NURS FPX 4040 Assessment 3 Annotated Bibliography on Technology in Nursing
In this article, we reviewed the theories behind monitoring devices as well as their reliability, effectiveness, and the repercussions of using them. The advantages that some imaging methods of pulse oximeters have over those of traditional pulse oximeters are investigated here. And although classic pulse oximeters can really only differentiate among RBCs and oxyhemoglobin, many individuals are led to believe that cognitive impairment cognitive function, such as oxidation phosphorylation, somehow doesn’t exist. This is because classic pulse oximeters only quantify oxygen saturation in the plasma. Pulse oximeters, in contrast hand, have the ability to detect mitochondrial levels of blood sugar. As a consequence of this, medical professionals favor the usage of the organelle that is included in the majority of physiological monitoring systems since it delivers more precise results.
The quantity of oxygen in the bloodstream is measured using a technology called pulse oximetry, in which very narrow beams of light are sent through the bloodstream in the finger. Pulse oximeters are able to achieve this because they monitor variations in the quantity of light absorbed by blood when it is saturated with oxygen from when the quantity of oxygen is minimal in the blood. The procedure is quick and painless. In addition to displaying the heartbeat, the pulse oximeter also shows the blood oxygen levels in the body.
Oxygen saturation tests are an assessment of the amounts of oxygen present in the blood, although in most cases, it is rather accurate. This is particularly the case when employing the elevated technology that may often be available in environments like hospitals or doctor’s clinics. The accuracy of the testing will be ensured by the presence of this technology for the medical specialists. The FDA requires prescribed oximeters to be accurate between 4-6%.
Conclusion
In conclusion, it is asserted that pulse oximeters are recommended for tracking levels of oxygen saturation in individuals suffering from respiratory illnesses despite the fact that they have certain drawbacks. Pulse oximeters assist in reducing the number of times people with the disease need to be transferred from of the neurobiological facility to the critical care for pulmonary care.
They are primarily advocated at medical facilities because of the critical role they play in checking newborns for congenital cardiac hypertrophy (CCHD). Oxygen saturation testing is beneficial in the rapid recognition of a variety of ailments, which helps to avoid long-term organ damage and reduces mortality rates. As a result, pulse oximeters are an extremely useful tool that may be found in healthcare facilities.
References
Ascha, M., Bhattacharyya, A., Ramos, J. A., & Tonelli, A. R. (2018). Pulse oximetry and arterial oxygen saturation during cardiopulmonary exercise testing. Medicine and Science in Sports and Exercise, 50(10), 1992–1997. https://doi.org/10.1249/mss.0000000000001658