Technology has become a significant component in the healthcare sector. Concepts like telehealth, electronic health charts, and artificial intelligence are some leading examples. Artificial intelligence, in particular, has helped healthcare by making the lives of patients, doctors, and even hospital administrators easier.
Healthcare was not easy to manage without technology, with over 250,000 people dying from malpractice or medication error in the US every year. At the same time, over $30 billion went into treating and covering these mistakes, severely denting the healthcare budget. Luckily, AI entered the medical sector in time and solved this financial crisis by reducing medical errors by approximately 40% and slashing medical costs by half of the total.
Hospitals have a mountain of administrative tasks, but AI makes it easier to handle the work without compromising patient care. AI streamlines many repetitive duties such as documenting chart notes, patient summaries, and writing test orders, which cuts down much of themanual work.
In addition, AI also handles claims filed by patients that can cost as much as $120. The software adjusts the claim and reduces the turnaround time by 80%. As an administrative worker, this gives you the freedom to prioritize patient care while AI handles all your technical tasks.
However, as this is still an emerging field, you may find yourself without a clear grasp of the impact of AI in healthcare. If so, you should take the time to gain knowledge by enrolling in an onlineEMHA degree. You can fit this in your schedule and put yourself in the best position to provide services and reshape policies that make healthcare more accessible.
Human errors can happen at any time in healthcare. These include administering the wrong dosage, incorrectly reading prescriptions, or doling out pills inconsiderately. This is a form of medical malpractice that can harm patients severely.
However, professionals can remedy this issue by using AI-powered apps to help them. Each hospital can provide staff with these apps on their phones that scan capsules and check them against their database. This exchange of information happens within seconds, and professionalscan be immediately informed about any errors. This can ensure reliable and high-quality care and prevent harm from coming your patient’s way. Additionally, protecting yourself from liability claims is crucial. Health professionals are constantly at risk of being targeted by a lawsuit that can torpedo the practice they spent years building with time, hard work, and personal assets.
Primary care doctors get burdened with work fast, especially when too many patients come for a checkup. So, to remedy this issue, AI-powered chatbots are used. Patients with mild and manageable illnesses can turn to a medical chatbot for help. This AI-powered tool uses the patient’s details in the hospital database to address their concerns.
Chatbots encourage patients to share their symptoms, provide health information, match it against comprehensive databases and direct them to a medical professional if needed. This saves patients unnecessary trips and eases the workload from primary care doctors. The information and suggestions AI-powered chatbots give are both accurate and factually correct so that patients can rely on an AI’s expertise.
Robot-assisted surgeries are becoming popular in hospitals. Stats released by iData Researched show that more than 693,000robot-assisted procedures took place in 2017. Doctors rely on robots to assist in all kinds of operations – from minimally invasive procedures to open-heart surgeries. Robots provide precision and flexibility that human surgeons cannot achieve with higher success rates
Surgeons use the machine by working a mechanical arm through a computer console with an attached camera. This camera provides surgeons with a deep focus and a three-dimensional view of the surgical site, which helps precision in stitching and cutting. It speeds up surgeries and even gives surgeons the space to do their work remotely without endangering the patient.
Diagnosing diseases is a complex process. Even after several years of hard work and training, doctors can only accurately diagnose three-fourths of the time. However, AI has changed this game and paved safer diagnostic routes instead. AI uses digital data such as CT scans, electrocardiograms, MRI, skin images, and electronic health charts to generate an algorithm to analyze the patient. It also utilizes current patient history present in the hospital’s database and gives a diagnosis that is 77% accurate within a fraction of a second.
This quick turnaround helps doctors identify threats and any invisible illness with precision and devise a treatment route. Patients and doctors save valuable time and focus on getting better than worrying about a misdiagnosis.
Drug development is an expensive process with a low success rate of less than 20% of medicines making it to the market. However, the healthcare sector needs to continue production to combat illnesses. AI has made drug development easier by letting researchers use complex software to get 3D images of the chemical components necessary for new pills. The AI also has a 70% accuracy in identifying patterns within the research and helping researchers narrow down candidates for clinical trials. It does this by accessing the medical database to pick candidates suitable for the trial and with minimal risk of side effects.
Once the clinical trials start, the AI uses biomarkers, molecules in the body that indicate an illness or response to medicine, to filter results and conclude the trials early. This makes it easier to launch new drugs into the market.
Nurses may get immensely overworked, with many nurses feeling exhausted from their job. However, a proper schedule for nurses can solve the problem by a significant margin. AI has removed the need to make schedules manually.
The algorithm generates a schedule based on the nurse’s position, popularity, nursing feedback, and suggestions. This helps it design a flexible and transparent plan that prevents one nurse from overworking consecutive shifts. The algorithm divides the work evenly between the staff, ensuring everyone works suitable hours and gets plenty of time to recuperate.
AI has revolutionized the health sector by a fair margin. The industry can do more and care more for the patients and staff. Patients get to enjoy the undivided attention of their practitioners with an accurate diagnosis which helps them recover faster.
The hospital staff also benefits from AI by shifting repetitive tasks to the system, assisting in surgeries and diagnostics, and enhancing drug development. As a result, hospitals save costs and cater to the growing population without jeopardizing care. By doing so, AI has proved that it is no short of a miracle solution for a growing and evolving health field.