Zayas Jg scite author profile

Zayas Jg

2Publications

11Citation Statements Received

59Citation Statements Given

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University of Alberta

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Bronchial Mucus Properties in Lung Cancer: Relationship with Site of Lesion

et al. 1999

Canadian Respiratory Journal

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OBJECTIVE: To compare the biophysical properties of mucus from the left and right mainstem bronchi in patients undergoing diagnostic bronchoscopy because of a unilateral radiological abnormality. It was hypothesized that abnormalities in the properties of mucus would be greater on the side with the lesion and that this would be most obvious in patients with unilateral lung cancer.PATIENTS AND METHODS: Bilateral paired samples of bronchial mucus were taken from 38 nonatopic patients (aged 59.8±12.6 years) including 16 nonsmokers, 14 current smokers and eight exsmokers (more than one year). Twenty of the 38 patients had a radiologically defined unilateral abnormality. Eight of these 20, including one nonsmoker, had lung cancer. The viscoelastic properties of the collected mucus were determined by magnetic microrheometry, and the analysis was carried out without knowledge of the histological diagnosis or source.RESULTS: The rheological properties of mucus strongly suggested which was the abnormal side. Within the group of 20 patients with a unilateral radiological abnormality, mucus from the side of the lesion had a lower value of the loss tangent, tan δ100 (P=0.004), indicating greater mucus recoil. This is consistent with poor mucus cough clearability on the lesion side. All eight cancer patients fit this mucus rheological pattern with a lower value of tan δ100 on the affected side (P=0.007). Four of the five other patients with a similar mucus abnormality were categorized as high cancer risk by other criteria, while six of seven patients with mucus that did not have this abnormality were considered to be lower risk. Based on the mucus analysis done at the time of the bronchoscopy, two of the ‘noncancer’ patients initially designated as high risk had cancer detected after several months of follow-up. Only two of the 18 patients without a defined unilateral lesion fit the mucus ‘cancer pattern’.CONCLUSIONS: These findings are consistent with the hypothesis that either abnormalities in mucus properties may represent a risk factor for the development of lung cancer or that bronchial mucus abnormalities may be associated with products secreted by the tumours that, in turn, may suppress mucus clearance.

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Rheology of mucus and transepithelial potential difference: small airways versus trachea

App¹,

Jg²,

King³

1993

Eur Respir J

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The transfer of water across the airway epithelium is closely related to the transepithelial potential difference (PD). Thus, PD should be directly involved in the regulation of airway intraluminal water content and, by extension, mucus rheology. Experiments by Boucher and co-workers (J Appl Physiol, 1980; 48: 169; and 1981; 51: 706) indicated that the values of PD in the small airways of dogs were considerably lower than in the trachea or mainstem bronchus. This fact suggests that water is increasingly removed from the airway lumen in the cephalad direction, and provides a possible mechanism whereby airway flooding is avoided as the total airway cross-section diminishes mouthward. We investigated this possibility by collecting and analysing mucus from the small airways and trachea of anaesthetized dogs and comparing our findings with measurements of PD. Mucus was collected on a cytology brush placed against the wall of the airway. Tracheal samples were taken from the lower lateral or anterior trachea, while small airway samples were taken from a 6th or 7th generation bronchus, chosen at random from either side. Measurements of PD were made at comparable sites. The mucus was analysed for its viscoelastic properties using the magnetic microrheometer technique. PD in the 6th-7th generation bronchus was significantly less than in the lower trachea (4.1 +/- 1.3 vs 17.2 +/- 7.1 mV). The rigidity of mucus collected from the small airways (log mechanical impedance (G*) at 100 rad.s-1) was significantly less than in the trachea (2.81 +/- 0.22 vs 3.01 +/- 0.29).(ABSTRACT TRUNCATED AT 250 WORDS)

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Zayas Jg

Bronchial Mucus Properties in Lung Cancer: Relationship with Site of Lesion

Rheology of mucus and transepithelial potential difference: small airways versus trachea

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