Pulmonary changes on HRCT scans in nonsmoking females with COPD due to wood smoke exposure

Moreira, Maria Auxiliadora Carmo; Barbosa, María Alves; Queiroz, Maria de Castro Antonelli Monteiro de Conceição; Teixeira, Kim Ir Sen Santos; Torres, Pedro Paulo Teixeira e Silva; Júnior, Pedro José de Santana; Júnior, Marcelo Eustáquio Montadon; Jardim, José Roberto

doi:10.1590/s1806-37132013000200006

Cited by 28 publications

(27 citation statements)

References 23 publications

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“…With these results, we postulated that the airflow obstruction in wood smoke COPD is mainly caused by severe airway involvement rather than by a loss of elastic recoil due to emphysema. Similar to our results, a recent study from Brazil [4] showed that the most common findings on CT scans in a wood smoke-exposed COPD group were bronchial wall thickening (66.7%), bronchiectasis (54.8%), mosaic perfusion pattern (45.2%), parenchymal bands, tree-in-bud pattern and laminar atelectasis (p,0.001 versus the control group for all) and, in contrast, emphysema was uncommon. The authors described a positive association between bronchial wall thickening and hour-years of wood smoke exposure [4].…”

supporting

confidence: 91%

“…Finally, the authors concluded that this is the first study showing differences in chronic obstructive pulmonary disease (COPD) phenotypes in living women with biomass-versus tobaccosmoke exposure [1]. However, there have been previous studies investigating the differences in clinical presentation, pulmonary function tests and CT scan findings between COPD related to wood smoke and tobacco smoke [2][3][4][5]. In 2008, a review by TORRES-DUQUE et al…”

mentioning

confidence: 99%

“…The information from these studies [1][2][3][4][5] contributes to a better understanding of COPD and suggests that pathophysiologically distinct diseases, caused by a different irritant that shares airflow obstruction, could be included within the term COPD.…”

mentioning

confidence: 99%

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Wood smoke COPD: a new description of a COPD phenotype?

González-García¹,

Torres-Duque²

2014

European Respiratory Journal

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We read with interest the article by CAMP et al. [1] published in the European Respiratory Journal. In this study, based on both qualitative and quantitative computed tomography (CT) scan measures, the authors established that women exposed to biomass smoke had less emphysema than women exposed to tobacco smoke with similar obstruction observed by spirometry [1]. In addition, they described the presence of bronchiectasis in 14% of the biomass-exposed women compared to 0% of the tobacco-exposed women, without differences between the groups in the quantitative measures of air trapping or airway thickness on the inspiratory scans [1]. Finally, the authors concluded that this is the first study showing differences in chronic obstructive pulmonary disease (COPD) phenotypes in living women with biomass-versus tobaccosmoke exposure [1]. However, there have been previous studies investigating the differences in clinical presentation, pulmonary function tests and CT scan findings between COPD related to wood smoke and tobacco smoke [2][3][4][5]. In 2008, a review by TORRES-DUQUE et al.[6] of evidence on biomass fuels and respiratory diseases presented the existing information about the similarities and differences between COPD related to cigarette smoking and biomass smoke.

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confidence: 91%

mentioning

confidence: 99%

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Wood smoke COPD: a new description of a COPD phenotype?

González-García¹,

Torres-Duque²

2014

European Respiratory Journal

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“…Gupta and Shah [10] in their review on BAF observed that 632/792 (79.8%) patients with BAF were females. The mean exposure index in 42 non-smoking females with COPD from Brazil [12] was 209.1 ± 98.4 hour-years. A multivariate analysis from India [13] calculated that minimum threshold of exposure index of 60 hour-years was a significant risk factor for occurrence of chronic bronchitis in women.…”

Section: Discussionmentioning

confidence: 97%

Occurrence of Bronchial Anthracofibrosis in Respiratory Symptomatics with Exposure to Biomass Fuel Smoke

Pilaniya

Kunal

Shah

2017

Advances in Respiratory Medicine

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Introduction: Bronchial anthracofibrosis (BAF), confirmed bronchoscopically, is characterised by bluish-black mucosal pigmentation and distortion/narrowing of the bronchus. We investigated the occurrence of BAF in respiratory symptomatics with biomass fuel smoke exposure and evaluated its clinico-radiological attributes and impact on functional status. Material and methods: Of the eighty subjects evaluated, 60 consented for fiberoptic bronchoscopy (FOB). All 60 subjects also underwent chest radiography, high resolution computed tomography (HRCT) of the thorax, spirometry with reversibility testing and six-minute-walk test. Information regarding cardinal respiratory symptoms and duration of biomass fuel smoke exposure was documented. FOB evaluation revealed that 24 patients had BAF (Group 1), 17 had bronchial anthracosis (Group 2) and 19 had normal appearance (Group 3). Results: Group 1 patients had significantly higher biomass fuel smoke exposure (p < 0.0001) and lower walk distance (p = 0.003) with greater desaturation. On HRCT, segmental collapse and consolidation were significantly higher in Group 1 while fibrotic lesions were the predominantly seen in Groups 2 and 3. A significant inverse correlation in Group 1 was seen between exposure index, six-minute-walk distance and spirometric parameters. In Group 1, the right middle lobe (RML) bronchus was most commonly involved (15/24 [62.5%]). In Group 2, RML and left upper lobe bronchi were affected in 8/17 (47.1%) patients each. Conclusions: All patients in our study were females. Those with BAF had poorer functional status as compared to those with anthracosis only. On imaging, multifocal bronchial narrowing was specific to BAF.

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“…Sin embargo, existen algunas diferencias entre las característi-cas de la EPOC por humo de biomasa y por humo de tabaco 53-60 (tabla 1). A nivel histopatológico, por ejemplo, los pacientes con EPOC por humo de biomasa presentan un fenotipo con más bronquiolitis, con más antracosis y fibrosis pulmonar, así como mayor engrosamiento de la pared arterial que los pacientes con EPOC fumadores, cuyo fenotipo presentaría un mayor enfisema pulmonar 55,[57][58][59] . En este sentido, un trabajo reciente desarrollado por Krimmer et al 61 ha puesto de manifiesto que fibroblastos en cultivo expuestos a humo de biomasa incrementan su producción de fibronectina.…”

Section: Mecanismos Patogénicos Del Humo De Biomasa En La Enfermedad unclassified

Mecanismos patogénicos en la enfermedad pulmonar obstructiva crónica causada por exposición a humo de biomasa

Silva

Oyarzún

Olloquequi

2015

Archivos de Bronconeumología

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Pulmonary changes on HRCT scans in nonsmoking females with COPD due to wood smoke exposure

Cited by 28 publications

References 23 publications

Wood smoke COPD: a new description of a COPD phenotype?

Wood smoke COPD: a new description of a COPD phenotype?

Occurrence of Bronchial Anthracofibrosis in Respiratory Symptomatics with Exposure to Biomass Fuel Smoke

Mecanismos patogénicos en la enfermedad pulmonar obstructiva crónica causada por exposición a humo de biomasa

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