Pulmonary compliance

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Assistant Editor-in-Chief: Soumya Sachdeva

Overview

Compliance is the ability of the lungs to stretch in a change in volume relative to an applied change in pressure. It is an important measurement in respiratory physiology.^[1]^[2]^[3]

It is the slope of the pressure-volume curve at a particular lung volume i.e. volume change per unit of pressure change (mL/cm H2O) Normal value of compliance of intact lung = 200mLs/cmH2O . Compliance is greatest at moderate lung volumes, and much lower at volumes which are very low or very high.

Calculation

Compliance is calculated using the following equation, where ΔV is the change in volume, and ΔP is the change in pressure:^[4]

<math>C = \frac{ \Delta V}{ \Delta P} </math>

Factors affecting lung compliance

Lung volume - A person with only one lung has half the change in lung volume for a given change in pressure
Phase of respiratory cycle - It is slightly greater when measured during deflation than when measured during inflation
Effect of gravity - It is less at apices of the lungs as there are more distended alveoli at the apex
Surface tension - If surface tension is high as in deficiency of surfactant , more pressure is required to distend the lungs ,therefore,compliance is decreased

Specific Compliance

Compliance divided by'''FRC''' (in mLs)

Unit = /cmH2O

Normal value = 0.05/cmH2O
Similar values in both sexs and all ages including neonates
Is a measurement of the intrinsic elastic property of the lung tissue

Applied

fibrosis is associated with a decrease in pulmonary compliance.
emphysema/COPD are associated with an increase in pulmonary compliance.
Pulmonary surfactant increases compliance by decreasing the surface tension of water. The internal surface of the alveolus is covered with a thin coat of fluid. The water in this fluid has a high surface tension, and provides a force that could collapse the alveolus. The presence of surfactant in this fluid breaks up the surface tension of water, making it less likely that the alveolus can collapse inward. If the alveolus were to collapse, a great force would be required to open it, meaning that compliance would decrease drastically.

References

↑ http://oac.med.jhmi.edu/res_phys/Encyclopedia/Compliance/Compliance.HTML
↑ Nikischin W, Gerhardt T, Everett R, Bancalari E (1998). "A new method to analyze lung compliance when pressure-volume relationship is nonlinear". Am J Respir Crit Care Med. 158 (4): 1052–60. PMID 9769260. article
↑ Essentials of Human Physiology by Thomas M. Nosek. Section 4/4ch2/s4ch2_21.
↑ http://www.cvphysiology.com/Blood%20Pressure/BP004.htm

Template:WikiDoc Sources

[1] ttp://oac.med.jhmi.edu/res_phys/Encyclopedia/Compliance/Compliance.HTML

[2] Nikischin W, Gerhardt T, Everett R, Bancalari E (1998). "A new method to analyze lung compliance when pressure-volume relationship is nonlinear". Am J Respir Crit Care Med. 158 (4): 1052–60. PMID 9769260. article

[3] Essentials of Human Physiology by Thomas M. Nosek. Section 4/4ch2/s4ch2_21.

[4] ttp://www.cvphysiology.com/Blood%20Pressure/BP004.htm

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