Healthcare Beacons – Top 5 Technologies Trending in the Healthcare Industry
The Healthcare industry is rapidly evolving. Premium quality care has become imperative for profitability and survival. There is a greater need for hospitals to stay on top of the latest technical trends and incorporate them into patient treatment. As healthcare steps into providing an anytime, anyplace medical service, we need to identify the key technologies that will enable this transition. One of the fastest growing advancements we are seeing in this industry is the growth in the use of healthcare beacons.
Healthcare Beacons and Sensors
Determine where, when and how your assets were last used within your facility. Using a wireless technology system such as FindMyAsset can record real-time status and location of equipment. This will help you reduce the amount of time your staff spends in maintaining, delivering, cleaning and searching for equipment. A more streamlined workflow will boost overall job satisfaction and help clinicians do their job without having to worry about misplaced equipment. FindMyAsset uses your existing staff’s smart devices such as a smartphone or tablet to find and determine the last known location of an asset. Healthcare Beacons as small as a matchbox are fixed to a piece of equipment. Your asset register is then updated in real-time as nurses and team members move around your facility. Installation is as simple as downloading the Virtual Mgr app on your network of devices and attaching the healthcare beacon to the relevant asset.
Artificial intelligence has an unimaginable potential. The most obvious application of artificial intelligence in healthcare is data management. AI algorithms are being used to mine medical records and store them. In design treatment plans it is being used to analyze the meaning and context of structured and unstructured medical data in clinical notes and reports that may be critical to selecting a treatment pathway. By combining attributes from the patient’s file with clinical expertise, external research, and data, the program identifies potential treatment plans for a patient. Artificial intelligence is widely used in large scale to create drugs way faster than any medical professional. Using supercomputers, hospitals are able to root out therapies from a database of molecular structures.
We are living at the dawn of the nano-medicine age. A large part of the commercial applications of nanotechnology is geared towards drug delivery. It helps in enabling new modes of action, better targeting, and bioavailability of currently existing medicinal substances. Nanoparticles and nano-devices will soon operate as precise drug delivery systems, cancer treatment tools or tiny surgeons. Novel applications of nanotechnology include nanostructured scaffolds for tissue replacement, nanostructures that allow transport across biological barriers, remote control of nanoprobes, integrated implantable sensory nano-electronic systems and multifunctional chemical structures for drug delivery and targeting of disease.
One of the most exciting and fastest growing fields of health care is robotics. Developments range from companion robots through to surgical robots. Certain robot companions can serve as a social partner in order to alleviate loneliness or treat mental health issues. Robotic devices can help paralyzed people to walk and provides rehabilitation of stroke and spinal cord injury patients. Some of them have touch sensors, cameras and microphones inbuilt within allowing patients to receive treatment remotely.
Major advances made in the field of 3-D printing have the potential to drastically transform medical care. This technology’s being used to improve prosthetics for patients and is being talked about as a possible enhancement for joint replacement surgery. Down the line, 3-D printing may even revolutionize organ transplants. Researchers are already looking at the feasibility of duplicating body parts like the outer ear.