Healthcare Software Development: New Trends and Solutions
Physical and mental health has become a serious concern in our issue. Many people try to be in the best physical condition by working and exercising, meditating and following their chosen diet. In the meantime, healthcare systems around the world must evolve, introduce new technologies and face long-term challenges.
The Internet of Things (IoT) is a technology that enables many activities and processes related to health and well-being. It is invisible, inexpensive, solve current challenges, opens the door to new creative possibilities and has a short learning curve. The main thing is that all people can stay healthy and help medical experts able to save lives.
As promising, it seems, the promise of the Internet of Things in healthcare is even broader — technology will help the industry process of significant development. Let's examine how connected devices will change the medical industry, with the ultimate personalization from DNA testing by advanced sleep technologies to smart homes for patients with Parkinson's disease.
Software for Connected Health & Wellness Devices
Healthcare Software: An Ecosystem of Devices
Keeping fit and healthy is the main driver of the modern lifestyle. Here are intelligent IoT devices for the well-being of our helpers. Network devices provide and collect important information, motivate us, and also serve as trainers.
Today, the vast majority of people doing sports and closely monitoring their health have at least one smartwatch or bracelet, in addition to smartphones and fitness applications, all work together in the ecosystem. Although they have long been necessary for modern training procedures, the role of these devices will continue to grow with the development of technology.
The basis for these changes already exists. The Apple and Fitbit IoT ecosystems are already so extensive that they can provide their users with accurate insights and training recommendations using advanced algorithms.
Since the latest Apple Watch model has an ECG function, we can also assume that future IoT devices will carry out reviews that are currently only available in medical facilities. As a result, more information is collected and even better recommendations are given.
Wellness Software Development and Personalization
Existing IoT wellness devices capture many types of data and give users deeply personalized recommendations. However, the highest level of personalization is possible thanks to more sophisticated resources that rely heavily on IoT technology.
For example, Skulpt has developed a scanning device that allows users to individually analyze the ratio of fat to muscles and their health. The information is sent to the Sculpt application, which carries out an in-depth analysis and provides users with individual recommendations for safe and efficient training.
Achieving the highest level of personalization, however, can only be achieved thanks to solutions based on DNA tests. Thanks to properly designed algorithms controlled by AI, these combined health and health devices provide truly personalized training and nutrition recommendations.
FitnessGenes is one of the existing examples. The company offers a three-step DNA analysis of vascular function, sleep cycles, saturated fat sensitivity, energy production and other factors. The FitnessGenes app provides the user with a genetically developed nutrition plan and training tips. As users demand more and more personalized products and services, health and wellness facilities based on DNA testing will be widely used in the coming years.
Fitness Software Development: New Experience
Small but very effective IoT sensors also improve fitness, especially in group exercises. Battery-powered wireless sensors connected to each subscriber collect information and send it in real-time to a TV screen or a coach's mobile device. In this way, participants can track the progress of others, and trainers can better serve customers on the move.
When talking about sharing data, people love to share their sports achievements with others and engage with other fitness enthusiasts. Thanks to this, applications such as Strava will be popular in the coming years and will be a place for more interesting solutions. For example, xMed allows users to diagnose health problems in two ways. First, it has AI-controlled algorithms. Secondly, it serves as a social network where users can ask other health and well-being enthusiasts for advice or contact medical experts. Smartwatches and bracelets are of course the same.
Medical Apps and Software Development for Sleep
Sleep deprivation has become a common modern malaise. Scientists, public figures and popular media inform us about our sleeping habits and the low number of hours in our eyes. Arianna Huffington went so far as in the Fast Company article he called sleep deprivation "new smoking" because this condition causes a wide range of mental and physical problems.
With the exception of the sleeping robot, medical wellness equipment with IoT technology has emerged as a solution. Products on this market are sleep tracking devices, nightwear, and smart pillows. These wellness devices include smart mattresses. Eight Sleep, a technology company from New York, offers a comfortable mattress with IoT sensors that collect data on fifteen factors related to sleep and health, sends them to the Eight Sleep app. The application also allows you to control the temperature on both sides of the bed. The latest version has an additional device called Pod, which allows you to dynamically change the mattress temperature according to your personal sleep temperature settings on both sides of the bed. The solution can also be controlled using smart home systems such as Alexa.
Healthcare Devises Software: Existing Technologies
Wellness Software Development for Monitoring Devices
Nowadays, hospitals and other medical facilities are still struggling with high levels of patient exposure because nurses struggle with long overtime hours. At least the problem won't go away so quickly. In addition, finding financing for many medical facilities remains an unsolved problem.
IoT presents itself here as the most suitable solution and one of the main drivers of technological development in the industry. Online healthcare devices help solve critical healthcare issues in an effective, patient-friendly and cost-effective manner, providing far more benefits and solutions.
For example, the British National Health Service (NHS) is currently in the second phase of testing Integrated Health Management Technology (TIHM). The program reduces the number of hospitalizations and home care for people suffering from dementia thanks to the wellness monitoring system, so they can stay at home for longer. The NHS installs sensors at the patient's location so that doctors can monitor their health remotely around the clock. The solution also includes algorithms based on artificial intelligence and can alert medical experts in many cases.
Pfizer and IBM have developed a concept for simplifying the treatment of Parkinson's disease. The medical condition requires constant evaluation and adjustment of the treatment regimen based on the patient's movements, cognitive reactions, and many other factors. During the study, companies placed IoT sensors on most sites to monitor symptoms and provide data to doctors, who can then make necessary adjustments to routine drug-related procedures and are informed 24/7 about patient status
The solution also uses mobile devices and advanced machine learning functions. Pfizer and IBM are working to help people with Parkinson's lead a lifestyle without hospitalization while collecting data and improving patient management.
By eliminating the need for care for patients with severe chronic illness in the face of crowded and crowded hospitals, solutions with connected medical equipment can reduce healthcare costs and significantly reduce (and even eliminate) additional nurses' hours. Online healthcare devices have a very short learning curve due to their invisible and user-friendly nature. In addition, they enable hospitals to offer patients the best comfort - home comfort.
Intelligent Software Development for Drug Management
It is very important that vaccines are always kept at the right temperature. All the more so if they reach hard-to-reach regions with deadly diseases and a great need for treatment.
To address this, Nexleaf Analytics has developed ColdTrace - a remote monitoring system for vaccine refrigerators in rural health organizations. An IoT sensor is installed in the cooling unit to monitor temperature and current in the line, and the connected medical device system sends updates and warnings to the supervisor.
In more everyday situations, AdhereTech has developed an intelligent pill bottle so that a person does not fall out of the drug-related routine. Each bottle is currently only available in the United States and will be combined with a proprietary HIPAA-compatible system to select the most appropriate treatment for each user. The solution also connects to the pharmacy system and notifies pharmacists in real-time about people who need their help. As a result, the Smart Pill bottle is used as a regular bottle.
Importantly, IoT "Invisibility Factor" solutions in healthcare will continue to play a key role in healthcare network devices. The less the patient has to learn and operate the device, the easier and less stressful the treatment will be.
Software Development for Equipment Managemen
Hospitals are large and full, and even bulky and expensive medical devices can be lost in the hallway, room or at one of the many stations. In the years to come, more and more hospitals and medical organizations will use IoT technology to quickly locate the equipment they need.
Returning to the NHS, the Scottish wing of the organization began a pilot project of hospital beds controlled via the Internet of Things at Caithness General Hospital. The beds are equipped with sensors that record data for maintenance records and determine the location of the beds.
The AutoBed G.E. platform, in turn, can track the proximity of nurses. Installed on New York Mountain. In the Sinai hospital, the beds can be quickly tracked using the AutoBed function. The numbers explain that such solutions will be more important in the future. The G.E. platform reduced the waiting time in the emergency department (ER) by several hours for fifty percent of patients in the emergency department in the hospital.
However, some hospitals are simply too large and require more complex solutions. For example, one company needed an IoT device monitoring system with various connected devices: RFID tag, RFID scanner, mobile application, and RFID label printer. Together with the internet portal, the devices help to find and manage a large fleet of medical equipment in larger hospitals.