Introduction:
The Bringman hemoreflector is a photometric device that is used to quickly and accurately determine the content of various gases in human blood. This device is one of the most common blood gas analysis methods, which is widely used in medicine, especially in anesthesiology and intensive care.
Principle of operation:
The Bringman hemoreflector operates on the principle of photometry. It consists of two main components: a photometric block and a gas block. The photometric block contains a light source that illuminates the gas block. The gas block contains special tubes filled with the patient's blood. As blood passes through the gas block, it absorbs light from the light source. The photometric unit then measures the amount of light absorbed by the blood and converts it into values for the concentration of gases in the patient's blood.
Application:
Blood gas analysis using the Bringman hemoreflector is widely used in anesthesia and resuscitation to monitor the patient's condition and evaluate the effectiveness of procedures. For example, it can be used to measure the concentration of oxygen, carbon dioxide, nitrogen, helium and other gases in the blood, which allows the assessment of acid-base balance and other metabolic parameters.
In addition, the hemoreflector can be used to monitor the condition of patients during operations and other medical procedures. It allows you to quickly and accurately determine the concentration of gases in the blood and respond to possible changes in the patient’s condition.
Overall, the hemoreflector is an important tool for doctors and healthcare professionals who treat and monitor patients. It allows you to obtain important information about the patient's condition and take appropriate measures for his treatment.
Bringman hemoreflexor: history of creation and use
The Bringman hemoreflector is a photometric device created by the American physicist Edmund Brigman in 1860. This device is designed to quickly determine the concentration of gases in the blood, in particular carbon dioxide. Over its history, the hemoreactor has become one of the most popular tools in medical diagnostics and is used to identify various pathologies and diseases.
The history of the creation of the Bringman hemeoreflector
The history of the creation of a hemorelector begins in the 19th century. Edmund Bringman in 1771 was inspired by the idea of his teacher Hermann Carsten, who used this method to measure the electrical resistance of a wire. The idea was to use light to measure the concentration of individual elements in liquid samples. Subsequently, Briggman moved on to the study of gases and focused on creating a photometric apparatus for analyzing oxygen and carbon dioxide in the blood. He was one of the first to work with the light absorption system in the blood and developed a method for analyzing gases using refraction.
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