The pandemic has had a significant impact on the digitization of healthcare, and information technology is expected to continue to be introduced in this industry. Every day there are more and more startups that offer working prototypes and ready-made solutions that allow a qualitative modification in the approach to current medicine. This is facilitated by the high demand for healthcare solution development services, medicine with individual access, and the desire to optimize costs.
Medical Care Regardless Of Location
Now remote reception and counseling have become a very convenient and functional method. It is especially convenient when you need to open a sick-list, but there is no desire to stand in line at the hospital.
The care delivery model will become adaptive, directing patients to the most appropriate facilities. Digital tools will allow physicians to develop individual treatment plans together with patients. It will be possible to collect and interpret real-time vital sign data both in the hospital and at home.
Communication between healthcare professionals will ensure more coordinated, efficient, and cost-effective care. There will be many opportunities for real-time monitoring using biosensor data, medical applications, and personal medical records.
These are contactless, autonomous, and independent devices that compile and dissect physiological data to track health status. These devices are currently targeting three basic fields: cardiology, diabetes management, and neuroscience. However, the potential of their application is much wider and spreads to other systems and illnesses.
Such devices make it possible to track and control important indicators such as heart rate, distance traveled, pressure, temperature, glycemic level.
Big Data technology has allowed the healthcare system to gain certain benefits, as well as industry requirements and regulations for EMR software development. An impressive number of medical records with related information about diseases and treatment are analyzed, dependencies and deviations are found, which makes it possible to determine the disease at an early stage. A personal treatment plan is created and adjusted and the risk of medical error is reduced. Of course, all this existed before, but modern technologies have given a new round of development.
Also, there is rapid processing and analysis of data in emergency situations, the speed, and accuracy of decisions made are increased. A record of attendance and time spent on the patient in the provision of services is kept, which in the future will create the correct model for organizing the working regime of employees. This will optimize polyclinic costs and decrease waiting time for the patient.
The most common are heart rate monitors, oximeters, glucometers, and various workout trackers. These are quite familiar devices in our life. Thanks to them, people have the opportunity to monitor the general condition of the body, assess the risks of the disease. The very process of “playing” attracts more and more people to take care of their health and go in for sports.
This new and rapidly evolving digital transformation technology uses the authority of software automation and applies computer learning methods to accelerate decision-making in the healthcare industry. It gives an opportunity to operate an enormous volume of data in seconds and provide decision-makers with recommendations backed up by real-time data. The ultimate goal of this medical technology is to create a self-managed enterprise with the automation of operational processes.
Intelligent Delivery Of Biologically Active Substances
This therapeutic approach is now evolving into a complete model for delivering medicines straight to specific organs at specific times and in the right doses. Specialized medicine supply systems support the concentration of drugs at desired doses and evade the need for repeated doses. Moreover, such a pattern helps to decrease the likelihood of side effects of the medications taken.
Technologies based on software robots that automate processes have become an important milestone in the development of IT in healthcare. The incorporation of AI algorithms helps provide patients in need of medical services with guidance on how to describe symptoms. As a result, the accuracy of diagnoses can be improved.
Nowadays, robotics is actively used in the creation of prostheses, exoskeletons, diagnostic services, and many others in one form or another. Less obvious uses for robots include “accompanying robots” to help deal with loneliness, depression, and other psychological disorders, nurse robots to assist doctors in surgeries and patients in hospitals.
Natural 3D printing
Researchers use such printing to schematically represent sickness and to explore the body with a degree of control and identity. A few years ago this was not possible. For the pharmaceutical industry, 3D printing technology offers a means of testing drugs in a faster, lower cost, and more meaningful way than conventional methods without animal testing.
This is a direction in medicine that is developing remote opportunities for helping people in real-time. This implies a remote appointment with a doctor, determining the causes of the disease and diagnosing, transferring data over the network, and accessing patients’ records remotely.
Telemedicine ties the patient experience together, from the first visit to treatment and aftercare. The outlying treatment provides a more individual approach and enables effective treatments for complex and chronic ailments.
Virtual and augmented reality is now applicable to almost every field, but in medicine, it has certain prospects. Let’s start with the fact that it can significantly facilitate the process of training doctors and improve their skills. Students will be able to work with a 3D printer and immerse themselves more in the process, more practice, and subtlety in surgery.
In this area, there is another application of VR – after a serious illness or injury, psychological problems, it helps in accelerating treatment and recovery. He is able to create more comfortable conditions for patients and involve him in the rehabilitation process. Virtual and augmented reality has already proved its effectiveness in helping to treat children with cerebral palsy and other serious illnesses.
The most painful topic for society and society is waiting for a good result from a new method of treatment – immunotherapy. The main problem of cancer treatment is that cancer cells masquerade as healthy human cells. The point of the new method is to teach the immune system to recognize and attack malignant cells with the help of drugs.