in front of the computer like myself, hopefully it will not be needed by me, but it’s great that companies are advancing for those that suffer this debilitating illness.

 

5. Advances in Prosthetics

War is in our DNA, and with conflict, there is injuries to our Military including loss of limbs and traumatic brain injury. DARPA is looking to change that by enabling wounded service members with amputations to neurally control state-of-the-art prosthetic limbs. The goal is to assist them in returning to active duty and to improve their quality of life. Program developments may impact the broad community of patients with medical amputations, spinal cord injuries and neurological diseases.

The challenges lie with creating an interface that is directly compatible with our own nervous system and making the connection fast enough to interpret our movement intent without latency.

I have been following Les’s story (an amputee) for a while and featured it in last years 2015 version of this article, see video below and wanted to showcase it again as organizations such as Johns Hopkins are making great strides in the movement to help the world live an easier life.


5. Remote Patient Monitoring

Monitoring programs can collect a wide range of health data from the point of care, such as vital signs, weight, blood pressure, blood sugar, blood oxygen levels, heart rate, and electrocardiograms.

This data is then transmitted to health professionals in facilities such as monitoring centers in primary care settings, hospitals and intensive care units, skilled nursing facilities, and centralized off-site case management programs.  Health professionals monitor these patients remotely and act on the information received as part of the treatment plan.

Monitoring programs are tools to help achieve the “triple aim” of health care, by improving patient outcomes and access to care, and to make health care systems more cost effective.

For example:

  • In this 2014 study, a six-month feasibility study was conducted on eight patients with a history of Acute Exacerbation of CODP (AECOPD).  Each patient was given a mobile phone to record major symptoms, such as dyspnoea, sputum color and sputum volume; minor symptoms such as cough and wheezing; and vital signs. During the trial, the rate of hospital admissions were significantly lower and there were fewer ED presentations and GP visits compared to a six-month matched period in the preceding year. Such results showed “the potential of home monitoring for [analyzing] respiratory symptoms for early intervention AECOPD.”
  • Similar to our previous Star Trek device, a company in Israel, Tyto Care, has developed a portal device that helps monitor all sorts of health parameters to let doctors diagnose patients remotely.   Allowing your doctor to perform their job with accurate metrics about you or your child’s illness without having to resort to a in person visit.  The Tyto device is currently going through the FDA clearance process, hopefully one day offering people the option of staying at home rather than visiting the clinic in most simple health situation.

“We are coming together at a pivotal time in the mobile healthcare industry. As health reform demands more focus on delivering quality outcomes and reducing costs, providers are turning to technology like remote monitoring to diagnose and treat more patients in ways that use time, money and human resources efficiently and effectively. Our shared vision is to become a worldwide leading remote monitoring company,” said Jon Otterstatter, President and Chief Global Strategy Officer of Preventice Inc.

6. Anti-Aging Drugs

The dream, or the nightmare, depending on  how you take it, is living forever, or at least in the foreseeable future to 120+ years old.   2016 will be the year of a new anti-aging drug test that will enter trials which could see diseases like Alzheimer’s and Parkinson’s consigned to distant memory.

Scientists now believe that it is possible to actually stop people growing old as quickly and help them live in good health well into their 110s and 120s.

Although it might seem like science fiction, researchers have already proven that the diabetes drug metformin extends the life of animals, and the Food and Drug Administration in the US has now given the go ahead for a trial to see if the same effects can be replicated in humans.

“This would be the most important medical intervention in the modern era, an ability to slow ageing”
Dr Jay Olshansky, University of Illinois Chicago

If successful it will mean that a person in their 70s would be as biologically healthy as a 50-year-old. It could usher in a new era of ‘geroscience’ where doctors would no longer fight individual conditions like cancer, diabetes and dementia, but instead treat the underlying mechanism – ageing.

The new clinical trial called Targeting Aging with Metformin, or TAME, is scheduled to begin in the US next winter. Scientists from a range of institutions are currently raising funds and recruiting 3,000 70 to 80 year olds who have, or are risk of, cancer, heart disease and dementia. They are hoping to show that drug slows the ageing process and stops disease.

 

Outlining the new study on the National Geographic documentary Breakthrough: The Age of Ageing, Dr Jay Olshansky, of the University of Illinois Chicago, said: “If we can slow ageing in humans, even by just a little bit it would be monumental. People could be older, and feel young.

“Enough advancements in ageing science have been made to lead us to believe it’s plausible, it’s possible, it’s been done for other species and there is every reason to believe it could be done in us.

“This would be the most important medical intervention in the modern era, an ability to slow ageing.”

 

7. Tooth Regeneration

Hey Kids, here is some candy!  All kidding aside, this could be an amazing advancement if the technology holds true in the coming years.

Colorful fish found in Africa may hold the secret to growing lost teeth. In a collaborative study between the Georgia Institute of Technology and King’s College London, researchers looked at the cichlid fishes of Lake Malawi in Africa, who lose teeth just to have a new one slide into place. Their study, published in the Proceedings of the National Academy of Sciences, identifies the genes responsible for growing new teeth and may lead to the secret to “tooth regeneration” in humans.

“The exciting aspect of this research for understanding human tooth development and regeneration is being able to identify genes and genetic pathways that naturally direct continuous tooth and taste bud development in fish, and study these in mammals,” said the study’s co-author Paul Sharpe, a research professor from King’s College, in a press release. “The more we understand the basic biology of natural processes, the more we can utilize this for developing the next generation of clinical therapeutics: in this case how to generate biological replacement teeth.”

Another study from a Harvard team successfully used low-powered lasers to activate stem cells and stimulate the growth of teeth in rats and human dental tissue in a lab. The results were published today in the journal Science Translational Medicine.  Stem cells are no ordinary cells. They have the extraordinary ability to multiply and transform into many different types of cells in the body. They repair tissues by dividing continually either as a new stem cell or as a cell with a more specialized job, such as a red blood cell, a skin cell, or a muscle cell.

Dentures and dental implants may soon become a thing of the past. Stem cell research is making it possible to regrow your missing teeth!
This is a much-needed medical advancement, especially considering that by age 74—26% of adults have lost all of their permanent teeth.

 

8. Lightbulbs that Disinfect and Kill Bacteria

Hospitals are known to be potentially dangerous place with lot’s of people with different elements and diseases.  One company, Indigo-Clean has developed a technology using visible light that continuously disinfect the environment and bolsters your current infection prevention efforts.

How it works
  1. The 405nm emitted from Indigo-Clean reflects off of walls and surfaces, penetrating harmful micro-organisms
  2. The light targets naturally occurring molecules called porphyrins that exist inside bacteria. The light is absorbed and the excited molecules produce Reactive Oxygen Species (ROS) inside the cell
  3. 405nm creates a chemical reaction inside the cell, similar to the effects of bleach
  4. The Reactive Oxygen Species inactivates the bacteria, preventing it from re-populating the space

 

9. Electronic Underwear Preventing Bed Sores

Having elderly grandparents that have died from complications due to bedsores is extremely unfortunate, as much of these issues could be prevented.  When patients stay motionless for days, weeks, or months they develop painful open wounds due to lack of circulation and compressed skin.


And believe it or not, bedsores can be deadly. Roughly 60,000 people die from bed sores and resulting infections every year, draining $12 billion from the U.S. medical industry.

Developed by Canadian researcher Sean Dukelow of Project SMART, the electric underpants—deliver a small electrical charge every ten minutes. The effect is the same as if the patient was moving on their own—it activates muscles and increases circulation in that area, and effectively eliminates bed sores, thereby saving lives.

 

10. Long Lasting Batteries for Medical Devices and Wearables

The need for power is evident in today’s world, for our houses, cars, and medical devices such as pacemaker batteries that typically need to be replaced with an expensive surgery.   With the need for power-hungry devices comes innovation in the form of new technologies that will help provide the world with longer lasting, faster charging batteries.

    • Aluminum-Ion Batteries: Chemistry Professor Hongjie Dai from Stanford University and his team say their aluminum-ion battery prototype can fully charge a phone in one minute and maintain its strength through thousands of recharge cycles — over seven times as many cycles as current phone batteries. But fast charging times aren’t the only advantage this new prototype has over the standard lithium-ion battery found in most of our devices.  Perhaps the battery’s most impressive quality is its flexibility, meaning it could work with any future devices that are curved or use bendable screens.


  • Micro Supercapacitors:  Rice University researchers who pioneered the development of laser-induced graphene have configured their discovery into flexible, solid-state micro super capacitors that rival the best available for energy storage and delivery.   Rice’s micro super capacitors charge 50 times faster than batteries, discharge more slowly than traditional capacitors and match commercial super capacitors for both the amount of energy stored and power delivered.
  • Foam Batteries: The future of batteries is 3D. Prieto is the first company to crack this with its battery that uses a copper foam substrate.  This means these batteries will not only be safer, thanks to no flammable electrolyte, but they will also offer longer life, faster charging, five times higher density, be cheaper to make and be smaller than current offerings.
  • Skin Power: Researches from the National University of Singapore have created a replacement for batteries all together would be an electrode used to harvest the current caused by friction on the skin and clothes.  The result is enough power, from a finger tap on skin, to power 12 LED bulbs. The future could mean there are no need for batteries in wearables or smart clothes.  So how does it work? An electrode is used to harvest the current, so a 50nm-thick gold film is used. The gold film sits below a silicone rubber layer composed of thousands of tiny pillars that help create more surface area for skin contact, which creates more friction. Since the skin is a one of the triboelectric layers it means the device can be small.  Scientists have already shown off a wearable powered by the device. Next gadgets to use it? Hopefully everything.
11.  Health Informatics

More than half of US hospitals use some type of electronic records system, but only 6% meet all the federal mandates, according to a recent study out of the University of Michigan. According to researchers at the University of Chicago, 50% of health care dollars are wasted on inefficient record keeping processes. Electronic records have been shown to save large hospitals anywhere between $37 and $59 million. It streamlines the medical care process and lowers malpractice claims, and increases coordination between providers.  Improvements still need to be made communicating patients between facilities as noted from referralMD, (Provider-to-provider communication software) where roughly 50% of all patients do not attend appointments, driving costs upwards, and lowering patient outcomes dramatically.


Practitioners and medical researchers can look forward to technologies that enable them to apply data analysis to develop new insights into finding cures for difficult diseases. Healthcare CIOs and other IT leaders can expect to be called upon to manage all the new data and devices that will be transforming healthcare as we know it.

Technical Dr. Inc.'s curator insight, April 7, 3:50 AM

Contact Details :
inquiry@technicaldr.com or 877-910-0004
www.technicaldr.com/tdr
- The Technical Doctor Team

Orange Healthcare - [infographie] L'e-santé en Europe

From healthcare.orange.com

Orange Healthcare, entité dédiée à la stratégie santé du groupe Orange, concentre son expertise autour de trois domaines d’intervention : les services pour les professionnels de santé, les services de télésanté et les services de prévention. Orange Healthcare est un partenaire technologique privilégié du secteur de la santé, il contribue à moderniser les infrastructures de santé mais également les systèmes de soins dans leur ensemble, en équippant les établissements de santé en solutions de communication au niveau national et international. Hébergement et sécurisation des données informatisées des patients, meilleure gestion des matériels médicaux, amélioration de l’accueil des patients, perfectionnement du parcours patient et équipement multimédia, télésuivi des maladies chroniques, services de maintien à domicile, accompagnement de la perte d'autonomie, services de télémédecine sont autant de réponses qu’Orange Healthcare se propose d’apporter au monde médical à travers ses offres.
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Objets connectés, données de santé… Comment la HAS arbitre la e-santé ? - Le Hub Santé

From www.lehubsante.com

Jean-François Thébaut préside la commission parcours et pratiques et la commission d’évaluation économique et de santé publique au sein de la Haute Autorité de Santé (HAS). Le rôle de cette autorité administrative est d’évaluer l’apport médico économique de tout ce qui peut être proposé au remboursement de l’Assurance Maladie : actes techniques, services, médicaments, établissements hospitaliers, …
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