Science inspires science fiction, or Vice versa? In the case of medical technology, good old TV series “Star trek” (Star Trek) inspired a generation of researchers around the world. Not long ago, two teams were awarded the Qualcomm Tricorder X Prize for developing a handheld device that can diagnose a range of diseases and check the vital symptoms of the patient without invasive tests. The basis was taken a medical “tricorder” from “Star trek.”
In the series, the doctor used the tricorder and its removable scanner for rapid data collection about the patient and understand immediately what’s wrong with him. He could check the function of organs and to identify diseases or their causes, but also contained information about different forms of alien life. How close are we to creating of such a device (assuming that we do not need to analyze it with the help of aliens)?
The main purpose of the two laureates is to combine several technologies in one device. They have not yet created a universal machine “all-in-one”, but has progressed significantly.
The winner DxtER, created by the American firm Basil Leaf Technologies, in fact, is an iPad app with artificial intelligence. It uses a number of non-invasive sensors that can be attached to the body for collecting data on vital indicators, chemical body composition and biological functions. This technology from the Taiwan Dynamical Biomarkers Group similarly connects to a smartphone and several Wi-Fi portable test modules, which can analyze vital signs, blood and urine, and cutaneous manifestations.
The judges said that both devices have almost reached the benchmarks for an accurate diagnosis of 13 diseases, including anemia, lung disease, diabetes, pneumonia and a urinary tract infection. This is the most successful efforts we’ve seen involve a convenient, integrated and portable diagnostic system.
Part of the success is related to the development of various technologies that make up such systems are “all-in-one”, although they certainly still have a long way to go. Perhaps the most advanced is a mobile device for monitoring vital functions. For example, the ViSi Mobile System can remotely monitor all vital signs, including blood pressure, blood oxygen, heart rate and electrical activity, and skin temperature. It uses the sensors of the electrocardiogram (ECG) attached to the chest, a pressure sensor in the cuff for the thumb, both attached to a removable wristband that transmits all signals via a wireless network on desktop or mobile device with the same precision as conventional equipment intensive therapy.
All the various sensors data from such a system should give meaningful data, and this requires special software. AT Airstrip Technologies can pull information from hundreds of different types of patients monitors and other equipment, including medical records, scans and even a notification system to paint a full picture of changes in the patient’s condition in real time.
Portable imaging is one more element needed to diagnose the patient and provide relevant information. There are already miniature ultrasonic probes with USB that you can connect directly to your smartphone for instantaneous production of ultrasound images. Quality mobile cameras and the possibilities of imaging, these technologies will only get better in the near future. Instant x-rays or diagnosis of skin problems with the use of a machine learning algorithm will be quite affordable.
Data and diagnostics
Some pictures and information on vital indicators is not enough for a fully automated device that can tell you what is wrong with the patient. The most Mature technology that we have in this area used for monitoring diabetes. Portable gauging the level of glucose in the blood, which can test a drop of blood on paper, can already be connected to mobile applications to assess the severity of the condition.
Meanwhile, fully developed non-invasive methods for measuring glucose level that does not require puncturing the finger to obtain a drop of blood. These include the analysis of sweat or interstitial fluid, located a few micrometers below the surface of the skin (above the pain nerves).
A few innovative companies around the world pay special attention to the use of such handheld systems for the diagnosis of other diseases, including HIV, tuberculosis, bacterial infections and cardiovascular disease. They rely on key technology microhydrodynamic, which uses a specially designed microchips for manipulating small quantities of liquid.
Commonly known as “lab-on-chip”, it allows to reduce the full system of clinical laboratory tests to the device of a few centimeters in diameter. You can take the sample, prepare it for testing (for example, by extracting the bacteria from the blood) and to determine the presence of microbes.
Despite significant progress in the development of particles and parts of the tricorder, there is still work that needs to be done to make it entirely in a separate portable device. Need to miniaturise a lot of different equipment and advances in portable computers, so they can process all the information and data necessary for a complete picture of the health status of the patient. Also need to develop a deeper diagnostic functions, such as lab-on-chip and portable imaging systems, as well as less invasive testing methods. Until we have tricorders, but every day he’s getting closer.
How close are we to creating a real medical tricorder?
Ilya Hel