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The major advancements in the medical technology in todays fast paced world

Read the 2018 version: The future of healthcare is changing dramatically with medical and dental technology advances starting to accelerate and larger health systems taking notice. Will health systems accelerate the adoption of amazing technologies from the digital health startup community? Will we see new drugs that cure major diseases? Will regulatory changes from the new Trump administration help or hurt?

So what does this mean to all of our colleagues, friends, and families? The referralMD healthcare technology review will showcase some amazing advances that could change the fabric of healthcare for the better and reduce the risk we would otherwise face.

Augmented Reality Education needs a revamp, and even more so healthcare education. Doctors are put through a gauntlet of requirements before they even see the light of day AKA a paycheck and this leads to supply issues.

The advancement of technology and how it will impact our future in the workplace

Currently, it is estimated that the United States needs 96,000 more doctors just to meet the current needs. So how does it get better? Judy Yee has spent decades poring over medical scans trying to make sense of 3-D problems on a flat screen.

But now a breakthrough technology is making her job a lot easier. It takes data from CT and MRI scans and transforms it into 3-D holographic images so she can view and interact with patient tissues and organs as if they were real physical objects.

Medical 3-D imaging is not new, but the way organs appear to pop out of the screen and the ease at which the anatomy can be manipulated has never been seen before in medicine.

Patient access has always been a problem, only 54 percent of all faxed patient referrals result in scheduled appointments due to the complexities of communication between health systems, or the lack thereof.

Ability to get a patient to an appointment is critical. It is a tight-knit ecosystem where if one chain in the communication link breaks down then all heck breaks loose and everyone suffers. The great thing is there are finally platforms on the market that helps providers and staff route patients to the most appropriate high-quality clinician in a community using SmartMATCH Technology from ReferralMD.

ReferralMD Analytics Dashboard showing real-time leakage numbers 3.

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Human Head Transplants Sergio Canaveroan Italian neurosurgeon, intends to attempt the first human head transplant by 2017, though no successful animal transplants with long-term survival have yet been made. Because of the difficulty of connecting the spinal cord, Canavero has suggested improvements in the process using a special blade and polyethylene glycol, a polymer used in medicine as well as in everything from skin cream to the conservation of the Mary Rose, can help start growth in spinal cord nerves.

Being able to surgically remove the head in an orderly fashion should allow surgeons to then reattach all the nerves and blood vessels to the new body, once that pesky donor head is removed. A special bio-compatible glue will hold the spinal cord together so it can fuse with the donor body. The patient will then be put in a drug-induced coma for four weeks while the connection between the head and body heals.

Canavero says all the technology he needs is available and estimates the procedure will take about 36 hours and require the services of 150 medical professionals.

He seems set to try, though. A few years ago face transplants seemed like science fiction. Even if this does work, the process will be obscenely expensive.

Plus, it will give an entire body full of transplantable organs to a single person.

The Impact of Technology on Healthcare

Valery Spiridonov, a man who has volunteered to be the first person to undergo a head transplant, attends a news conference in Vladimir, Russia, June 25, 2015.

The 30-year-old Russian, who has a degenerative muscle condition known as Werdnig-Hoffman, wants to become the first person ever to undergo a human head transplant. Qualcomm Tricorder 2017 Update Diagnosing patients has always been challenging without in-depth testing, one day soon we may have devices that can help determine aliments in seconds versus hours or days.

Technology and the Future of Healthcare

Last year we reported on the Qualcomm Tricorder Xprize. The finalists have been chosen and narrowed down to 2 teams. Congrats everyone you earned it! Heart in a Box: Warm Blood Perfusion System Cardiac transplantation, also called heart transplantation, has evolved into the treatment of choice for many people with severe heart failure who have severe symptoms despite maximum medical therapy.

Survival among cardiac transplant recipients has improved as a result of improvements in treatments that suppress the immune system and prevent infection. Unfortunately, the number of heart donors has reached a plateau despite an increasing number of potential recipients.

17 Amazing Healthcare Technology Advances of 2017

More than 5000 cardiac transplants occur each year around the world, although it is estimated that up to 50,000 people are candidates for transplantation.

This critical organ shortage means that healthcare providers must strictly evaluate who should receive a heart transplant. For many years, surgeons in the United States have preserved organs in a cold solution and transported in coolers to the receiving patient in need.

But this process can cause damage to the heart and in some cases render it unusable. So what is different? Leadless Pacemakers Pacemakers have come along way since the 60s, where investor Dr. Wilson Greatbatch accidentally invented it.

What new technologies carry the biggest risks?

By mistake, he grabbed the wrong resistor from a box and plugged it into the circuit he was making. Greatbatch recognized the lub-dub rhythm. This was exactly what was needed to drive a sick human heart!

Companies like Medtronic and St. Jude that reduce potential risks of transvenous pacemakers such as serious infection. But new treatment options could help dramatically in the near future. This disease is extremely hard to treat and progresses rapidly when it becomes refractory; most patients die within a few months.

How does it work? The use of human T cells as therapeutics to re-engage the immune system has the potential to revolutionize the way cancer is treated. These cellular therapies have the potential to be effective regardless of the type of previous treatments patients have experienced and may avoid the long-term side effects associated with current treatments.

The process is long and tedious prior to approval of any new drug by regulatory agencies. A process of drug development involves various stages: