With the evolution of technology, modern telehealth space is constantly evolving. While decades ago, physicians and other health professionals engaged in telehealth using radios and telephones, todays telehealth technology has changed dramatically. Modern Telehealth technologies include a smartphone app or an online video conferencing software. Telehealth equipment is starting to incorporate sophisticated devices that can measure a patients’ vitals or scan health data in the home, without any medical professional supervision. Healthcare systems across the world are experiencing perfect storms of external and internal care delivery challenges. These include overburdened doctors, declining reimbursements, rising care delivery costs, increased risk to patients and care providers, and poor health outcomes. The use of smart technology in telemedicine provides the healthcare industry with ways to mitigate these challenges by leveraging advanced innovations.
Medical device innovation is driving industry transformation by improving access to care and lowering patient costs. Healthcare innovators compete on speed-to-market and provide regulators with proof of quality management at every stage of the product life cycle. Some of the modern android telemedicine devices are designed to collect and share patient data. Some of the most enhanced android solutions are secure foundation that’s built into the chipset of telehealth devices via industry partnerships.
Meanwhile, technologies such as Artificial Intelligence (AI) is expanding the scope of telemedicine to areas such as teleradiology, teledermatology, telepathology, and telepsychiatry. Some of the modern AI-driven smart technologies such as care-assistive apps and predictive algorithms enables to remotely screen the diagnostic needs of patients. As a result, it reduces the burden on healthcare professionals by translating prescriptions into Electronic Health Records and delivering detailed medical reports to their desktops or mobile devices. AI-enabled EHRs are also aiding HCPs to improve the interoperability of data and remote patient monitoring. Furthermore, AI-based telemedicine models can increase the speed of discovering diseases and thereby cutting down the waiting hours.AI-powered healthcare chatbots are also gaining popularity among the healthcare professionals. They converse with people, answer their queries, educate them about the symptoms of a disease, and help them schedule appointments with doctors, completely in the virtual plane.
The role of mixed reality in telemedicine and augmented reality, virtual reality (VR) are all going along very well with the raid increase in technology adoption. These kind of technological advancements enables clinicians get real-time information on patients’ vitals and experiences, which can improve the accuracy of remote diagnostics. Some of the leading companies develops apps that aid clinicians through virtual real-time diagnosis and health-tracking. These solutions are designed to completely streamline hospital workflows and encourages productive health management within and outside of clinical facilities.
IoT and nano technology is also rapidly changing the healthcare scenario by focusing the way devices interact with each other for enhanced telemedicine results. It is helping to reshape the use of technology in telemedicine through virtual care networks and access to in-depth patient data. Some of the recent advancements in telediagnostics rely on large volumes of physiological and health data which new medical surveillance and diagnostic tools can offer. With the support of nanotechnology-based IoT solutions, smart pills and bandages can record body temperature, collect tissue samples and secretions. Some of the more advanced solutions are capable of taking pictures of the affected site inside the human body.
The ability to examine the human body, its drug therapies, and medical devices at the nano level, ensures a much higher level of accuracy for diagnostics and treatments. A recently developed advanced capsule is capable of examining the gases in the human gut to report any disorders. Its sensors can help detect the levels of oxygen and carbon dioxide in the body or the presence of any harmful substances. Another leading startup company introduced a heart failure management and remote monitoring undergarment and closed-loop machine learning platform to capture and record phonocardiography, stroke volume and cardiac output. This data can then be transmitted to EHR systems to help doctors with remote assessments and diagnosis, whenever required.
With numerous technology solutions trending and emerging in the space, telemedicine solutions are growing in a rapid pace. This also enables much smoother and streamlined patient care.