The influence of pulmonary resection on functional capacity can be assessed in different ways. The aim of this study was to compare the effect of lobectomy and pneumonectomy on pulmonary function tests (PFT), exercise capacity and perception of symptoms.Sixty eight patients underwent functional assessment with PFT and exercise testing before (Preop), and 3 and 6 months after lung resection. In 50 (36 males and 14 females; mean age 61 yrs) a lobectomy was performed and in 18 (13 males and 5 females; mean age 59 yrs) a pneumonectomy was performed.Three months after lobectomy, forced vital capacity (FVC), forced expiratory volume in one second (FEV1), total lung capacity (TLC), transfer factor of the lungs for carbon monoxide (TL,CO) and maximal oxygen uptake (V'O 2 ,max) were significantly lower than Preop values, increasing significantly from 3 to 6 months after resection. Three months after pneumonectomy, all parameters were significantly lower than Preop values and significantly lower than postlobectomy values and did not recover from 3 to 6 months after resection. At 6 months after resection significant deficits persisted in comparison with Preop: for FVC 7% and 36%, FEV1 9% and 34%, TLC 10% and 33% for lobectomy and pneumonectomy, respectively; and V'O 2 ,max 20% after pneumonectomy only. Exercise was limited by leg muscle fatigue in 53% of all patients at Preop. This was not altered by lobectomy, but there was a switch to dyspnoea as the limiting factor after pneumonectomy (61% of patients at 3 months and 50% at 6 months after resection). Furthermore, pneumonectomy compared to lobectomy led to a significantly smaller breathing reserve (mean±SD) (28±13 vs 37±16% at 3 months; and 24±11% vs 33±12% at 6 months post resection) and lower arterial oxygen tension at peak exercise 10.1±1.5 vs 11.5±1.6 kPa (76±11 vs 86±12 mmHg) at 3 months; 10.1±1.3 vs 11.3±1.6 kPa (76±10 vs 85±12 mmHg) at 6 months postresection.We conclude that measurements of conventional pulmonary function tests alone overestimate the decrease in functional capacity after lung resection. Exercise capacity after lobectomy is unchanged, whereas pneumonectomy leads to a 20% decrease, probably due to the reduced area of gas exchange.
Exercise testing with measurement of maximal oxygen uptake (VO2max) is increasingly used in the assessment of lung resection candidates, but its predictive value for postoperative complications remains controversial. We therefore sought to determine the prognostic value of VO2max compared with other pulmonary function tests. A consecutive group of 80 patients (mean age 61 yr; 57 males and 23 females) scheduled for lung resection (62 malignancies, 12 benign disorders, and 6 carcinoids) underwent pulmonary function tests and symptom-limited cycle ergometry. All patients underwent lung resections: 21 pneumonectomies, 45 lobectomies, and 14 segmental or wedge resections. Group A (64 patients, 80%) had an uneventful postoperative course, whereas Group B (16 patients, 20%) had complications; 3 of them died (4% overall mortality rate). In a stepwise logistic regression analysis used to determine independent risk factors for postoperative complications (within 30 d), VO2max expressed as a percentage of predicted (84 +/- 19 for Group A versus 61 +/- 11 for Group B) proved to be the best predictor (predictive value 85.5%). Although VO2max expressed in absolute values (ml/kg/min) was also highly predictive (79.5%), a ROC curve analysis proved the percentage predicted values to be significantly more sensitive. Of 9 patients with a VO2max < 60% of predicted, 8 had complications, including all 3 patients who died after resections of more than one lobe (sensitivity 50%, specificity 98%). The estimated probability (probit model SAS software package) of suffering no complication was 0.9 for VO2max > 75% of predicted and 0.1 for a VO2max < 43%.(ABSTRACT TRUNCATED AT 250 WORDS)
We compared the value of exercise testing and measurement of pulmonary haemodynamics (PH) in the pre-operative assessment of 5 patients (mean age: 64 years, 3 men) with clinical stage I or II bronchogenic carcinoma and severe chronic obstructive pulmonary disease. They were considered at high risk due to poor pulmonary function tests (PFT); (one or more of the following): (1) radionuclide calculated postlobectomy FEV1 < 30% predicted, (2) diffusion capacity or transfer factor < 60% predicted, combined with a fall in PaO2 on maximal exercise of > 5 mm Hg, (3) a PaCO2 at rest of > 45 mm Hg. Maximal oxygen uptake (VO2max) during symptom-limited cycle ergometry and PH were measured in these 5 patients. They were considered eligible for lobectomy if they fulfilled at least one of the two criteria: (1) mean pulmonary artery pressure (PAP) of < 35 mm Hg and pulmonary vascular resistance of < 190 dyn·s·cm-5 at moderate exercise (40 W), (2) a VO2MAX of > 15 ml/kg/min. Six months postoperatively PFT and VO2max were measured again. PAP40W was 21, 38, 38, 46 and 52 mm Hg, respectively, which would have excluded 4/5 patients from surgery. VO2max was 21.7, 14.9, 13.4, 19.2 and 18.6 ml/kg/min, respectively, which would have excluded 2/5 patients. Expressed in percent predicted, however, VO2MAX was > 69% in all 5 patients, indicating only mild impairment of exercise capacity in the 2 patients with < 15 ml/kg/min VO2MAX· Therefore all 5 patients were offered surgery and underwent lobectomy. Apart from 1 prolonged air leak no complications occurred, the mean hospital stay was 16 days (13-21). At 6 months their PFT and VO2max were unchanged. In conclusion, in our series of patients with marginal pulmonary function, exercise testing with the determination of VO2max was superior to PH measurements for the prediction of operability. It seems that VO2max should be expressed as a percent of predicted; however, our findings will need confirmation by future studies with bigger sample sizes.
Common variable immunodeficiency syndrome (CVID) is a primary immunodeficiency typically presenting with recurrent sinopulmonary infections. Non-Hodgkin’s lymphoma and other secondary cancers are typical late complications of CVID. We report on a patient suffering from CVID with a history of recurrent sinopulmonary infections, interstitial pulmonary changes and hepatic granulomas. Despite treatment with intravenous immunoglobulin followed by a reduction in the number of pulmonary infections, reticular and nodular lung changes progressed. Video-assisted thoracoscopic lung biopsy showed a low-grade B cell lymphoma of the mucosa-associated lymphoid tissue (MALT) of the bronchus without evidence of pulmonary infection. In conclusion, MALT lymphoma of the lung should be considered in the differential diagnosis of progressive lung disease in CVID.
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