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עמוד בית
Fri, 22.11.24

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December 2020
Daphna Vilozni PhD, Adi Dagan MD, Ifat Sarouk MD, Bat-El Bar-Aluma MD, Moshe Ashkenazi MD, Yael Bezalel MD, and Ori Efrati MD

Background: The single-breath diffusing capacity of the lungs (DLCOSB) test measures the extent to which carbon monoxide (CO) passes from the lung air sacs into the blood. The accessible alveolar volume (VASB) is measured by inert gas during a 10-second period. The single-breath transfer coefficient of the lung for carbon monoxide (KCOSB) is the DLCOSB divided by VASB. Cystic fibrosis (CF) disease comprises progressive airway obstruction with bronchiectasis and parenchyma fibrosis. Yet, the KCOSB appears insignificant in the assessment of pulmonary function in CF.

Objectives: To challenge the precision of normal KCOSB in CF.

Methods: The authors collected pulmonary function tests (PFT) data from 74 confirmed CF patients (mean age 26 ± 10 years) with various levels of pulmonary disease severity. Tests included spirometry, DLCOBP, and body plethysmography (BP). Anatomical dead space was calculated by deducting anatomical dead space from total lung capacity TLC(BP) to establish alveolar volume (VABP) and to determine KCOBP. We also included individual data of arterial pCO2 blood-gas level.  

Results: KCOSB values were normal or higher in most patients, regardless of patient FEV1 value (R2 = 0.2204; P < 0.02). In contrast, the measurements of KCOBP were low corresponding with low FEV1 values, and negatively correlated with the elevation of trapped air and pCO2 levels (R2 = 0.1383; P = 0.0133, P > 0.05, respectively).

Conclusions: The 10- second perfusion time of the inert gas during DLCOSB represent the communicative alveolar volume in CF patients with advanced pulmonary disease. The findings justify the use of DLCOSB with the deterioration of FEV1 and elevation of pCO2 levels.

December 2015
Delfino Legnani MD, Maurizio Rizzi MD, Piercarlo Sarzi-Puttini MD, Andrea Cristiano MD, Tiziana La Spina MD, Francesca Frassanito MD, Airoldi Andrea MD and Fabiola Atzeni MD
 

Background: Interstitial lung involvement is common and potentially limits the quality of life in patients with systemic limited sclerosis (SScl). 


Objectives: To study the lung carbon monoxide diffusion (DLCO) measured during effort in order to identify a possible subclinical impairment.


Methods: We enrolled 20 SScl patients without interstitial lung involement and 20 healthy controls. At enrolment all subjetcs underwent plethysmography, DLCO by single-breath technique and evaluation of pulmonary blood flow (Qc) with the rebreathing CO2 method. Skin involvement in the SScl patients was rated using the modified Rodman skin score (mRSS). During exercise on a cycle ergometer, DLCO, DLCO/alveolar volume (Kco) and Qc were calculated at 25% and 50% of predicted maximum workload (25% pmw and 50% pmw).


Results: At baseline two groups did not differ in age, body mass index, lung function and Qc. In the controls, DLCO, Kco and DLCO/Qc measured at 25% pmw and 50% pmw were significantly higher than in SScl patients, while Qc was not different. Based on response to effort, SScl patients were divided into two groups: responders, with an increase of DLCO25%pmw and DLCO50%pmw at least 5% and 10% respectively, and non-responders. The non-responders showed greater skin involvement and significantly reduced DLCO, Kco and DLCO/Qc values at rest than responders.


Conclusions: Moderate effort in SScl patients may reveal a latent impairment in gas diffusion through the alveolar/capillary membrane, thus confirmig that exertional DLCO can identify lung damage at an earlier stage than DLCO at rest. 


 
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