MaginiAApostoloASalvioniE. Alveolar-capillary membrane diffusion measurement by nitric oxide inhalation in heart failure. Eur J Prev Cardiol2013. Available at: http://www.ncbi.nlm.nih.gov/pubmed/24165475.
2.
ZavorskyGSCaoJMuriasJM. Reference values of pulmonary diffusing capacity for nitric oxide in an adult population. Nitric Oxide2008; 18: 70–79.
3.
AguilaniuBMaitreJGlenetS. European reference equations for CO and NO lung transfer. Eur Respir J2008; 31: 1091–1097.
4.
BorlandCDHigenbottamTW. A simultaneous single breath measurement of pulmonary diffusing capacity with nitric oxide and carbon monoxide. Eur Respir J1989; 2: 56–63.
5.
HughesJMVan der LeeI. The TL,NO/TL,CO ratio in pulmonary function test interpretation. Eur Respir J2013; 41: 453–461.
GuenardHVareneNVaidaP. Determination of lung capillary blood volume and membrane diffusing capacity in man by the measurements of NO and CO transfer. Respir Physiol1987; 70: 113–120.
8.
BorlandCDunninghamHBottrillF. Can a membrane oxygenator be a model for lung NO and CO transfer?J Appl Physiol2006; 100: 1527–1538.
9.
BorlandCDDunninghamHBottrillF. Significant blood resistance to nitric oxide transfer in the lung. J Appl Physiol2010; 108: 1052–1060.
10.
MartinotJBMuleMde BisschopC. Lung membrane conductance and capillary volume derived from the NO and CO transfer in high-altitude newcomers. J Appl Physiol2013; 115: 157–166.
11.
BorlandCBottrillFJonesA. The significant blood resistance to lung nitric oxide transfer lies within the red cell. J Appl Physiol2014; 116: 32–41.
12.
PuriSBakerBLDutkaDP. Reduced alveolar-capillary membrane diffusing capacity in chronic heart failure. Its pathophysiological relevance and relationship to exercise performance. Circulation1995; 91: 2769–2774.
