Biomedizinische Technik. Biomedical engineering
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Comparative Study
[Effect of subcutaneous fatty tissue on normal respiratory sounds].
Auscultation is an important, non-invasive and simple measure in the diagnosis of lung diseases that can detect sometimes pathological processes prior to radiography. Attempts have already been made to automatically detect characteristic pathological sounds, but a knowledge of potential influencing factors is a must for correct interpretation. In this study we have investigated the effect of the subcutaneous fat layer on normal lung sounds. ⋯ For a quantitative evaluation of the sounds we calculated the relative power of frequency bands 330-600 Hz and 60-330 Hz and their ratio. The relation between these parameters and the subcutaneous fat layer was analyzed with the Pearson correlation. The results of this study show that the influence of subcutaneous fat layer is negligible and can be ignored in the automatic detection of lung sounds.
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Comparative Study
[Method for measuring respiration in sleep: capnography for determining ventilation].
Ventilation serves the exchange of gases between the organism and the environment. Oxygen uptake and CO2 elimination are controlled by feedback loops, that keep fluctuations in arterial CO2 pressure (PaCO2) within narrow limits Disorders in the central regulation of breathing, or impairment of the respiratory apparatus, may result in a mismatch between metabolic CO2 production and ventilatory CO2, elimination and thus in fluctuations in the PaCO2: inappropriately increased ventilation (hyperventilation) causes hypocapnia, and reduced ventilation (hypoventilation) causes hypercapnia. In order to detect such disorders during sleep, PCO2 measurement is of great importance, but direct and continuous measurement of the PaCO2 is invasive and thus unsuitable in the clinical setting. ⋯ Thus 46% of the variation in PETCO2 was explained by changes in PaCO2. Currently the literature contains few further data on capnography during sleep. It is concluded that, provided the limitations of the method are respected and comparison with the PETCO2 is made, capnography may be a useful, noninvasive and continuous measuring method for assessing ventilation during sleep in patients with suspected sleep related breathing disorders.