During a CF exacerbation, concentration of secreted mucin increased to the amount found in mucus from normal subjects, suggesting that the capacity to secrete mucin in response to an infection or inflammatory stimulus is preserved in CF airways. This might help to protect the airway from injury.
The non-invasive tension-time index of the inspiratory muscles at rest (TTMUS) can be used for assessing respiratory muscle function in children with cystic fibrosis (CF). This study aimed to investigate how TTMUS becomes altered with increasing pulmonary impairment, and which factors determine TTMUS changes in CF. We assessed TTMUS in 47 patients with stable CF ranging in age from 9 to 26 years and in 47 controls of same age and gender. Pulmonary impairment was assessed by the pulmonary function score (PFS) according to Cropp (PFS 0-2 = no, 3-7 = mild, 8-12 = moderate, and 13-18 = severe dysfunction). Median TTMUS was significantly higher in the entire CF-group than in controls ((0.112 (0.079-0.174) vs. 0.07 (0.052-0.094), P < 0.001)). It was nearly identical in CF-patients without (0.079 (0.056-0.114)) and mild (0.080 (0.059-0.128)) pulmonary dysfunction. It was non-significantly higher in subjects with moderate (0.118 (0.103-0.173)) and grossly elevated in individuals with severe (0.232 (0.211-0.31), P < 0.001)) respiratory impairment when compared to the other PFS-groups. TTMUS was significantly related to percent predicted airway resistance (Raw%pred) (r = 0.60, P < 0.001), percent predicted Forced Expiratory Volume in 1 sec (r = -0.49, P < 0.001), percent predicted Vital Capacity (-0.57, P < 0.001), Functional Residual Capacity in percent Total Lung Capacity (r = 0.42, P = 0.003), and transcutaneous oxygen saturation (r = -0.49, P < 0.001). By contrast, Raw%pred was the only variable that had a significant effect on TTMUS (P = 0.01), when a multivariate logistic regression was applied, using the median of the entire CF-cohort to dichotomise TTMUS. These findings suggest that subjects with stable CF and severe pulmonary dysfunction are prone to respiratory muscle fatigue, and that airway obstruction is an important factor contributing to the increase of TTMUS in CF. Regular determination of TTMUS may be clinically useful during course of disease, and may aid the decision to institute therapies like respiratory muscle training or non-invasive intermittent ventilation.
The raised nasal transepithelial potential difference (PD) in cystic fibrosis (CF) reflects accelerated active transport of Na+, and is inhibited by topical administration of the Na+ channel blocker, amiloride. The aim of this study was to investigate the dose-effect and time course of topically administered Na+ conductance inhibitors to inhibit nasal PD, including benzamil, an analog of amiloride. We measured the magnitude of drug inhibition of Na+ transport [percent inhibition of baseline PD (DeltaPD%)] and duration of inhibition of PD, defined as the time when drug inhibition of PD had recovered by 50% (effective time = ET50). Amiloride [10(-)3 M (n = 16), 3 x 10(-)3 M (n = 9), 6 x 10(-)3 M (n = 7), 10(-)2 M (n = 3)] or benzamil [1.7 x 10(-)3 M (n = 7), and 7 x 10(-)3 M (n = 5)] were administered to the nasal surface via an aerosol generated by a jet nebulizer and a nasal mask. The concentration-dependent magnitude (DeltaPD%) of inhibition was similar for amiloride and benzamil ( approximately 67- 77%), whereas the duration of inhibition (ET50) was about two-and-a-half times longer after benzamil administration as compared with equivalent concentrations of amiloride [1.6 +/- 0. 06 versus 4.5 +/- 0.6 h (ET50 +/- SEM), at 6-7 x 10(-)3 M]. In vitro studies of cultured normal nasal epithelia demonstrated directly that benzamil induced an approximately 2-fold more prolonged inhibition of active Na+ transport than amiloride. These data suggest aerosolized benzamil is a candidate long-duration Na+ channel blocker for CF.
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