Forced oscillation technique (FOT): a new tool for epidemiology of occupational lung diseases?
F Fo or rc ce ed d o os sc ci il ll la at ti io on n t te ec ch hn ni iq qu ue e ( (F FO OT T) ):: a a n ne ew w t to oo ol l f fo or r e ep pi id de em mi io ol lo og gy y o of f o oc cc cu up pa at ti io on na al l l lu un ng g d di is se ea as se es s? ? The first control group, was made up of face-workers having normal chest radiographs, whilst the second comprised underground non-face-workers with normal chest radiographs. Spirometric, plethysmographic and transfer factor of the lungs for carbon monoxide single-breath (TL,CO,sb) indices revealed no significant differences between the three groups. As regards the forced oscillation technique, a higher value of resistance/frequency slope (Pa·L -1 ·s 2 ) was found in the G group compared with the control groups; 2.11 vs 1.06 in the face-workers, and 1.58 in the underground workers. In all three groups, the forced oscillation technique indices (mean resistance (R), resistance at zero frequency (R0), resistance/frequency slope (S), and resonant frequency (f0)) were found to be higher in subjects having a decreased forced expiratory volume in one second (FEV1) (≤90% predicted) or a mildly obstructive pattern of ventilatory function, even though this did not reach statistical significance in each of the groups.These findings together with the feasibility and acceptability of the forced oscillation technique would suggest that it may be a suitable tool for epidemiological studies of occupational respiratory diseases. Eur Respir J., 1995Respir J., , 8, 1307Respir J., -1313 Lung function tests provide objective evidence of respiratory disability, particularly that due to occupational exposure. Spirometry is the most frequently used technique but requires a high degree of collaboration on the part of the subject. Furthermore, forced inspiratory and expiratory manoeuvres may change bronchial tone and modify airway patency. Currently, body plethysmography is used less often in respiratory epidemiology. It measures intrathoracic gas volume and airway resistance. Again these measurements require a high degree of understanding and co-operation on the part of the subject.As a result of on-line digital processing [1-5], respiratory impedance measurements by the forced oscillation technique (FOT), have been used increasingly in recent years [6][7][8][9][10]. This technique was first proposed by DUBOIS et al. [11] in 1956, and is based on the relationship between the sinusoidal pressure variations applied to the respiratory system via the mouth [7], by means of an external generator, and the induced flow oscillations. It assesses resistive, elastic and inertial properties of the respiratory system. Data collection takes place over a few respiratory cycles of quiet breathing, enabling serial measurements to be carried out, and requiring minimum co-operation on the part of the subject. Furthermore, the simplicity of the apparatus makes the FOT a potentially useful technique for epidemiological studies.This study compares FOT and conventional lung function tests (spirometry, p...
In population studies, the provocative dose (PD) of bronchoconstrictor causing a significant decrement in lung function cannot be calculated for most subjects. Dose±response curves for carbachol were examined to determine whether this relationship can be summarized by means of a continuous index likely to be calculable for all subjects, namely the two-point dose response slope (DRS) of mean resistance (Rm) and resistance at 10 Hz (R10) measured by the forced oscillation technique (FOT).Five doses of carbachol (320 mg each) were inhaled by 71 patients referred for investigation of asthma (n=16), chronic cough (n=15), nasal polyposis (n=8), chronic rhinitis (n=8), dyspnoea (n=8), urticaria (n=5), post-anaphylactic shock (n=4) and miscellaneous conditions (n=7). FOT resistance and forced expiratory volume in one second (FEV1) were measured in close succession. The PD of carbachol leading to a fall in FEV1 $20% (PD20) or a rise in Rm or R10 $47% (PD47,Rm and PD47,R10) were calculated by interpolation. DRS for FEV1 (DRSFEV1), Rm (DRSRm) and R10 (DRSR10) were obtained as the percentage change at last dose divided by the total dose of carbachol. The sensitivity (Se) and specificity (Sp) of DRSRm, DRS10 D%Rm and D%R10 in detecting spirometric bronchial hyperresponsiveness (BHR, fall in FEV1 $20%) were assessed by receiver operating characteristic (ROC) curves.There were 23 (32%) "spirometric" reactors. PD20 correlated strongly with DRSFEV1 (r=-0.962; p=0.0001); PD47,Rm correlated significantly with DRSRm (r= -0.648; p=0.0001) and PD47,R10 with DRSR10 (r=-0.552; p=0.0001). DRSFEV1 correlated significantly with both DRSRm (r=0.700; p=0.0001) and DRSR10 (r=0.784; p=0.0001). The Se and Sp of the various FOT indices to correctly detect spirometric BHR were as follows: DRSRm: Se=91.3%, Sp=81.2%; DRSR10: Se=91.3%, Sp=95.8%; D%Rm: Se= 86.9%, Sp=52.1%; and D%R10: Se=91.3%, Sp=58.3%.Dose±response slopes of indices of forced oscillation technique resistance, especially the dose±response slope of resistance at 10Hz are proposed as simple quantitative indices of bronchial responsiveness which can be calculated for all subjects and that may be useful in occupational epidemiology. Eur Respir J 1999; 13: 295±300. Bronchial challenge tests with nonspecific stimuli are extensively used to assess bronchial responsiveness in the chest clinic [1] as well as in population [2] and occupational samples [3]. Usually, changes in airway calibre are evaluated by means of a pulmonary function test, the most widely used of which is the forced expiratory volume in one second (FEV1). However, FEV1 has two disadvantages: firstly, it requires full subject co-operation and, secondly, the deep respiratory manoeuvres required can cause changes in airway smooth muscle tone likely to influence the result of the test [4]. Airway resistance (Raw) measured by body plethysmography is sensitive and does not require forced expiratory manoeuvres but the equipment is cumbersome, expensive, and relatively complex to operate. Finally, impedance of the respir...
Bronchial Hyperresponsiveness in Farmers: Relation to Respiratory Symptoms, Lung Function, and Atopy
There is only limited information on the factors associated with nonspecific bronchial hyperresponsiveness (BHR) in farmers. Our purpose was to examine the relationship between BHR and respiratory symptoms, atopy, and abnormalities of lung function in a sample of French farmers. Farmers scheduled for a preventive medicine check-up in northeastern France were examined. Occupational exposure, respiratory symptoms, and work-related symptoms were assessed by questionnaire, sensitization to 34 common and agricultural allergens by skin prick tests, and BHR by the single-dose (1,200 microg) acetylcholine (ACh) challenge test. Data were obtained from 741 farmers (95% of those invited). Seventy-seven subjects (10.3%) had BHR defined as a fall in forced expiratory volume in 1 s (FEV1) >/= 10% after the inhalation of ACh or, for those with a poor lung function, an increase in FEV1 > 10% and > 200 ml after the inhalation of 200 microg of salbutamol. The proportion of asthmalike symptoms, especially wheeze during work, positive skin tests to acarian (storage mites) and cereal dust allergens, and low levels of lung function was significantly greater among reactors than among nonreactors. Stepwise logistic regression analysis showed a significant and independent association between BHR and wheezing during work (OR = 4.99; 95% CI = 2.29-10.89; p = 0.0001) and baseline FEV1 (OR = 1.49; 95% CI = 1.05-2.20; p = 0.026). In conclusion, hyperreactive farmers had significantly more asthmalike symptoms, positive skin tests, and abnormal lung function than normoreactive farmers. Work-related wheeze and low baseline FEV1 were significantly and independently associated with BHR.
Because some authors have reported high rates of failure in performing the single breath N2 (SBN2) test in rural areas, the present study aimed at evaluating its acceptability in a female population, unfamiliar with lung function testing, in a rural area of northeastern France. Two hundred ninety-eight women from a rural area volunteered for a preventive medicine examination (91.6% of those invited); four of them were excluded for clinical reasons, and six (2%) were unable to perform spirometry. The protocol included completion of a questionnaire, spirometry with a bronchial reactivity test, skin prick test, and the SBN2 test utilizing a computerized assembly. Although failures caused by the apparatus were few (n = 7, 2.4%) 96 of 281 women (34.1%) were unable to produce two valid SBN2 tests in a series of six attempts. Compared with the group who succeeded in the test (n = 185), women who failed were older and had a higher prevalence of bronchial hyperresponsiveness. Logistic regression confirmed the independent association of these two variables with an inability to perform. We conclude that in a female population completely unfamiliar with lung function testing the SBN2 test has a high rate of failure associated with higher age and the presence of bronchial hyperresponsiveness.
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