In the past decade, researchers have made several undeniable breakthroughs in treating diseases that were once considered deadly and incurable. This feat can be attributed to major improvements in disease diagnosis and detection.
In recent years, newer and safer disease testing methods have been developed to avoid misdiagnosis between patients and to ensure that they do not have to suffer any additional damage. Develop the latest diagnostic tests and procedures - such as electrocardiogram [ECG], electroencephalography [EEG] and magnetic resonance imaging [MRI] - to enable doctors to make accurate decisions about patients.
Due to the constant innovation and dedication of healthcare companies and research institutions, diagnostic tests have achieved tangible improvements not only in the survival of patients, but also in their overall health and quality of life.
Portable and wearable ECG / EKG monitors outstanding innovations in cardiovascular health
Electrocardiogram [ECG] plays a key role in understanding cardiovascular disease. Its wide range of applications include clinical diagnosis and prognosis of cardiovascular diseases, biomedical identification, health assessment, and fatigue research. Continuous research on this technology focuses on the accuracy of ECG diagnostics and applications, ECG's big data mining, and improved ECG instruments.
Remote ECG monitoring systems are rapidly becoming common medical devices for remote and long-term physiological monitoring. These devices are not only suitable for the elderly and frail patients, but also for healthy people who simply want to monitor their overall health.
Wearable technology is one of the most prominent innovations in the field and continues to be used in everyday clinical practice.
Qardio, Inc. It is a global digital medical company that launched its revolutionary wearable ECG monitor in January 2017. According to reports, QardioCore is the first wearable medical ECG / EKG monitor that allows users to monitor heart health without any patches or wires. This innovation is far from the traditional ECG monitor used in hospitals, which are known to be bulky and cumbersome. In contrast, this wearable device is designed to be monitored anytime, anywhere.
To take advantage of the trend of remote patient monitoring, especially to maintain heart health, medical device companies are working to design new ways and innovative ways to track patient health. One such example is the launch of AliveCor's heart monitor. The display consists of a shell that can be easily connected to the back of an Android device or iPhone, while managing the test and publishing the results through the company's mobile app, AliveECG. This gives new meaning to the concept of healthy at your fingertips.
Pay more attention to making EEG technology extremely innovative
Generation after generation, scientists and researchers are trying to understand the human brain. The pseudo-science of the "concave theory" of the 18th century believed that the shape of the human skull can deeply understand their mental state and personality. After 50 years of its launch, it was considered a science. Nearly a century later, studying electrical activity in the living brain became the technology of choice for understanding various neurological diseases.
Although this technique called electroencephalography [EEG] was initially invasive, contemporary research and modern technology have enabled the development of non-invasive methods to study brain function, pathology and behavior.
In recent years, many of the inherent advantages of EEG have enabled the technology to expand its range of applications, including the diagnosis of epilepsy, epilepsy, dizziness, head injury, brain tumors, headaches and sleep disorders. After a breakthrough transition from analog recording to digital recording, automated and integrated computer EEG systems opened the door to adaptive and accessible research methods. These systems have also become reliable, portable and inexpensive.
Using recent technological innovations, the Maryland-based BrainScope raised $16 million in August 2017 to research and develop mobile, non-invasive devices for assessing traumatic brain injury. In September 2016, the company launched the "Ahead 300", the third version of its commercial product BrainScope One. It combines EEG headsets and handheld display devices to help clinicians perform four tests to determine if there is a traumatic brain injury. These tests - two cognitive performances and two sensor-based tests - have the potential to eliminate one-third of unnecessary CT scans.
For several developing regions and countries, access to diagnostic techniques such as EEG means overcoming many geographic and economic constraints. However, the popularity of the Internet and the surge in smartphone usage have brought these countries closer to acquiring advanced technology. For example, the Bhutan Epilepsy Project addresses these challenges by using a smartphone-based EEG. Developed by the Danish Technical University, the equipment and equipment are less than $500 in total and are highly portable and easy to use.
Continuous innovation in MRI hardware and software
Magnetic resonance imaging [MRI] is probably one of the most common and widely used diagnostic/medical imaging techniques and is highly valued for its versatility. MRI has a wide range of applications in medical diagnostics, including neuroimaging, cardiovascular disease, musculoskeletal, angiography, liver and gastrointestinal tract. Although the impact of this imaging technique on improving patient health outcomes is uncertain, its role in the diagnosis and treatment of various diseases is irrefutable. According to recent developments, GE Healthcare has been one of the leaders in MRI technology.
Design innovation is critical in MR technology, which adds tremendous value to patient-friendly medical imaging. Take the 2011 Optima MR430 as an example. This GE Healthcare innovation marks a major leap forward in MR imaging because it is designed for specific target anatomy, whether it is the arm or the leg, not the traditional whole body system. Overcoming the challenges of fixation and patient confinement, this innovative scanner helps improve the patient experience. For doctors, this means less demand for whole body scanners, fewer smart investment options, fewer patient backlogs, and lower total cost of ownership.
However, in the past few years, significant advances in MRI technology have been in software. This results in a more streamlined cardiac imaging workflow, faster contrast scanning, and MR scanning of the lungs.
In September 2016, the US FDA approved GE Healthcare's MAGNETIC Resonance Image Compilation [MAGiC] software. According to reports, this is a pioneering multi-contrast MRI technology that provides eight contrast agents in a single acquisition. This is done in a fraction of the time it takes for conventional imaging, primarily by allowing the user to manipulate the MR images retrospectively and flexibly. This results in fewer rescans, so consider saving time and cost.
Due to the lengthy examination time, complexity and high cost, cardiac MRI has been a long and limited area. RSNA 2015 sees GE Healthcare launch a new MRI technology that has the potential to greatly simplify cardiac MR. ViosWorks Heart MRI software helps create the company's so-called 7-D cardiac MRI.
in conclusion
In the past five years alone, advances in diagnostic/medical imaging have revolutionized virtually every aspect of medicine. Obtaining detailed imaging techniques allows doctors to look at things from a new perspective. As doctors become aware of the accuracy and value of these tests, as well as the manufacturer's investment in research and development, this day is not far off when exploratory surgery is outdated.
Orignal From: Accurate diagnosis and patient comfort are at the heart of ECG / EKG, EEG and MRI technology innovation
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