- Today, we'll look at the top 10 medical technologies and rate their importance in the future of digital health using a score system.
- As we all know, subjective numerical scores are the greatest method to assess the potential of future medical technology, therefore I'll assign a score to each of the three categories on a scale of one to ten.
- What is the probability of a given technology becoming a reality?
- What impact might it have on health-care access and availability for the general public?
Today, we'll look at the top 10 medical technologies and use a scoring system to rank their importance in the future of digital health. As we all know, subjective numerical scores are the best way to assess the potential of future medical technologies, so I'll assign a score on a scale of 1 to 10 in three categories.
How near is a particular technology to becoming a reality? What impact could it have on health care and accessible for the general public?
When we look back on today's healthcare, it will seem completely absurd that when something goes wrong with our health, we have to get in a car and drive to the nearest facility where we can receive care. Health sensors and telemedicine will change all of that and make patients the point of care even today variables are mainstream and the Apple watch or the
With the advent of portable diagnostic equipment like mobile oz, sound scanners, and medical tricorders like this one, medical practitioners will be able to collect the majority of the information needed for an educated diagnosis at the patient's bedside.
So, how near is the technology in question to becoming a reality?
Given that many of these have already been made public, I'll give it a nine out of 10 for its potential influence on healthcare.
Can you fathom what sufferers are going through?
So, eight out of 10, and general accessibility.
It's a more difficult problem because many of these technologies are either too expensive or not yet available, thus seven out of 10.
The index for tech blogging at the time was 24.
A reality that is both true and false
Mixed reality will be a critical component of healthcare in the future.
Unlike virtual reality, which blocks out the outside world, and augmented reality, which solely displays digital data on the real world, mixed reality displays content that interacts with it.
A mixed reality technology turns it into a three
holographic display, allowing the doctor to examine the problem area, analyze it layer by layer, and plan their intervention.
Before making the first incision, why not literally zoom in and out of the patient?
Imagine medical students learning anatomy in groups while dissecting a holographic body with no physical constraints or the formaldehyde odor.
Even today, there are examples of mixed reality use, although these devices are unlikely to become commonplace.
So it's a six out of ten for me.
Although the potential impact is substantial, it will not be life
Five out of ten of these devices are outrageously expensive, and despite falling pricing, they remain out of reach for the majority of people.
The index is 17 out of ten, which is the magical curvature.
Let's pretend for a moment that the brain surgeon has access to a surgical robot.
The doctor may rehearse and figure out the ideal approach to operate on the patient, then enlist the help of the robot to achieve absolute precision and no shaking hands.
Some surgical robots may be able to follow pre
and become semi
in surgery, and even fully autonomous in death.
In the hands of physicians, robotics can be a valuable tool, but they can also disrupt healthcare in a number of ways.
Machines don't require sleep or food, and they aren't prejudiced in any way.
They're not going to agree on why they have to take the same monotone test a thousand times.
For instance, sanitizing a hospital room in minutes, transporting medicine to the tenth level, or offering companionship to elderly patients.
In hospitals, six surgical robots out of a thousand are currently in operation.
The impact of automation on the medical workforce in terms of physical and repetitive duties could be enormous.
Eight out of ten, yet the vast majority of these robots are prohibitively expensive and difficult to obtain in some locations.
I'll give it a four out of 10 rating.
Brain implant therapy for patients paralyzed by spinal cord injury or other neurological damage have shown to restore some mobility and function in a number of studies.
There have been multiple successful trials of brain implant therapies for persons who have been paralyzed due to a spinal cord injury or other causes.
While you may hear uplifting stories about paraplegic people controlling their prosthetics or skeletons in the news, it's still a vision from the far future.
As a result, I give it a three
ten rating. It's difficult to predict the impact on healthcare, but the influence this technology can have on individuals with such health concerns will be life - changing, therefore seven out of 10.
Given that a single robot prosthetic costs around $150,000, I would argue that it is not truly accessible to the general public.
Nanotechnology ranks three out of ten on the Tech blogging index.
Microparticles in the shape of scallops have been proven to swim in the eye and execute processes, but what if nanoparticles and Nanotechnology could be used as precise medication delivery systems?
Consider administering chemotherapy to cancer cells while leaving healthy cells alone.
Inside, microscopic robots might send alerts to your smartphone when a disease is starting to emerge in your body, allowing you to intervene.
Even the word "symptom" would be utterly removed from our medical dictionaries in that scenario.
Nanotechnology is incredible, yet it is still science fiction.
I'd give it a 7 out of 10 for the potential influence on people's lives and prevention, and a 2 out of 10 for mass availability.
At the moment, the Tech blogging index is at 11 5g.
Our telecommunications networks' imminent 5g upgrade will build the groundwork for the digital health revolution right now.
Smart sensors and Internet of Things tools are putting additional strain on our networks, but 5g will increase their speed and capacity, allowing for a flood of creative technology in the future.
-sized connected gadgets will continuously monitor the patient's condition, and high - speed 5g networks will enable intelligent algorithms.
But what if there's a more serious issue that necessitates surgery?
5g is a lot of data.
The network will be able to handle remote surgeries because the time it takes for information to travel between two sites in the network will be less than one millisecond.
In other words, a patient with a certain illness may have surgery performed on them by an expert halfway around the world.
This year, as many operators roll out their new networks, 5G will be available, making it eight out of ten.
Only if healthcare providers begin to adjust will the impact be considerable.
As it becomes available this year, many people in the most developed regions will be able to use it; nonetheless, just six out of ten people in the most developed regions will be able to use it.
Twenty-direct-to-consumer genetic testing is included in the medical features index.
If you've been watching this channel for a while, you'll know that I'm a huge proponent of genetic testing and complete genome sequencing.
It's a particularly startling yet extremely necessary aspect of a responsible and health-conscious living.
genome sequencing is a method of deciphering your entire DNA and looking at it through the lenses of our collective knowledge of how our genome affects health. It can be a goldmine of information, showing you your risks for diseases you would otherwise be unaware of and allowing you to work with your physician to create a preventive plan around it.
For example, if your genome study indicates that you are at risk for diabetes, you can alter your diet and increase your physical activity to attempt to avoid developing the disease in the future.
Many tests are now available, but complete testing are still in the works, therefore we'll give it an eight out of ten.
Genomic research will have a tremendous impact on every element of healthcare, from medication sensitivity to nutrition.
On a scale of one to ten, it's a nine out of ten.
However, genome sequencing is still pricey, even if millions of individuals have utilized cheaper generic testing services, so it's a difficult question, but I'll give it a seven out of 10 for accessibility.
Also at seven out of ten is the magical futurist index.
243 impressions = d
Their most important feature, which ranges from printing guns to printing complete buildings, has yet to be highlighted.
In terms of health care, the first thought that springs to me is that 3d printers could be a solution for those who require mobility aids like as prosthetics.
Traditional prostheses are costly, and 80 percent of amputees lack access to facilities where they may receive one.
3D printing will be a cost
way for people in need to acquire modern, personalized prosthetics.
Bioprinting is a less visible illustration of how 3D printing might damage healthcare.
3D printing is used to create biological tissues such as blood veins, bones, and organs.
This could be a response to the term "organ scarcity."
Organ printing is more difficult than prosthetic printing, but one day we might be able to properly restore the function of damaged organs, and maybe, just maybe, if one of your organs needs to be replaced, we'll be able to do so.
They could give you a replacement working organ via FedEx a few days later.
Review printers are becoming more affordable, but practical applications in health, such as bio printers, are lagging six out of seven.
The effect would be palpable.
The primary problem is accessibility, which gets an eight out of ten.
Three of these are shown below.
The index is 17 and now artificial intelligence, which is a medical feature.
AI will change every aspect of our existence in the next few years, including medicine.
I am convinced that if we completely redesign healthcare for the better, AI will be able to support better diagnoses, help design treatment plans, and will be able to better understand the information it can gather from our DNA.
Personalized medicine and pharmaceuticals with a one
said, artificial intelligence (AI) will solve previously unsolvable medical problems and treat previously incurable diseases.
I'm not sure what to say.
Artificial limited intelligence
already been shown to support many of the procedures I just detailed in studies.
It's getting there, even if reaping the full benefits of AI in healthcare may take years, so how near is it to reality?
Six out of ten, I'd say.
Ten out of ten medical innovations are the mother of all medical technology.
Accessibility will be difficult in five of them, depending on where the patient or physician lives.
The index for tech blogging is 21.
Computing at the quantum level
If quantum computing is difficult to define, but its computational power can make existing supercomputers look like downgraded nation-building instruments, it might be a game changer.
For instance, there is no end to how much it might disrupt our lives, particularly healthcare.
For example, it will be able to sequence our entire DNA in under minutes, making genetic testing the basis of diagnostics in the same way that blood and urine tests are now, and with the dead processing power of quantum computers, you'll be able to make reliable predictions about what might go wrong with the patient and what they can do right now to prevent it based on analyzing tens of millions of studies,
However, quantum computers will transform medication design by ushering in the era of
,in which we will no longer test pharmaceuticals on humans.
It's almost too good to be true, yet it's a reality in the near future.
Even if Google has already demonstrated quantum supremacy (one out of ten), the impact will eventually be virtually as large as AI (nine out of ten), but I'm worried only those countries will profit.
Let's take a look at the final position, which is 13 on the Tech blogging index.
Wow, it appears that health sensors and genetics are at the forefront.
Well, these are the two technologies that have the greatest potential to touch our lives now, and they already have evidence in the background, so I think it's understandable, but make no mistake: artificial intelligence will blow them away when it arrives.Thanks for reading my article it really matter's me a lot.