Digital technology in medicine and healthcare could help transform unsustainable healthcare systems into sustainable ones, equalise the relationship between medical professionals and patients, provide cheaper, faster, and more effective disease solutions – technologies could win the battle against cancer, AIDS, or Ebola – and simply lead to healthier individuals living in healthier environments.
Healthcare has become one of India's leading sectors, both in revenue and customer satisfaction. The Healthcare system is expanding rapidly as a result of improved coverage, expanded services, and increased spending by both public and private entities. The healthcare sector offers a wide range of services to meet a community's or an individual's healthcare needs.
Over antiquity, the use of technology in healthcare has resulted in improved patient diagnosis and treatment. Healthcare is undoubtedly the most important sector to benefit from technological adoption. As a result, it has enhanced the quality of life over time and saved many lives. However, what are some of the advantages of technology in healthcare? And what are some of the most innovative medical technologies in use now in healthcare?
Future of Technology in Healthcare
To serve as an introduction about how technology can help transform the healthcare industry in a better form, this article will explore many ways in which medical technology is reshaping healthcare. Nobody can deny that technology in healthcare is relatively young. We use medical technologies from the most severe to the most minor medical cases, such as a broken bone. From plaster to robotic surgery, technological progress is constant and undeniable. Nonetheless, every medical gadget is designed with the patient in mind.
Many revolutionary advances in healthcare technology have occurred in recent years:
3-D printing has been used in a variety of fields for several years. When it comes to medicine, it makes implants or even surgical joints. It is also used in prosthetics because it can build perfectly matched limbs, allowing for increased comfort and movement. 3D bioprinting is utilised in healthcare to manufacture living human cells or tissue for use in regenerative medicine and tissue engineering. Precision and personalised medications are also manufactured via 3D printing. Spritam, developed by Aprecia Pharmaceuticals, is the first and only FDA-approved 3D printed medicine for epilepsy.
3D bioprinting is utilised in healthcare to manufacture living human cells or tissue for use in regenerative medicine and tissue engineering. The pioneers of this technology are Organovo and EnvisionTEC. Precision and personalised medications are also manufactured via 3D printing. Spritam, developed by Aprecia Pharmaceuticals, is the first and only FDA-approved 3D printed medicine for epilepsy.
3D printing is being used to combat the Covid-19 epidemic. The rapid spread of Covid-19 has put a pressure on healthcare systems all around the world, with a surge in demand for key medical equipment and supplies. From major firms to individuals, everyone has contributed to the development of critical medical equipment for hospitals in response to the Covid-19 crisis. 3D Systems, Carbon, and Renishaw have begun designing and manufacturing open-source personal protective equipment (PPE) for healthcare workers throughout the world.
Virtual reality (VR) is expanding at a rapid pace, and it's just getting more popular by the day. VR is employed as a strong diagnostic tool, assisting doctors and physicians in making correct diagnoses. This is done in conjunction with other procedures, such as MRI/CT scans, and eliminates the need for any invasive approaches, providing the patient with a pain-free experience. VR simulation technologies have long been employed in medical teaching and training. Major virtual reality (VR) firms are creating products that mix 360-degree video and 3D interactive information to create the greatest learning programmes for physicians and students.
VR is gradually transforming the way exposure therapy is delivered to mentally ill patients by giving a low-cost, flexible, and low-risk treatment option. VR also aids in the treatment of anxiety and panic attacks by providing new techniques to keep the body relaxed and peaceful. VR gives these distraction strategies a new face by offering a variety of interactive activities. While some apps offer therapeutic virtual reality for burn victims, there are also significantly advanced methods that allow for effective limb pain treatment. Furthermore, VR can be used as a drug-free pain management alternative.
More life sciences businesses are utilising augmented reality (AR) to develop new therapeutics by fusing the virtual and physical worlds. AR aids in the creation of rich, interactive experiences that demonstrate how new medications and medical technologies interact with the body. Using this revolutionary technology, brand teams and content suppliers may create a better way for their field force to engage healthcare practitioners (HCPs). AR can also help HCPs explain new medicines to patients in a more graphical manner. One function creates 3D images of organs from various perspectives for higher stitch precision. AR technology also aids in the recall and comprehension of complicated information for doctors and patients by presenting them in interactive ways. One worldwide pharmaceutical business, for example, employs a 3D heart modelling programme to depict the transport of medicine through the organ and its effects as part of a novel treatment.
AR is used to improve patient treatments and results in areas such as patient and doctor education, surgical visualisation, and illness simulation. One AR application, for example, maps a patient's body, revealing the exact position of veins so that medical professionals can get it right the first time when collecting blood or beginning an IV prior to surgery. Another AR application reconstructs tumours in 3D so that surgeons can study X-rays in real time without being exposed to radiation.
Artificial intelligence (AI) technologies, which are becoming increasingly prevalent in modern business and daily life, are also finding their way into healthcare. Artificial intelligence in healthcare has the potential to help healthcare providers with many elements of patient care and administrative tasks. The majority of AI and healthcare technologies are highly relevant to the healthcare profession, however the strategies they assist can differ greatly. Although artificial intelligence in healthcare can perform as well as or better than humans at certain processes, such as disease diagnosis, it will be many years before AI in healthcare replaces people for a wide range of professions.
AI in healthcare can be effective in clinical decision support to assist doctors make better judgments faster by recognising patterns in health issues that are registered considerably more correctly than the human brain. The most difficult barrier for AI in healthcare is assuring their adoption in daily clinical practise, not whether the technologies will be capable enough to be useful. Over time, therapists may be drawn to tasks that need specialised human abilities, such as those requiring the highest level of cognitive function. Perhaps the only healthcare providers who will miss out on AI's full promise in healthcare are those who refuse to collaborate with it.
Nanomedicine is the application of nanotechnology in healthcare applications such as illness treatment and diagnosis employing nanoparticles in medical devices, as well as nanoelectronic biosensors and molecular nanotechnology. Nanomedicine is currently being used to create smart medications as well as to treat cancer. In the treatment of skin cancer, new nanomedicine technologies are being deployed, which allow for the effective delivery of medicines and other therapeutic treatments to specific tumour areas and target cells while minimising hazardous side effects. When applied to healthcare, nanotechnology has the potential to make substantial advancements in illness detection, treatment, and prevention. Innovators are increasingly interested in the potential uses of nanotechnology in healthcare and how it might lead the industry into a new age of development.
Advances in digital healthcare technologies such as artificial intelligence, VR/AR, 3D-printing, robots, and nanotechnology are altering the future of healthcare right in front of our eyes. We must become acquainted with the most recent advances in order to be able to govern technology rather than the other way around. Working hand in hand with technology is the future of healthcare, and healthcare workers must embrace evolving healthcare technologies in order to remain relevant in the coming years.
Scope of the Business
The healthcare industry has undergone significant and welcome change as a result of technological advancements. Patients today have access to some of the most advanced diagnostic equipment, new and cutting-edge treatments, and a plethora of minimally invasive procedures that result in less discomfort and faster healing.
Remote consultations with specialists, focused therapies, and the availability of user-friendly mobile apps have resulted in better patient care and a better overall healthcare experience. Furthermore, the availability of innovative medical technologies that result in better outcomes has improved patients' quality of life.
The easy story is that the future will be better. Technology will advance and there will always be new and exciting solutions. The rise in global life expectancy and the ageing of populations constitute a particularly demanding environment for healthcare innovation and technology. However, it appears that innovation in the industry is highly resilient, with the landscape shifting every year.
How will Motioray serve your business?
To fulfil the needs of your healthcare business, Motionray is at your service. Our team has intelligent decision aids to improve diagnosis, and they will only get better. We are a team of professionals and experts who create and provide dynamic services according to the needs of your healthcare business.
At Motionray, we use an industry- centric approach based on dynamic customer satisfaction and occupation-based therapy models to accelerate the growth of your business. We create top-notch mobile apps and websites that provide access to drug information to help prevent side effects and interactions, solve problems, and improve diagnosis.
Doctors and hospitals may use our apps and other tech services to engage directly with their patients, precisely record their vital signs, keep track of visits and consultations, and achieve improved procedural efficiency. Our cloud storage services improve efficiency and accessibility while minimising waste. This also aids in the discovery and development of innovative treatment methods and potentially life-saving medicinal compositions. If you want to know more about our services, refer to our ‘Contact Us’ page.