Applying Telemetric Innovation To Heart Disease

Health Heart disease has be.e one of the most .mon contributors to long-term morbidity and mortality in the United States. Coronary artery occlusion can have devastating effects on the cardiac cells that are responsible for pumping blood through the body and can result in sudden death if the vessels be.e .pletely closed off. Although procedures such as electrocardiography have been used for many years to help evaluate the electrical and mechanical activity of the heart, new innovations such as telemetry have further expanded the tools that medical personnel have at their disposal and have improved both the patient care experience and overall health Individuals who plan to work in the cardiovascular department will need to have a basic understanding of telemetry in order to provide high quality and .prehensive care to the public. Telemetry refers to the process by which data is transmitted from sensors to remote receivers via a wireless connection. The technology has found widespread use in both military and .mercial industries. Within the military, telemetric equipment has been used to improve .munications between different branches and to collect information about aspects that are important to operations. Organizations that provide services relating to weather use the technology to monitor seismic activity and a number of other natural phenomena that represent potentially dangerous conditions for .munities. Other sectors that have found a use for telemetry include space exploration, oil and gas discovery, healthcare, and more. Within healthcare, telemetric equipment is used to gather information about the electrical and contractile activity of the heart while it is beating. Since the procedure is noninvasive and highly unlikely to harm patients, the EKG technician or cardiac nurse are typically assigned the responsibility of setting patients up for monitoring. This process is similar to the standard electrocardiogram in the sense that it requires sensors to be placed on the chest. Once this has been ac.plished, the sensors can be connected to a wireless transmitter that is switched on when the monitoring center is prepared to begin receiving data. The transmitter then captures electrical activity and sends the information to the .puter hardware and software that is used to translate the information into a series of waves and intervals that represent different stages of the cardiac cycle. Nurses and technicians who work in cardiac care units that have their own telemetry monitoring centers often share the responsibility of observing patients throughout the facility. Due to the critical nature of cardiac care, medical personnel may be required to .plete advanced training and certification that ensures a thorough .prehension of normal and abnormal rhythms or events. Some facilities that operate in remote areas of the country or that lack the necessary staff to effectively manage the patient load may choose to outsource aspects of the monitoring process to virtual intensive care units. These units employ physicians, nurses, and technicians who work in shifts and who monitor patients who are receiving treatment in several different facilities. Telemetry is a very important technological innovation that has benefited many different industries and has dramatically improved the way that heart disease patients are evaluated and managed. Unlike electrocardiography, telemetric equipment allows medical personnel to observe cardiac activity while the patient is at rest and under active circumstances. This data provides additional information that may be missed on an electrocardiogram, but that is important in evaluating the nature of the disease and deciding on the most appropriate course for treatment. About the Author: 相关的主题文章: