ObjectiveTo compare the clinical characteristics,high-resolution computed tomography (HRCT) manifestations,pulmonary function results,serum autoantibodies and treatment modality of connective tissue diseases related interstitial lung diseases (CTD-ILDs) and idiopathic interstitial pneumonias (ⅡPs). MethodsPatients explicitly diagnosed with CTD-ILDs and ⅡPs were retrospectively selected from Nanjing Drum Tower Hospital between January 2004 and December 2012.The clinical features were abstracted,including age,gender,symptoms,signs,serum autoantibody results,HRCT findings,and treatment.Patient characteristics were compared between CTD-ILDs and ⅡPs using a Pearson's χ2 test for categorical variables,and a Student's t test for continuous variables. ResultsA total of 692 patients with complete data were included in this study,with 240 CTD-ILDs cases and 452 ⅡP cases.CTD-ILDs could exist in different types of CTDs,which were mainly shown in Sjogren's syndrome,rheumatoid arthritis,and dermatomyositis/polymyositis.Age,gender,connective tissue diseases related characteristics such as dry eyes,dry mouth,and arthralgia,and several autoantibodies such as ANA,SSA,SSB all showed significantly difference between CTD-ILDs and ⅡPs (P<0.05).However there were no significant differences in cough,dyspnea after exertion,velcro crackles on auscultation,or finger clubbing between two groups (P>0.05). The HRCT manifestations of CTD-ILDs were reticular opacities,patchy consolidation,band-like shadows,and pleural thickening.Pulmonary function tests commonly showed restrictive lung function and decreased diffusing capacity.The histopathologic findings of lung biopsies of CTD-ILDs were mostly chronic inflammatory cell infiltration,as well as hyperplasia of fibrous tissue and septal thickness.The finding of chronic inflammatory cell infiltration showed significant difference between CTD-ILDs and ⅡPs (P<0.05),while the HRCT manifestations,pulmonary function results or other histopathologic findings did not(P>0.05).The current treatment modality was corticosteroids plus immunosuppressants. ConclusionDespite the similarities,CTD-ILDs show distinct clinical,laboratory and imaging features from from ⅡPs in clinical practice.
Objective To investigate the prevalence of obstructive sleep apnea hypopnea syndrome ( OSAHS) in patients with idiopathic pulmonary fibrosis ( IPF) and its clinical significance. Methods Sleep quality and breathing disorders were measured by polysomnography and the relationship with lung function was analyzed in 20 IPF patients. Results Thirteen of 20 subjects ( 65% ) had OSAHS as defined by an AHI ≥5 events per hour. Three subjects ( 15% ) had mild OSAHS ( AHI,5 to 20 events per hour) , and 10 subjects ( 50% ) had moderate-to-severe OSAHS ( AHI≥20 events per hour) . The sleep architecture in these patients showed a reduction in sleep efficiency, rapid eye movement ( REM) sleep and slow wave sleep, and a marked sleep fragmentation due to an increased arousal index. The AHI was negatively correlated with FVC% pred ( r =-0.672, P=0.001) and FEV1% pred ( r =-0.659, P=0.002) , and positively correlated with body mass index ( BMI) ( r=0.791, Plt;0.0001) . Conclusions OSAHS is a common comorbidity in IPF. Early treatment of OSAHS may improve quality of life and the prognosis of patients with IPF.
ObjectiveTo explore the differential diagnosis value of airspace consolidation in thoracic CT between organizing pneumonia (OP) and acquired community pneumonia (CAP).MethodsA retrospective study was taken by retrieving the patients CT database from October 2010 to August 2016. Fifty-six consecutive patients with OP and 99 consecutive patients with CAP whose CT showed airspace consolidation were enrolled and their clinical characteristics and radiological characteristics were analyzed.ResultsThe percentage of patients whose CT image showed various amount of air bronchogram (ABG) with different shapes is higher in OP group than that in CAP group (87.5% and 72.7% respectively, χ2=4.558, P=0.033). The median and interquartile range amount of ABG in the OP patients were significantly higher than those in CAP group [4 (ranged from 2 to 8) and 2 (ranged from 0 to 4) respectively, z=3.640, P=0.000]. Morphologically, 58.9% of the OP patients showed entire air bronchogram (EABG) on the thoracic CT, significantly higher than that in CAP group (21.2%) (χ2=22.413, P=0.000). Interrupted ABG was found in 26.3% of CAP patients, while 16.1% of OP patients shared same features and the difference was not statistically significant (χ2=2.125, P=0.148). Traction bronchiectasis and ground glass opacity (GGO) were more likely to be found in the OP patients rather than CAP patients with 26.8% and 39.3% respectively, while they were found in 1.0% and 11.1% in the CAP patients (P<0.05). Reversed halo sign was found only 1.0% of the CAP patients, significantly lower than that in OP group, 26.8% (χ2=25.671, P=0.000). Pleural effusion and bronchial wall thickening were more commonly found in the CAP group with 56.6% and 35.4% respectively. By multivariate logistic analysis, EABG (OR=5.526, P=0.000), traction bronchiectasis (OR=21.564, P=0.010), GGO (OR=4.657, P=0.007) and reversed halo sign (OR=13.304, P=0.023) were significantly associated with OP, while pleural effusion (OR=0.380, P=0.049) and bronchial wall thickening (OR=0.073, P=0.008) were significantly associated with CAP. Other features in thoracic CT coexisting with ABG all reach significance statistically between the OP and CAP group (all P<0.05).ConclusionsAirspace consolidation in thoracic CT may be valuable for the differential diagnosis between OP and CAP. EABG is more commonly found in OP patients than in CAP patients. When EABG exists or ABG coexists with traction bronchiectasis, GGO and reversed halo sign, a diagnose of OP should be considered.
Objective To explore the prognostic value of preoperative pulmonary ventilation function for postoperative survival of patients with non-small cell lung cancer ( NSCLC) . Methods 146 NSCLC patients who underwent cured lung surgical resection between January 1, 2003 and December 31,2008 in Nanjing Drum Tower Hospital were recruited in the study. Pulmonary ventilation function was obtained preoperatively for each patient, including vital capacity ( VC) , forced vital capacity ( FVC) , forcedexpiratory volume in 1 second ( FEV1 ) , FEV1 /FVC, and peak expiratory flow ( PEF) . The effects of the above lung function variables on postoperative survival were evaluated by both univariate and multivariate Cox proportional hazard models. Kaplan-Meier method was used to assess the survival probabilities betweendifferent groups.Results The median survival time after surgery was 31. 0 months ( 95% CI 22. 55-39. 45) . VC% pred, FVC% pred and FEV1% pred showed significant associations with the risk of mortality in the NSCLC patients after surgery ( hazard ratios 0. 979-0. 981, P lt; 0. 05) . The survival time after surgery was significantly shorter in the patients with VC ≤ 80% predicted compared to those with VC gt; 80% predicted ( median survival time: 31. 0 months vs. 34. 0 months) . The same difference could be found between the patients with FVC≤80% predicted and those with FVC gt; 80% predicted ( median survival time: 27. 0 months vs. 43. 0 months) . There was also significant difference in median survival between the patients with FEV1 ≤80% predicted and those with FEV1 gt; 80% predicted ( median survival time: 17. 0 months vs. 44. 0 months) . Conclusion Preoperative pulmonary ventilation function parameters may be used to informclinical decisions and indicate the prognosis of NSCLC patients after surgery.
ObjectiveTo explore the differential diagnosis value of subpleural bandlike ground-glass opacity (GGO) in thoracic CT in paraquat poisoning pneumonia. MethodsA retrospective study was carried out by retrieving the patients CT database from March 2013 to March 2015. The patients with paraquat poisoning pneumonia, interstitial pneumonia and pulmonary alveolar proteinosis (PAP) were recruited and their radiological characteristics of thoracic CT were analyzed. ResultsA total of 698 newly diagnosed interstitial pneumonia patients were finally enrolled in this study, 392 of them (56.2%) presented with GGO in thoracic CT. A total of 38 newly diagnosed PAP patients and 14 paraquat poisoning patients were enrolled, and GGO presented in thoracic CT of 100.0% and 42.9% of them respectively. Subpleural bandlike GGO was mostly commonly found in 83.3% of the paraquat poisoning pneumonia patients with GGO in thoracic CT, followed by 18.4% of the PAP patiens and 5.6% of the interstitial pneumonia patients with GGO in thoracic CT, which were significantly lower than that in the paraquat poisoning pneumonia patients (P < 05). GGO associated crazy paving pattern in thoracic CT was mostly commonly found in 94.7% of the PAP patients, followed by 0.5% of the interstitial pneumonia patients and none of the paraquat poisoning pneumonia patients. All the PAP patients with subpleural bandlike GGO were found associated with crazy paving pattern, while none of such association was found in the interstitial pneumonia or the paraquat poisoning pnuemonia patients. GGO coexisting with honeycombing and subpleural line were respectively found in 22.7% and 11.2% of the interstitial pneumonia patients, and none of such association was found in the PAP or the paraquat poisoning pneumonia patients. ConclusionsSubpleural bandlike GGO is mostly commonly found in paraquat poisoning pneumonia patients and rarely in PAP and interstitial pneumonia patients. Combined with crazy paving pattern and subpleural line, subpleural bandlike GGO may be a valuable feature in the diagnosis of paraquat poisoning pneumonia patients.