Just a few clinicians routinely measure the subcomponents of the lung diffusing capacity for Carbone monoxide (DLCO ). This is because the measurement of membrane and blood conductances for CO (DmCO and DbCO = θCO × Vc , respectively) by the classic Roughton and Forster method is complicated and time consuming. In addition, it mistakenly assumes a close relationship between alveolar oxygen partial pressure (PAO2 ) and mean intracapillary oxygen partial pressure (PcapO2 ) which is the true determinant of specific conductance of haemoglobin for CO (θCO ). Besides that, the critical multistep oxygenation method along with different linear equations relating 1/θCO to PcapO2 gave highly scattered DmCO and Vc values. The Dm and Vc can also be derived from a simultaneous measurement of DLNO and DLCO with the blood resistance for NO assumed to be negligible. However, recent in vitro and in vivo experiments point towards a finite value of θNO (about 4·5 mlNO × mlblood-1 × min-1 × mmHg-1 ). Putting together the arguments and our clinical data allows us to report here the state of the art in partitioning the CO diffusing capacity into its constitutive components, with the goal to encourage further studies examining the sensitivity of DmCO and Vc to alterations observed in parenchymal diseases.
Keywords: interstitial lung disease; nitric oxide; pulmonary fibrosis; respiratory function tests.
© 2015 Scandinavian Society of Clinical Physiology and Nuclear Medicine. Published by John Wiley & Sons Ltd.