With immense breakthroughs in research and treatments, data collection, and robotics, it is evident that technology is the driving force behind improvements in the healthcare industry. The rise of telemedicine, digital health tools, artificial intelligence, VR/AR, 3D bioprinting, big data analytics, and nanotechnology are helping transform unsustainable healthcare systems into sustainable ones as well as equalizing relationships between medical professionals and patients.
Using technology, medical researchers are able to make astonishing discoveries and finding treatments for diseases that were once considered incurable. Here are the five ways technology is revolutionizing the healthcare industry.
Mobile health apps, or widely known as mHealth apps have emerged as useful tools for healthcare, paving the way for affordable, better, and faster medical care. With continuous advancements in era-defining technologies such as AR, IoT, and blockchain, these apps are becoming better and adding value to the healthcare ecosystem.
Collecting health and fitness data, the mHealth apps help in making a large pool of chronological database of health conditions, which is proving to be valuable sources for medical researchers. Besides, these apps are able to help caregivers track their vitals and keep a tab on their condition, which can prevent critical conditions and enable them to make timely interventions.
New tools and therapies created with 3D bioprinting technology are helping physicians, dentists, pharmaceutical companies, and medical manufacturers to produce everything from surgical masks to precise surgical instruments on-demand. The development of new devices and prostheses is helping to create better surgical models and make significant improvements in tissue and organ engineering.
During the COVID-19 pandemic, medical manufacturers utilized 3D bioprinting for producing personal protective equipment and ventilators, which reduced the burden on healthcare facilities and saved lives. Moreover, 3D bioprinting technology has completely transformed the prosthetics industry, greatly enhancing how prosthetics fit and function as well as reducing medical costs for patients significantly.
With the increased penetration of smartphones and internet, now healthcare providers can provide their services beyond geographical barriers. Telehealth apps not only improve accessibility to medical care but also enhance affordability for patients by eliminating travel costs.
People with decreased mobility due to age or medical conditions can avail treatments at the convenience of their homes and get immediate consultation with the help of telemedicine platforms. In addition, telehealth platforms provide the flexibility to patients to check symptoms, order medicines, contact specific doctors, and so on.
Thanks to AI-powered tools and big data analytics, now medical researchers are able to develop drugs and therapeutic solutions faster, all while saving costs and lives. Earlier, experiments and medical research used to take years to finalize but now the technology has accelerated the process, reducing the overall time to months or even weeks.
Individualized computer simulations are being employed for the development of medical products, which enables researchers to test thousands of new potential drugs on billions of virtual patient models within minutes. Thus, technological advancements are reshaping the pharmaceutical industries and making healthcare affordable.
Allowing the ability to manipulate matters at molecular levels, nanotechnology is opening new frontiers across the life sciences industry. The revolutionary technology has the potential to transport the drug to specific cells in the body thus enabling precise drug absorption while reducing the chances of rejection/failure. The technology is already employed for creating smart pills, which are shaped like a pharmaceutical pill but have the ability to perform advanced functions such as sensing, imaging, etc. These pills are widely used for examining colon diseases, gastrointestinal problems, detecting malignant digestive organs, etc. Moreover, nanotechnology is being used for cancer detection and treatment, targeting specific tumor sites while causing low toxic side effects.