Variability of resting respiratory drive and timing in healthy subjects

Studies of breathing pattern have focused primarily on changes in the mean values of the breathing pattern components, whereas there has been minimal investigation of breath-to-breath variability, which should provide information on the constancy with which respiration is controlled. In this study we examined the variability of breathing pattern both on a breath-to-breath and day-to-day basis by calculating the coefficient of variation (i.e., the standard deviation expressed as a percentage of the mean). By examining breath-to-breath data, we found that the coefficients of variation of tidal volume (VT) and fractional inspiratory time (TI/TT, an index of timing) obtained with an inductive plethysmograph and spirometer were within 1% of each other. Examination of breath-to-breath variability in breathing pattern over a 15-min period in 65 subjects revealed large coefficients of variation, indicating the need to base calculations on a relatively large number of breaths. Less breath-to-breath variability was observed in respiratory frequency [f, 20.8 +/- 11.5% (SD)] and TI/TT (17.9 +/- 6.5%) than in VT (33 +/- 14.9%) and mean inspiratory flow (VT/TI, an index of drive; 31.6 +/- 12.6%; P less than 0.0001). Older subjects (60-81 yr) displayed greater breath-to-breath variability than young subjects (21-50 yr). Use of a mouthpiece did not affect the degree of variability.(ABSTRACT TRUNCATED AT 250 WORDS)

Respiratory muscles in disease

The respiratory muscles play an important role in the clinical manifestations of different disease states. Respiratory muscle dysfunction plays a primary role in the development of ventilatory failure in patients with neuromuscular disorders. Although the respiratory muscles are placed at a mechanical disadvantage in patients with obstructive lung disease, there is little clinical evidence to suggest that respiratory muscle dysfunction plays a primary role in the development of ventilatory failure.

Diagnosis of pneumonia: techniques and problems

All diagnostic strategies in patients suspected of having pneumonia have considerable limitations. While the diagnostic strategy varies from patient to patient, an overview of one possible approach is summarized in Figures 2 and 3. The diagnosis and management of pneumonia usually poses little difficulty in the community setting, but the value of various diagnostic approaches in patients with hospital-acquired pneumonia is a subject of considerable controversy. Clinical criteria of pneumonia, including fever, purulent tracheobronchial secretions, leukocytosis, and a new infiltrate on chest radiograph are hampered by the high frequency with which these findings are observed in patients without pneumonia. Since tracheobronchial secretions are commonly contaminated by microorganisms colonizing the upper airways, routine culture of expectorated sputum, with the inevitable recovery of a potpourri of potential pathogens, can hardly be regarded as a meaningful exercise for the physician. Such cultures with subsequent extensive susceptibility testing form one of the largest workloads and expenses in microbiology laboratories. Clinical decisions based on such information may result in serious patient mismanagement with antibiotics, with the potential of superinfection and drug complication, which further add to hospital expenditures. Blood cultures are valuable when positive, but negative results are more common even in severe pneumonia. Transtracheal aspiration of tracheobronchial secretions is satisfactory in the diagnosis of community-acquired pneumonia in patients without pre-existing lung disease, but its value in the diagnosis of hospital-acquired pneumonia needs further evaluation. Transthoracic aspiration, especially with the newer finer needles, holds considerable promise but the significant risk of barotrauma deters most physicians from employing this procedure in patients requiring mechanical ventilation. Immunologic techniques of detecting microbial antigens, like countercurrentimmunoelectrophoresis and ELISA, are promising but presently inadequate to screen for a wide variety of organisms. Although it also has its limitations, fiberoptic bronchoscopy appears to be the most satisfactory technique if an invasive approach is being considered in a patient suspected of pneumonia. Samples taken with the plugged telescoping catheter technique, when properly performed, combined with quantitative cultures (and possibly antibody coating of bacteria) probably provide the least misleading information when a bacterial pathogen is being considered.(ABSTRACT TRUNCATED AT 400 WORDS)

Does rib cage-abdominal paradox signify respiratory muscle fatigue?

Studies suggesting that abnormal motion of the rib cage (RC) and abdomen (Ab) may indicate respiratory muscle fatigue have not separated the influence of respiratory load from that of fatigue in its pathogenesis. We hypothesized that abnormalities on RC-Ab motion are primarily related to increased load rather than fatigue. We tested this hypothesis in subjects breathing against resistive loads while maintaining 30 and 60% of maximum mouth pressure (Pmmax). RC-Ab asynchrony and paradox and the degree of variation in compartmental contribution to tidal volume were measured by inductive plethysmography and quantitated by the Konno-Mead method of analysis. Comparing measurements of base line and 30 and 60% of Pmmax indicated that the degree of asynchrony, paradox, and variation in compartmental contribution were significantly related to the level of the load; significant abnormalities were observed at even 30% of Pmmax, a target pressure that can be sustained indefinitely. In another group of subjects, fatigue was induced by sustaining 60% of Pmmax to the limits of tolerance. Indexes of abnormal RC-Ab motion increased from base line during the 1st min of loaded breathing but displayed no progression from the beginning to the end of the fatigue run. Immediately on discontinuation of the load, the indexes returned to levels similar to base line despite persistence of the fatigue state. These results in healthy subjects breathing against severe resistances indicate that RC-Ab asynchrony and paradox and variation in compartmental contribution to tidal volume are predominantly due to increases in respiratory load rather than muscle fatigue.

Konno-Mead analysis of ribcage-abdominal motion during successful and unsuccessful trials of weaning from mechanical ventilation

Respiratory muscle fatigue is considered a common cause of weaning failure but its detection is hampered by the lack of a satisfactory diagnostic test. Abdominal paradox has been proposed as a valuable clinical index of fatigue and thus its presence may lead to curtailment of weaning trials. However, sensitivity and specificity of this sign as a predictor of weaning outcome is unknown. We hypothesize that abnormal ribcage-abdominal (RC-Ab) motion is a common finding in the early stages of weaning and its presence does not inevitably imply an unsuccessful weaning outcome. We tested this hypothesis in patients undergoing a weaning trial: one group had a successful weaning outcome and were extubated (n = 10) and the other group failed the trial (n = 7). Normal RC-Ab motion was separately characterized in 17 healthy subjects. Employing a calibrated respiratory inductive plethysmograph, quantitative assessment of asynchrony and paradox was obtained by computing several indices from series of breaths at fixed time periods using the Konno-Mead method of analysis. During the weaning trial, both groups of patients displayed significant increases in asynchrony and Ab paradox compared to normal values. As a group, patients who failed the trial displayed significantly greater asynchrony and paradox of the RC and Ab than patients with a successful outcome. However, there was considerable overlap between the individual patients in the 2 study groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Accuracy of the respiratory inductive plethysmograph during loaded breathing

Indirect methods of measuring ventilation, such as the respiratory inductive plethysmograph (RIP), operate on the assumption that the respiratory system possesses two degrees of freedom of motion: the rib cage and abdomen. Accurate measurements have been obtained in many patients with pulmonary disease who possess additional degrees of freedom. Since calibration and validation of the RIP was carried out during quiet breathing in these patients, the amount of asynchronous or paradoxic breathing was presumably similar during the calibration and validation runs. Conversely, accuracy might be lost if following the initial calibration procedure the magnitude of chest wall distortion increased during subsequent validation runs. We calibrated the RIP during quiet breathing and examined its accuracy while subsequently breathing against resistive loads that required the generation of 20-80% of the subject's maximum inspiratory mouth pressure (Pmmax). We compared the relative accuracy of three commonly employed calibration methods: isovolume technique, least-squares technique, and single position loop-area technique. Up to 60% of Pmmax, 89% of the RIP values with the least-squares technique were within +/- 10% of simultaneous spirometric (SP) measurements and 100% were within +/- 20% of SP, compared with 63 and 91%, respectively, for the loop-area technique and 19 and 54%, respectively, for the isovolume technique. At 70 and 80% of Pmmax accuracy deteriorated. Accuracy of respiratory timing was judged in terms of fractional inspiratory time (TI/TT).(ABSTRACT TRUNCATED AT 250 WORDS)

The pattern of breathing during successful and unsuccessful trials of weaning from mechanical ventilation

We prospectively examined the pattern of breathing in patients being weaned from mechanical ventilation: one group (n = 10) underwent a successful weaning trial and were extubated, whereas another group (n = 7) developed respiratory failure and required the reinstitution of mechanical ventilation. During the period of ventilator support, minute ventilation (VI), tidal volume (VT), and respiratory frequency (f) were similar in the 2 groups. After discontinuation of the ventilator, VI remained similar in the 2 groups, but VT was lower and f was higher in the patients who failed the trial compared with those who were successful, 194 +/- 23 and 398 +/- 56 ml (p less than 0.001), respectively, and 32.3 +/- 2.3 and 20.9 +/- 2.8 breaths/min (p less than 0.001), respectively. The failure group displayed a significant increase in PaCO2 (p less than 0.005) during spontaneous breathing, without a concomitant increase in the alveolar-arterial PO2 difference. Eighty-one percent of the variance in PaCO2 was accounted for by the pattern of rapid, shallow breathing. During weaning, resting respiratory drive (reflected by mean inspiratory flow, VT/TI) and fractional inspiratory time (TI/Ttot) were similar in the 2 groups. The patients in the failure group showed significant increases in VT/TI, 265 +/- 27 to 328 +/- 32 ml/s (p less than 0.01), and VI, 5.82 +/- 0.53 to 7.32 +/- 0.52 L/min (p less than 0.01), from the beginning to the end of the weaning trial; VT and f showed no further change.(ABSTRACT TRUNCATED AT 250 WORDS)

Breathing pattern and metabolic behavior during anticipation of exercise

The mechanisms responsible for the marked increase in ventilation at the onset of exercise are incompletely defined. A conditioned response to exercise anticipation has been suggested as an influencing factor, but systematic measurements have not been made during the transition from rest to the time when exercise is anticipated but has not yet commenced. We tested the hypothesis that cortical activity associated with the anticipation of exercise causes hyperpnea, which is at least partly responsible for the increased ventilation at the onset of exercise. To assess the influence of continuous cortical activity in the absence of exercise anticipation the subjects performed mental arithmetic tasks. Fifteen subjects performed the two experiments in a random order. Ventilation was measured noninvasively using a calibrated respiratory inductive plethysmograph and end-tidal CO2 concentration (FETCO2) was monitored at the nasal vestibule. Both exercise anticipation and mental arithmetic caused an increase in minute ventilation (VI) (P less than 0.01) and mean inspiratory flow (VT/TI, P less than 0.01), which reflects respiratory center drive, although the derivation differed in that the former was volume based, whereas the latter was due to alteration in timing. Despite the increase in VI, FETCO2 remained constant in both instances. In a complementary study the constant FETCO2 in the face of increased VI was shown to be due to increased CO2 output. The results show that the mere anticipation of exercise causes an increase in ventilation. The mechanism responsible for this hyperpnea cannot be due solely to respiratory center activation because of the constancy of FETCO2 and the associated alterations in cardiac and metabolic behavior.

Long-term prognosis of survivors of Pneumocystis carinii pneumonia. Structural and functional correlates

Limited data exist detailing the long-term sequelae of Pneumocystis pneumonia. Open lung biopsies were obtained in seven renal transplant recipients within 48 hours of the onset of respiratory failure. Biopsy specimens and simultaneous chest roentgenograms were graded without clinical information according to the severity of alveolar damage and pulmonary infiltrates, respectively. Evaluation of pulmonary function and exercise physiology were performed 15 to 21 months after their illness. Pulmonary function indices were normal except FRC (2.65 +/- 0.56 L or 77 +/- 16 percent of predicted) and Dsb (20.0 +/- 7.2 ml/min/mm Hg or 79 +/- 19 percent of predicted). Two patients developed arterial desaturation with exercise. Alveolar damage scores correlated with later exercise arterial desaturation (r = 0.88, p less than 0.05). Simultaneous roentgenographic scores correlated with later abnormalities of Dsb (r = 0.81, p less than 0.05). Mild residual abnormalities of pulmonary function were found in five of seven adult survivors of Pneumocystis pneumonia. These abnormalities correlated with pathologic and radiographic features of the acute illness.

Separation of factors responsible for change in breathing pattern induced by instrumentation

Employment of mouthpiece and noseclips (MP + NC) has repeatedly been shown to increase tidal volume (VT), but its effect on respiratory frequency (f) and its subsets is controversial. The mechanisms accounting for this alteration in breathing pattern are poorly understood and may include stimulation of oral or nasal sensory receptors or alteration in the route of breathing. In this study we demonstrated that use of a MP + NC, compared with nonobtrusive measurement with a calibrated respiratory inductive plethysmograph, alters the majority of the volume and time indexes of breathing pattern, with increases in minute ventilation (P less than 0.01), VT (P less than 0.001), inspiratory time (TI, P less than 0.05), expiratory time (TE, P less than 0.05), mean inspiratory flow (P less than 0.05), and mean expiratory flow (P less than 0.05) and a decrease in f(P less than 0.05). Separating the potential mechanisms we found that when the respiratory route was not altered, independent oral stimulation (using an occluded MP) or nasal stimulation (by applying paper clips to the alae nasi) did not change the breathing pattern. In contrast, obligatory oral breathing without additional stimulation of the oral or nasal sensory receptors caused increases in VT (P less than 0.05), TI (P less than 0.05), and TE (P less than 0.01) and a fall in f(P less than 0.05). Heating and humidifying the inspired air did not prevent the alteration in breathing pattern with a MP. Thus change in the respiratory route is the major determinant of the alteration in breathing pattern with a MP + NC.(ABSTRACT TRUNCATED AT 250 WORDS)

Use of bronchodilator aerosols

Despite initial fears associated with its safety, aerosol administration by metered dose inhaler (MDI) is rapidly becoming the preferred form of bronchodilator therapy, as it has a number of advantages over oral agents. To enhance aerosol delivery and bronchodilator response, several important steps in the optimal use of an MDI have been characterized. Because many physicians are unaware of the optimal technique in employing an MDI, it is not surprising that patients frequently receive little or no instructions in its use. Furthermore, patients who have received instruction display great difficulty in adhering to the steps in the ideal use of an MDI and frequently cannot coordinate MDI actuation with inspiration. A number of auxiliary delivery systems have recently been developed and show varying success in circumventing the problems involved in patient use of MDIs.

Acute effects of aerosolized metaproterenol on breathing pattern of patients with symptomatic bronchial asthma

We studied the effect of two sequential puffs of metaproterenol (650 micrograms each puff) delivered with an auxiliary aerosol delivery system on the breathing pattern of patients with symptomatic bronchial asthma who were monitored noninvasively with respiratory inductive plethysmography. Particular attention was directed to respiratory center drive as reflected by mean inspiratory flow and minute ventilation. Both these components were elevated in the eight patients whose mean FEV1.0 was 1.43 L (45% predicted normal). Two puffs of metaproterenol produced a maximal increase over baseline in FEV1.0 of 50 +/- 25% (SD), whereas no change took place in FEV1.0 with placebo administration. This dose of metaproterenol did not alter heart rate nor blood pressure throughout the study period of 2 hours. Neither mean inspiratory flow, minute ventilation, nor any component of the breathing pattern changed with this partial reversal of bronchoconstriction. These results suggest that the neural mechanism accounting for heightened respiratory center drive in patients with symptomatic bronchial asthma does not wholly depend on bronchoconstriction.

Subjective and objective measurement of tidal volume in critically ill patients

Subjective assessment of the respiratory rate and the adequacy of tidal ventilation are the oldest and most widely practiced forms of respiratory monitoring in critically ill patients. Surprisingly, this method of assessment has itself never been evaluated in patients. The estimation of tidal volume in nine patients was performed by full-time intensive care unit (ICU) personnel and compared to the objective measurement of using a calibrated and validated respiratory inductive plethysmograph (RIP). Linear correlation analysis was performed. Poor correlation between clinical estimation by ICU personnel and actual measurement by RIP was revealed in all cases. A widespread and potentially dangerous tendency to overestimate tidal volume was noted. These data suggest that subjective assessment of tidal volume is inaccurate in critically ill patients and that the development of techniques of continuous, nonobtrusive and objective monitoring are to be encouraged.

Acute respiratory failure due to Pneumocystis carinii pneumonia: clinical, radiographic, and pathologic course

The clinical, radiographic, and pathologic correlates of acute respiratory failure due to Pneumocystis carinii pneumonia were studied in 12 renal transplant patients treated with cyclosporin (CS) and prednisone. Six patients required only supplemental oxygen, while the other six patients developed the adult respiratory distress syndrome (ARDS) requiring prolonged mechanical ventilation despite similar predisposing factors and prompt initiation of therapy. Ten (83%) patients survived. Increased frequency of human leukocyte antigen (HLA) DR6 was noted in six of the 11 patients tested. The resolution of radiographic infiltrates was significantly slower in ARDS patients; however, there was no apparent difference in the severity of early alveolar damage between the two groups. There was also no association between the development of ARDS due to P. carinii pneumonia and the mean daily dose of CS and prednisone, the presence of cytomegalovirus infection or pneumonia, HLA-DR6 antigen, or initial hypoxemia.

Cheyne-Stokes respiration revisited: controversies and implications

Investigation of the periodic crescendo-decrescendo alterations in tidal volume in Cheyne-Stokes respiration (CSR) has provided remarkable insight into the physiology of respiratory control. Many patients with periodic breathing have both cardiac and neurologic disease. Considerable controversy has surrounded determination of the relative importance of cardiac and neurologic mechanisms in the genesis of this breathing abnormality. Several investigators have considered the respiratory center as a chemostat model with three basic components: the controller system (chemoreceptors), the controlled system (gas tensions of O2 and CO2), and the feedback loop (arterial circulation from the lung to the brain). If the relationship between these cardiac and neurologic components is altered, stability of the respiratory control system is lost. Such disturbance in the control system may arise by prolongation of the circulation time, or by the system becoming more dependent on its O2, rather than the CO2 component. Earlier investigators considered periodic breathing as a forewarning of ominous developments. In recent studies, mild degrees of periodic breathing, easily missed on physical examination, are often found in otherwise normal subjects, particularly during sleep. Generally no therapy is required, although aminophylline, O2 or CO2 administration has been shown to abolish periodic breathing.

Effects of ipratropium bromide and fenoterol aerosols on exercise tolerance

Twelve male patients with radiological evidence of pulmonary emphysema performed progressive exercise tests on a cycle ergometer. Ipratropium bromide (Ip) 40 micrograms, Fenoterol (Fen) 400 micrograms, their combination (Ip/Fen) and Placebo were administered from metered-dose inhalers in a double-blind crossover study to compare the effects on ventilation (VE), heart rate (fc) and oxygen uptake (VO2) at rest and at maximal and sub-maximal workloads. There were no significant differences in resting VE (p greater than 0.05) between the 4 treatment regimes. During submaximal exercise, VE at a given workload was greater after Fen containing treatment regimes than after Ip alone or placebo. There was no significant difference in the maximal workload achieved after the active treatments compared with placebo. With respect to fc and VO2, there were no differences between treatments at rest or on submaximal or maximal exercise. Fenoterol produces a mild stimulation of VE during exercise as observed with other beta-agonists, but compared with the changes in resting vital capacity, functional residual capacity and residual volume, the bronchodilator induced changes in exercise variables were relatively small.

Nosocomial lung infection and its diagnosis

Nosocomial pneumonia occurs in 0.5% to 5.0% of all hospital admissions and is responsible for 15% of hospital deaths. Up to 60% of ICU patients may develop pneumonia, depending on the severity of their underlying disease. Despite the availability of potent antibiotics, ICU patients who develop Gram-negative pneumonia have a disturbingly high mortality rate. Specific etiologic diagnosis is frequently lacking because microbiological samples are commonly contaminated by oropharyngeal secretions which are colonized by Gram-negative bacilli (GNB) in up to 100% of ICU patients. Great controversy surrounds the value of various methods used to diagnose nosocomial pneumonia. Clinical criteria of pneumonia include fever, leukocytosis, purulent tracheobronchial secretions, and a new infiltrate on chest x-ray--all of which are also frequently observed in patients free of pneumonia. Tracheobronchial secretions are often contaminated by microorganisms colonizing the upper airways and their examination may provide misleading information and result in patient mismanagement. Blood cultures are valuable but positive in only a small proportion of patients with nosocomial pneumonia. Transtracheal and transthoracic aspiration are unsatisfactory in the intubated patient requiring mechanical ventilation. Immunologic techniques like countercurrent immunoelectrophoresis are promising but presently inadequate to screen for a wide variety of organisms. Transbronchial or open-lung biopsy may be considered if the pneumonia is thought to be due to opportunistic organisms rather than bacteria.(ABSTRACT TRUNCATED AT 250 WORDS)

Bacteriophage concentration from water by filter chromatography

The efficiency of an electropositive filter for membrane chromatography of viruses was examined using coliform phages T1, T4, lambda and Salmonella phage P22. Phages diluted in dechlorinated tap water were adsorbed to filters at neutral pH and eluted by 3% beef extract in 0.05 M glycine buffer at selected alkaline pH values. With exception of lambda phage, which displayed erratic adsorption behavior at any pH, all bacteriophages studied, adsorbed to filters with an efficiency of 97-100% at pH values ranging between 6.0 and 8.0. Each phage was readily eluted at alkaline pH levels. Maximal elution (86.2%) of T1 phage and lambda phage (79%) occurred at pH 10, while T4 and Salmonella phages were eluted most efficiently at pH 11 at values of 91.7 and 81.9%, respectively. The resolving power of the filter was such that individual phages within the same virus group (T1 and T4 phage) could be eluted at pHs differing by only one unit.

Effect of positive end-expiratory pressure on breathing patterns of normal subjects and intubated patients with respiratory failure

The aims of this study included assessment of accuracy of respiratory inductive plethysmography when pulmonary hyperinflation was induced by application of PEEP, and examination of breathing patterns of normal subjects, intubated patients requiring mechanical ventilation and intubated patients immediately before extubation during application of PEEP by demand valve and high gas flow reservoir bag systems. Validation of tidal volume (VT) and end-expiratory level measured with respiratory inductive plethysmography to simultaneous spirometry (SP) was achieved with PEEP levels up to 12.5 cm H2O in 7 normals. In 17 intubated patients, almost all VT values measured with respiratory inductive plethysmography fell within +/- 10% of SP even with 2 to 3 changes of body posture. In normal subjects, increasing levels of PEEP from the demand valve system produced nonprogressive rises of VT and mean inspiratory flow, falls of frequency and fractional inspiratory time (TI/TTOT), and no changes of minute ventilation (Vmin) nor mean expiratory flow. PEEP from the high gas flow reservoir bag system produced nonprogressive rises of VT and rib cage (RC) contribution to VT, and rises of Vmin and mean inspiratory and expiratory flows between 10.0 and 12.5 cm H2O of PEEP. Intubated patients requiring intermittent mandatory ventilation (IMV) had a rapid, shallow breathing pattern unaltered by PEEP levels delivered by either system up to 12.5 cm H2O despite increases of end-expiratory level. Intubated patients who were about to be extubated breathed with patterns closer to ambulatory normal subjects with the exception of their elevated RC contribution to VT.(ABSTRACT TRUNCATED AT 250 WORDS)

Breathing patterns. 2. Diseased subjects

We measured the breathing pattern of normal subjects, asymptomatic smokers, asymptomatic and symptomatic asthmatic patients, and patients with chronic obstructive pulmonary disease, restrictive lung disease, primary pulmonary hypertension and anxiety state utilizing respiratory inductive plethysmography. Respiratory rate was increased above the normal in smokers and in patients with COPD, restrictive lung disease and pulmonary hypertension, but remained normal in asthmatic patients. Inspiratory times (T1) of one second or less often occurred in patients with COPD, restrictive lung disease, and pulmonary hypertension. Smokers and patients with symptomatic asthma, COPD, restrictive lung disease and pulmonary hypertension showed heightened respiratory center drive as reflected by elevated mean inspiratory flow (VT/TI). Fractional inspiratory time was reduced to a variable extent in smokers, symptomatic asthmatic patients and patients with COPD, and was a weak indicator of airways obstruction. Patients with COPD often had major fluctuations of expiratory timing, periodic fluctuations of end-expiratory level, and asynchrony between rib cage and abdominal movements. Chronic anxiety was characterized by frequent sighs; episodic rapid rates alternating with apneas were less common. We conclude that analysis of breathing patterns provides diagnostic discrimination among normal subjects and disease states.

Breathing patterns. 1. Normal subjects

Ventilatory monitoring devices that require mouthpiece breathing produce a rise in tidal volume (VT), a fall in frequency (f) and alterations in periodicity and variability of breathing components. Together with the introduction of the respiratory inductive plethysmograph, a reliable noninvasive monitoring device of ventilation, major advances have taken place in understanding the significance of the components of the breathing pattern. We measured the breathing pattern of normal subjects utilizing respiratory inductive plethysmography and continuously processed these data with a microprocessor system. The mean values of the breathing pattern components in normal subjects were not affected by age, but the rhythmicity was more irregular in the elderly. The values of breathing pattern components obtained noninvasively by respiratory inductive plethysmography in normal subjects are fairly predictable in limits similar to other tests of pulmonary function.