Abstract
Assessment of the liver function, and the need of constant monitoring of the organ's capacity, concerns not only patients with primary liver diseases, but also those at risk of hepatopathies secondary to other chronic diseases. Most commonly, the diagnostics is based on measurements of static biochemical parameters, which allow us to draw conclusions only indirectly about the function and the degree of damage of the organ. On the other hand, liver biopsy is an invasive procedure and therefore it is associated with a considerable risk of complications. Dynamic tests enable us to assess quantitatively the organ's functional reserve by analyzing the kinetics of the metabolization of the substrate by the liver. In practice applied are breath tests using substances such as aminopyrine, caffeine, methacetin, erythromycin (for assessment of the microsomal function); phenylalanine, galactose (for assessment of the cytosolic function); methionine, octanoate, ketoisocaproic acid (for assessment of the mitochondrial function). The test with 13C methacetin belongs to the best described and most widely applied methods in noninvasive liver function assessment. Due to the rising availability of this method, knowledge concerning its limitations and controversies regarding the methodology, as well as its usefulness in chosen groups of patients, seems to be vital.
Highlights
The breath test using methacetin belongs to dynamic tests that assess the microsomal function of the liver
They allow us to determine the enzymatic activity of the cytochrome P450 [1]
Its activity, which is responsible for the metabolism of many xenobiotics, decreases for example in chronic liver diseases, what is related to the negative effect of the proinflammatory cytokines [2]
Summary
The breath test using methacetin (methacetin breath test, MBT) belongs to dynamic tests that assess the microsomal function of the liver. They allow us to determine the enzymatic activity of the cytochrome P450 [1]. Microsomal tests are considered to provide potentially the most information, that allow us to assess the so called functional mass of the organ. They are characterized by the highest accuracy in assessing the long-term prognosis [1]. The use of carbon isotope 13C in the MBT (an isotope with no radioactive potential) increases the safety of the test and allows us to carry it out in children and during pregnancy [3]
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