Because the conducting airways do not possess alveoli, any air inspired into those areas cannot be used for gas exchange and thus is considered to exist in the dead space. However, in certain pathological scenarios, non-perfused alveoli may be also be considered part of the dead space as any air entering non-perfused alveoli cannot efficiently be used for gas exchange. Two basic methods have been devised to measure the dead space volume of the lung.Fowler's method essentially measures the volume of air that is inhaled into the conducting airways and cannot appreciate any dead space potentially contributed by non-perfused alveoli. Consequently, the dead space measured by Fowler's method is termed the "Anatomic Dead Space". Qualitatively, Bohr's method infers the volume of gas exchanging areas from the partial pressure of the exhaled carbon dioxide and subtracts this "Living Space" from the total inhaled gas volume to derive the dead space.īohr's method takes advantage of the observation that only the areas of lung that participate in gas exchange are the source of exhaled carbon dioxide whereas the dead space areas cannot possibly contribute to carbon dioxide exhalation.In a healthy individual the anatomic and physiologic dead space will be equal in volume as nearly all alveoli are well-perfused in a normal lung.īecause Bohr's method focuses on those areas which are actually involved in gas exchange, the dead space volume derived includes the conducting airways as well as any non-perfused alveoli and is thus referred to as the "Physiologic Dead Space" Bohr's equation for calculating dead space is more complex than described above however, the precise details are less important than understanding the concept behind this methodology.
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