The medical field is one of many industries that has been influenced by the improvements in technology. Some of these advancements include achievements such as online ACLS renewal, medical billing and coding schools and a wide variety of technology that have helped the industry improve. In addition to these improvements, artificial intelligence can help a healthcare facility increase organization, reach out to customers, and get ahead in their industry. Medical artificial intelligence focuses on using computer techniques to diagnose and suggest treatments to patients and has the ability to make connections between the similarities in different sets of data. Medical technology is now being used to diagnose, treat, and predict medical results.
Medical professionals are working on finding ways to integrate artificial intelligence into the medical world. Some ways that have been found are patient monitoring systems, at home medical check-ups. medical robots, and supporting medical management.
A large part of the medical world is being able to successfully monitor and analyse human movement. Every hospital and doctor’s office uses some type of monitoring system to keep track of a patient’s health and their overall recovery process. The industry has been able to create inertial sensors that have the ability to detect falls in health and is able to characterise the different kinds of movements the human body makes. Hospitals use this research to monitor as a patient’s bone heals or to help prevent the risk of an elderly falling and breaking a hip or any other bone.
There are a number of research projects working on helping those with Parkinson’s disease specifically. The project, Monitoring the Mobility of Parkinson’s Patients for Therapeutic Purposes (MOMOPA), is finding new ways to detect and monitor the various stages of the disease. Another project, the Homes-Based Empowered Living for Parkinson’s Disease Patients (HELP), is working on designing a system that is able to administer an exact drug dose that a patient needs in order to help with their everyday activities. This design uses an infusion pump that is controlled by a movement sensor.
At Home Medical Check-ups
There is a growing demand for monitoring people’s state of health in any environment. There are many research groups that are working on designing systems that allow a patient’s vitals to be monitored in domestic environments. They are also working on designing a system that simultaneously detects heart and respiratory rates that function with force sensors used to measure weight. The group is currently focusing its’ efforts on creating a chair that measures a patient’s vitals and other physiological parameters.
The future of these systems and at home medical care involves making sensors that do not require a medical professional to oversee the machine. This will allow the sensors to be concealed from the person who is being supervised and have the least possible impact on the patient’s day to day activities. It will enable action to be taken only when it is strictly necessary.
Medical robots are becoming more frequent in the medical field. Surgeons are operating less and less on their skills and experience alone and are beginning to depend more on outside help. This research has made way for the development of tools that have the ability to help ensure surgeries are more precise and allows the tools to have the capability to be operated by a robot. To help with the efficiency of the robots, researchers are studying the behavior and movement of the human arm. Studying this enables repetitive and systematic methodology to be applied to the independent measurements of external factors. With these tests, surgeons are able to learn ways they can improve their surgical procedures.
Aiding Hospital Management
In the future, the development of information and communication technology, that has been adapted to the hospital environment and remote healthcare, will have great potential in the medical industry. Medical professionals and researchers are focusing their projects on aiming to reduce the probability of errors when administering drugs. These projects go through a secure patient identification system that uses radiofrequency technology and allows the patient to be located in the health centre. These projects have led to sensors that are being placed in hospital rooms across the country. Each sensor is connected to the other sensors nearby through a wireless network that has no infrastructure. These sensors configure themselves and have the ability to collaborate with other sensors, connecting one wing of the hospital to the other.
by: Rick Delgado