The recently defined criteria for IPAF are fulfilled by a significant proportion of patients referred for interstitial lung disease. As compared to those with IPF, patients with IPAF are more frequently females, have distinctive characteristics, have relatively frequent abnormalities at nailfold capillaroscopy, with no difference in age or in overall survival. Prospective studies are needed to guide the management of IPAF.
Objective. Connective tissue diseases (CTDs) are associated with several interstitial lung diseases. The aim of this study was to describe the recently individualized syndrome of combined pulmonary fibrosis and emphysema (CPFE) in a population of patients with CTD.Methods. In this multicenter study, we retrospectively investigated data from patients with CTD who also have CPFE. The demographic characteristics of the patients, the results of pulmonary function testing, high-resolution computed tomography, lung biopsy, and treatment, and the outcomes of the patients were analyzed.Results. Data from 34 patients with CTD who were followed up for a mean ؎ SD duration of 8.3 ؎ 7.0 years were analyzed. Eighteen of the patients had rheumatoid arthritis (RA), 10 had systemic sclerosis (SSc), 4 had mixed or overlap CTD, and 2 had other CTDs. The mean ؎ SD age of the patients was 57 ؎ 11 years, 23 were men, and 30 were current or former smokers. High-resolution computed tomography revealed emphysema of the upper lung zones and pulmonary fibrosis of the lower zones in all patients, and all patients exhibited dyspnea during exercise. Moderately impaired pulmonary function test results and markedly reduced carbon monoxide transfer capacity were observed. Five patients with SSc exhibited pulmonary hypertension. Four patients died during followup. Patients with CTD and CPFE were significantly younger than an historical control group of patients with idiopathic CPFE and more frequently were female. In addition, patients with CTD and CPFE had higher lung volumes, lower diffusion capacity, higher pulmonary pressures, and more frequently were male than those with CTD and lung fibrosis without emphysema.Conclusion. CPFE warrants inclusion as a novel, distinct pulmonary manifestation within the spectrum of CTD-associated lung diseases in smokers or former smokers, especially in patients with RA or SSc.
BackgroundHomeostatic turnover of the extracellular matrix conditions the structure and function of the healthy lung. In lung transplantation, long-term management remains limited by chronic lung allograft dysfunction, an umbrella term used for a heterogeneous entity ultimately associated with pathological airway and/or parenchyma remodeling.ObjectiveThis study assessed whether the local cross-talk between the pulmonary microbiota and host cells is a key determinant in the control of lower airway remodeling posttransplantation.MethodsMicrobiota DNA and host total RNA were isolated from 189 bronchoalveolar lavages obtained from 116 patients post lung transplantation. Expression of a set of 11 genes encoding either matrix components or factors involved in matrix synthesis or degradation (anabolic and catabolic remodeling, respectively) was quantified by real-time quantitative PCR. Microbiota composition was characterized using 16S ribosomal RNA gene sequencing and culture.ResultsWe identified 4 host gene expression profiles, among which catabolic remodeling, associated with high expression of metallopeptidase-7, -9, and -12, diverged from anabolic remodeling linked to maximal thrombospondin and platelet-derived growth factor D expression. While catabolic remodeling aligned with a microbiota dominated by proinflammatory bacteria (eg, Staphylococcus, Pseudomonas, and Corynebacterium), anabolic remodeling was linked to typical members of the healthy steady state (eg, Prevotella, Streptococcus, and Veillonella). Mechanistic assays provided direct evidence that these bacteria can impact host macrophage-fibroblast activation and matrix deposition.ConclusionsHost-microbes interplay potentially determines remodeling activities in the transplanted lung, highlighting new therapeutic opportunities to ultimately improve long-term lung transplant outcome.
Objective
Patients with systemic sclerosis and both pulmonary hypertension and interstitial lung disease (SSc–PH‐ILD) generally carry a worse prognosis than patients with SSc and pulmonary arterial hypertension (SSc‐PAH) without ILD. There is no evidence of the efficacy of PAH therapies in SSc–PH‐ILD. We undertook this study to compare survival of and response to treatment in patients with SSc–PH‐ILD and those with SSc‐PAH.
Methods
We analyzed 128 patients (66 with SSc–PH‐ILD and 62 with SSc‐PAH) from 15 centers, in whom PH was diagnosed by right‐sided heart catheterization; they were prospectively included in the PH registry. All patients received PAH‐specific therapy. Computed tomography of the chest was used to confirm or exclude ILD.
Results
At baseline, patients with SSc–PH‐ILD had less severe hemodynamic impairment than those with SSc‐PAH (pulmonary vascular resistance 5.7 Wood units versus 8.7 Wood units; P = 0.0005) and lower diffusing capacity for carbon monoxide (median 25% [interquartile range (IQR) 18%, 35%] versus 40% [IQR 31%, 51%]; P = 0.0005). Additionally, patients with SSc–PH‐ILD had increased mortality (8.1% at 1 year, 21.2% at 2 years, and 41.5% at 3 years) compared to those with SSc‐PAH (4.1%, 8.7%, and 21.4%, respectively; P = 0.04). Upon treatment with PAH‐targeted therapy, no improvement in the 6‐minute walk distance was observed in either group. Improvement in the World Health Organization functional class was observed less frequently in patients with SSc–ILD‐PH compared to those with SSc‐PAH (13.6% versus 33.3%; P = 0.02). Hemodynamics improved similarly in both groups.
Conclusion
ILD confers a worse prognosis to SSc‐PH. Response to PAH‐specific therapy is clinically poor in SSc–PH‐ILD but was not found to be hemodynamically different from the response observed in SSc‐PAH.
Purpose: To assess the capability of four-dimensional (4D) time-resolved magnetic resonance angiography (MRA) to assess pulmonary arteriovenous malformations (PAVMs) patency by analyzing pulmonary arterial and venous enhancement kinetics. ; dynamic scan time (temporal resolution) 1.2 seconds; total acquisition time 18.1 seconds for six dynamic datasets (6 Â 1.2 sec þ reference scan: 10.9 sec). All images were reviewed by two experienced radiologists. Image quality was rated on a qualitative 5-point scale (1: not assessable to 5: excellent). Signal value was measured on cross-sectional planes for the afferent arteries and efferent veins of the PAVM, and for normal reference healthy arteries and veins. The difference in time to peak for each coupled artery/vein (dTTPav) was calculated and compared with a MannWhitney test between PAVMs and reference vessels.Results: Mean image quality was 3.2 6 0.9. dTTPav was significantly smaller in PAVMs (0.15 6 0.76 sec) than in reference vessels (3.75 6 1.62 sec), P < 0.001.Conclusion: 4D-MRA is a promising tool for noninvasive assessment of PAVM patency.
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