With the advancements in digital health technology, such as AI, 3D printing VR/AR, nanotechnology and robotics, the future of healthcare is being developed right before our eyes. We need to become acquainted with the most recent innovations. To be able to control technology and not the reverse. Medicine’s future is collaborating with clinicians and technology to accept the new developments in healthcare and ensure that we remain current for the foreseeable future.
Are you concerned that AI and robotics will replace the work of nurses, doctors as well as other professionals in the field of medicine? You may be worried that AI could take over the world in just a few years.
All of these are fake information, falsehoods, and other image dystopias, which could be a more popular way to present alternate facts about the future of healthcare. However, each of these issues has something in common: worry about the unknowns of the future and the consequences that could be brought on us. There is no way to stop technology from changing. Shortly, all aspects of life will vary by the impact of digital technology. So, we must keep our minds awake to the possibilities of technology altering our world as we know it.
Humans and technology in tandem to provide better health
Many believe that technology is the only option for advancement. They believe technology can only enhance and improve our lives if we align with the latest technological advances and stay at the forefront. If we ensure that the principle that says “two steps ahead of it” is observed, the relationship between humans and technology can yield tremendous rewards.
Using digital technology daily time in medicine and healthcare could transform ineffective health systems into appropriate ones and provide faster, cheaper and more effective treatments for diseases (such as Ebola and AIDS) and even improve the relationships between healthcare health professionals and medical patients. Technology may help us lead healthier lives within better communities.
Artificial Intelligence Artificial Intelligence (AI)
Powerful technology expected to transform healthcare completely. With the capability to extract medical data, AI algorithms can design treatments just like macro calculator to lose belly fat, create medications faster than any current physician, and even detect non-cancerous and cancerous tissues. Utilizing supercomputers, Atom wise uncovers cures from the database of molecular structure. The start-up was founded in 2015 and has created an online search engine to find current, safe medicines that could be modified to combat Ebola. Ebola virus. Two treatments were discovered that could be predicted by the firm’s AI technology to lower the risk of infection by Ebola.
Google’s Deer Mind recently came up with an AI for breast cancer research. The algorithm’s performance was superior to the human radiologists’ capabilities by 11.5 per cent when using pre-approved data sets that can differentiate breast cancer.
These two companies are just two of the hundreds of companies using AI technology to take healthcare to the next level. From disrupting medical concepts creating new drugs, and mining medical records, these companies are real-world illustrations of what we can expect when we are willing to accept AI within healthcare.
Virtual Reality (VR)
revolutionizing the lives of doctors and patients’ lives. Shortly, you might journey to Spain or even home while in the hospital bed or observe operations as if you are holding a scalpel!
VR is utilized in numerous situations, including for training future surgeons to allow experienced surgeons to perform procedures. The software developers include companies such as Osso VR and Immersive Touch as of now, and, to date, the results have been promising. A recent study revealed that VR-trained surgeons had a 230% increase in their overall performance compared to those of traditionally-trained colleagues.
Patients are also benefiting from the advancements in technology as pain management is shown as an area that has seen improvement. When suffering from lab our, women are now provided with VR headsets that enable users to imagine a relaxing landscape. Patients with digestive, neurological, cardiac and post-surgical pain have seen a reduction in their pain when using VR as a stimulus. A pilot study conducted in 2019 found that patients who had surgery experienced less stress and levels of pain and improved their overall healthcare experience.
In contrast to the VR experience, Augmented Reality (AR) is where users are not lost in reality, and the information is put in the eyes quickly. AR is fast becoming the central forward for medical technology’s future due to these distinct features available to users and medical providers on the other side. For doctors, it could help medical students to prepare for actual surgical procedures in addition toward allowing surgeons already practicing to increase their skills. Students utilize HoloLens Microsoft HoloLens to gain knowledge of anatomy through the Holonomy application. Medical students have access to precise and accurate but digital human anatomy models so they can learn without needing real humans.
Magic Leap is another company that is promising and is also in the process of developing something different using its mixed-reality headset. Magic Leap has collaborated with Health to create a therapeutic platform, Sync Think, to promote brain health. Braila is a German technology firm that plans to provide its technology into healthcare. No commercial products have been released to the market, but we will witness these partnerships sweeping the need for healthcare soon.
Wearables, healthcare trackers and sensors
In close contact with the future of medicine and healthcare, Patients and patients’ empowerment involves better medical care using technology like wearables, sensors and health trackers. These are fantastic tools that let us learn more about our health and allow us to have more control over our lives. Devices such as Fitbit Ionic, which monitors sleep and exercises, and Polar H10, which tracks workouts and sleep patterns, H10 from Polar H10 can help you fine-tune the workout routine. It also comes with the Muse headband that assists in meditation. There are a variety of fitness trackers and apps available out there these days.
You may be seeking to reduce your stress levels and weight or improve your cognitive abilities, or you’d like to feel more active and healthier overall. There is a solution that can meet all your requirements. These technologically-driven gems give patients the best of care. Patients can keep track of their family’s health at home and then share the results online with their physician. These devices enable the person to make better-informed choices and to take charge of their health.
The dream of every healthcare professional is to own one supreme and powerful device it should be able to detect and analyze every illness. Due to the rapid advancement of medical technology today, we live in a time when such devices are available! One such device is the hand-sized Viator Checked Me Pro, which will measure the heart rate, blood pressure, temperature, ECG oxygen saturation, and much more. Other companies are creating devices similar to Median, which include a telemedical camera and the ability to measure everything. Another option is the Bio Sticker made by Intelligence, which is FDA-approved and, although it is small and thin, it can measure a variety of variables like the heart rate, skin temperature and respiration rate, activity levels as well as body position and sleep state, gait, and many more.
These devices may be far from the sci-fi-inspired tricorder, but we’ll be short. Expect to see powerful microscopes that use smartphones to analyze images and take specimens of the lesions on your skin. They could also have sensors that detect DNA defects or identify specific proteins or antibodies. An ultrasonic probe, an electronic nose, or something else that could be connected to smartphones and improve its capabilities.
The US government $2.7 billion. The whole Human Genome Project costs an astronomical amount of dollars. Particularly when you consider that in January of 2017, the DNA-sequencing company Illumina unveiled an innovative machine that the company claims it “expected one day” to buy a whole genome for less than $100. The CEO has confirmed that the company is looking into this concept. If this happens, less expensive genetic testing could be offered, priced between $10 to $150 only.
A test like this one has many possibilities. You can gain valuable knowledge regarding drug sensitivities as well as multifactorial ailments, as well as the history of a family member. In addition, several fields are utilizing the benefits of genome sequencing, including nutrigenomics, which combines nutrition, dietetics and genomics. Companies such as Habit, a California-based start-up, offer personalized diets based on genetic code. Atlas Biomet’s Genetic Test can be an eye-opener. While it isn’t easy to comprehend, it analyzes to provide practical and actionable results. It identifies the conditions one could be at risk of and records vitamin levels and intolerances, and the data could be utilized to determine preventive measures.
Revolutionizing drug development
The process of making new drugs is expensive and long-lasting. There are, however, new methods to speed up the creation of medications by using techniques like AI. The new methods and techniques are expected to alter the landscape of pharmaceuticals in the years to come. Corporations like Recursion Pharmaceuticals, Deep Genomics, and Turbine use AI to develop new treatments at just a fraction of the price and in record time.
Another upcoming health technology to be considered is in-silico drug tests. These customized computer simulations are utilized to evaluate regulatory requirements or the design of healthcare products, devices, or treatments. The firm is breaking through obstacles with organs-on-a-chip development. With current technology and biological knowledge denying the use of clinical trials that simulate, this technology in silico is already being used. Hammond is their technology. Hammond is used in numerous research projects. Virtual models have been created through researchers at the Virtual Physiological Human (VPN) Institute, which employs these models to study osteoporosis and heart disease.
Nanoparticles may be the future nanodevices functioning as precise surgical instruments, drug delivery systems or even cancer treatment tools shortly. Academics of the Max Planck Institute, back in 2014, developed tiny microbats with scallops that traverse bodily fluids. These smart pills, like Pill Cam, are currently being used to perform colon exams in a safe and non-invasive manner. In the last quarter of 2018, MIT researchers created A pill with electronic components that can be wirelessly controlled and send analysis data or even release medications in response to phone calls.
Nanotechnology is rapidly becoming a more significant market player in creating intelligent patches. Graphical is a French-based company that presented its innovative patches at CES 2020. It permits continuous monitoring of wounds, and its graphene-based core may assist in healing the injury quicker. With the advancement of technology and advances in technology, there will be more tangible examples of nanotechnology in healthcare. The Williams might even take biopsy samples, and Remote-controlled capsules may allow nano-surgery to be carried into the future.
Robotics is among the fastest-growing and most fascinating fields in medicine. The range of developments in robotics spans from exoskeletons and disinfectant robots to surgical robots and pharmaceuticals. Exoskeletons were incredibly successful in the year of 2019. The first exoskeleton-aided procedure was conducted by a tetraplegic patient who could control an exoskeleton with only his brain. These robots have many uses, from helping elderly patients to nursing to aiding patients with spinal cord injuries.
It is also possible to alleviate loneliness by using robots as companions. They can also be utilized in healthcare settings to aid children suffering from chronic illnesses and to treat mental health issues. The most well-known examples of robots include Jibe, Buddy, Paro, and Pepper robots. They allow their owners to control them via cameras, microphones, or sensors for touch.
The key to unlocking the world of wonders throughout the field of health is 3D printing. The possibilities are growing as printing is available for artificial limbs, blood vessels, and bio tissue medications, and it is expected to increase in the future. Researchers from the Rensselaer Polytechnic Institute located in Troy, New York, in November 2019 developed an approach to printing live skin, blood vessels and skin with 3D printing. This was an essential breakthrough for skin burn patients and transplants. NGOs like Not Impossible and Refugee Open Ware help patients in need through 3D printing to design prosthetics for refugees living in war-torn areas. The pharmaceutical industry, too, is one of the beneficiaries of this evolving technology. 3D-printed medicines have been approved by the FDA and have been available since 2015. Researchers are working on 3D printing “polypills.” These will include layers of medication to help patients follow their prescribed treatment.
Food to think about
We live in a time of innovation for medical treatments, thanks to the advancement of technology. The goal is to communicate the latest developments and information in the field of medicine that will lead us forward into our future in healthcare.