In the year 2022, advanced examples of artificial intelligence in healthcare will be used in the new world.

Dr. June Gower

April 28, 2022



According to June Gower, the introduction of 5G-enabled devices, also known as “smart” phones, will herald the beginning of a new era in health-care delivery. The four Ps of this new model are as follows: predictive, preventative, personalized, and participative. Some of these innovations, such as tricorders, which are the medical industry’s equivalent of flying cars, are already in use. Tricorders, as they were imagined in the 1960s, could monitor vital signs and perform simple diagnostics. These days, they’re finally making the switch from a screen to your palm.

A new generation of advanced robotic surgery technology is transforming the healthcare industry by decreasing pain and infection while increasing efficiency. Physicians can spend more time with patients instead of performing tasks that are inconvenient and inefficient, thanks to artificial intelligence-powered tools. Additionally, image-guided robots can perform operations on organs without causing any damage to the tissues that surround the organ. They can also shape bones and make them compatible with prosthetics, among other things. A robotic surgery system such as the da Vinci can perform more than 200,000 operations per year, according to the manufacturer. When superfast 5G connections become widely available, remote surgery may become a possibility.

Despite the fact that human and artificial intelligence (AI) have distinctly different capabilities, both are critical to providing high-quality healthcare to patients. Artificial intelligence-based healthcare systems have the potential to provide decision support for non-absolute diagnoses while also reducing physician burnout. The ultimate goal is to ensure that both healthcare workers and patients receive the best possible treatment and service. Combined with these technological advancements, we’re on the verge of witnessing a watershed moment in the history of healthcare. And these are only the beginning of the innovations. If we use the appropriate technologies, we will notice a significant improvement in our quality of life.

June Gower explained that, the development of conversational artificial intelligence-based chatbots has the potential to fundamentally alter the way patients and healthcare professionals interact. Conversational artificial intelligence is already being used to automate appointment scheduling and send reminders through social media platforms, among other things. Chatbots powered by artificial intelligence can also perform electronic prescribing. Furthermore, with the introduction of chatbots, the future of healthcare looks promising. However, until the advancements in artificial intelligence-powered chatbots reach a mature state, they will only be useful for a limited range of medical diagnoses.

Robots in healthcare will increasingly perform cognitive functions as the medical industry develops. Currently, robots in healthcare perform physical labor. With the help of these innovations, healthcare workers will be able to devote their time to patient care and research rather than administrative tasks. The introduction of new technologies will make the work of physicians easier. As a result, doctors and nurses will have more time to devote to direct patient care, given that we are already living in an era of technological advancement. Moreover, this is only the beginning.

Health systems around the world must contend with the challenges posed by an aging population, shifting patient expectations, and the never-ending cycle of technological advancement. Healthcare leaders can use data analysis and analytics to improve patient outcomes, lower costs, and increase employee satisfaction if they keep this in mind. An aging population, for example, means that by 2050, one-fourth of the population in North America and Europe will be over the age of 65. A population with such characteristics is more likely to require more proactive care management, which is both time-consuming and expensive to provide.

Wearable continuous glucose monitors (CGMs) are an example of an innovation that has the potential to eliminate the need for intermittent glucose testing. A wearable CGM, which measures blood sugar levels in real time, could assist healthcare providers in diagnosing patients more quickly. With greater public awareness of diabetes and its complications, wearable bio-implants may be the wave of the future in medical technology and healthcare. They may even be able to cure diseases that were previously thought to be incurable. By 2022, it will be possible to predict the future of these technological advancements.

Within a few years, telehealth will become a more integrated part of healthcare, allowing hospitals to provide better access to primary care while also enhancing collaboration with clinics, long-term care facilities, dialysis clinics, and mental health facilities. Before virtual care can be widely implemented, it will be necessary to remove regulatory obstacles. The American Medical Association has called on Congress to take action immediately. If telehealth becomes widely used, it has the potential to become an indispensable tool in the improvement of patient care.

June Gower pointed out that, in today’s medical technology, the rise of bioelectronics, which combines advanced medical devices with smart sensors, is one of the most significant advancements to have occurred. Individual responses to drugs can be targeted with RNA-based therapeutics, reducing the risk of dangerous side effects associated with overprescribing medications. Another area of medical advancement is nanomedicine, which stands for nanoscale medicine. Doctors can detect and treat rare genetic disorders using nanotechnology and cellular technology, which are becoming increasingly popular.

Artificial intelligence has already made significant advances in the field of case triaging. X-rays and images of patients, for example, can be analyzed by advanced machine learning solutions to identify critical insights. In addition, artificial intelligence-based solutions are being used to analyze lung scans in order to better understand the impact of COVID-19. AI is also assisting physicians in the discovery of effective treatments for COVID-19, in addition to improving care delivery. The potential applications of this technology in the medical field seem to be virtually limitless at this point.