Effect of an acute exercise bout on immediate post-exercise irisin concentration in adults: A meta-analysis.

Irisin is a recently discovered myokine that increases adipocyte metabolism, induces further "browning" of white adipose tissue, and enhances glucose metabolism. No study has ever determined how an acute bout of exercise impacts immediate post-exercise irisin concentration using a meta-analytic approach. The purpose of this study is to determine the impact of an acute bout of exercise on the magnitude of post-exercise irisin concentration in adults using meta-analytic procedures. Searches were performed on PubMed, EMBASE, CINAHL, PEDro, SCOPUS, and SPORTDiscus databases. Effect summaries were obtained using random-effects models. Random-effects single and multiple meta-regressions were performed to determine relationships between, and potential confounding effects of, variables of interest. Ten articles were retained for the final meta-analysis, producing 21 study estimates. An acute bout of exercise was accompanied by a post-exercise average increase in irisin concentration of 15.0 (95% CI: 10.8%-19.3%). There was no significant relationship between post-exercise irisin concentration and age, intensity of aerobic exercise, or type of exercise training session (resistance vs aerobic training). Fitness level and body mass index were identified as significant predictive variables for post-exercise irisin concentration. However, a multiple meta-regression model identified fitness level as the single best predictor, with being fit (21.1%±2.2%) associated with a nearly twofold increase in post-exercise irisin concentration, compared with being unfit (11.8%±2.1%). Immediately following an acute bout of exercise, irisin concentration increases substantially in adults, with fitness level as an important modifier for the effect.

Mouthpiece diameter affects deposition efficiency in cast models of the human oral airways.

We examined the effect of altering mouthpiece diameter to 1.5, 2.0, and 2.7 cm on the deposition efficiency of inertial size particles (2, 4, and 8 microm) in adult human oral-pharyngeal-laryngeal (OPL) airway cast models at various inspiratory flow rates (30, 60, 90, and 120 L/min). Deposition efficiency of 2-microm particles was unaffected by changes in mouthpiece diameter at all flow rates. Deposition of 4-microm particles decreased significantly with the 2.0- and 2.7-cm mouthpieces compared to the 1.5 cm mouthpiece at 60, 90, and 120 L/min (p < 0.01). Deposition of 4-microm particles was significantly reduced with the 2.7-cm mouthpiece compared to the 2.0-cm mouthpiece at 90 and 120 L/min (p < 0.05). Deposition efficiency of 8 microm particles decreased significantly with the 2.0- and 2.7-cm mouthpieces compared to the 1.5-cm mouthpiece at 60 L/min (p < 0.05), and with the 2.7-cm mouthpiece compared to the 1.5-cm mouthpiece at 120 L/min (p < 0.05). These results suggest that the effect of mouthpiece diameter varies with particle size, with 2- and 8-microm particles least affected. However, our findings may have important implications for improving the future design of mouthpieces of devices that deliver particles with 4-microm diameters and require inspiratory flow rates of > or = 60 L/min (i.e., DPIs) for adequate drug delivery.

The relationship between particle deposition in the anterior nasal passage and nasal passage characteristics.

The objective of this study was to examine the effects of nasal passage characteristics on anterior particle deposition during cyclical breathing. Forty healthy, nonsmoking, adult subjects participated in this study. Nasal passage characteristics such as nostril length, width, angle, ellipticity, and minimum nasal cross-sectional area were measured. The subjects inhaled a polydisperse radioactively tagged aerosol (mass median aerodynamic diameter = 5.4 microns, geometric standard deviation [GSD] = 1.3) into the nose and exhaled through the mouth. The amount of radioactivity in the nose was measured immediately after inhalation and thereafter for 54 minutes. At 52.5 minutes, subjects wiped the accessible portion of the anterior nose to remove any remaining activity. The difference in activity at 52 and 54 minutes was used as a measure of activity removed during the nose wipe. Percentage of activity in the nasal passage at 52 minutes and percentage of activity removed with the nose wipe were considered surrogates for particles deposited in the anterior nasal passage. A multiple regression analysis showed that the degree of ellipticity of the nostrils was significantly related to particle deposition in the anterior nasal passage. These results suggest that ellipticity of the nostrils may be a determinant of the amount of particle deposition in the anterior nasal passage.

An experimental method for measuring aerosol deposition efficiency in the human oral airway.

An experimental technique was developed to measure the oral deposition of aerosols by successively drawing them passively through (1) the nasal and oral passage in series, and (2) the nose and an oral bypass "extension tube" inserted into the oral cavity just anterior to the uvula. To test this technique, a replicate human upper airway cast was challenged with monodisperse aerosols ranging in diameter from 3.6 to 150.0 nm at constant flow rates ranging from 7.5 to 30 L/min. For the inhalation study, test aerosols were drawn into the nasal cavity and directed either through the laryngeal-tracheal (L-T) section or the oral passage with/without the oral extension tube. The flow was reversed for the exhalation study. Deposition fractions of aerosols in the main oral cavity were found approximately equal to those in the L-T section for both inhalation and exhalation. Following this phase of the study, experimental measurements of total particle deposition fraction for the oral inlet-tracheal outlet path were performed. The results of these measurements agreed well with the calculated oral deposition fractions based on the initial measurements. This technique has application for measuring oral deposition of larger particles encountered in occupational environments.

Measurements of airway dimensions and calculation of mass transfer characteristics of the human oral passage.

This paper presents measurements of the geometric shape, perimeter, and cross-sectional area of the human oral passage (from oral entrance to midtrachea) and relates them through dimensionless parameters to the depositional mass transfer of ultrafine particles. Studies were performed in two identical replicate oral passage models, one of which was cut orthogonal to the airflow direction into 3 mm elements for measurement, the other used intact for experimental measurements of ultrafine aerosol deposition. Dimensional data were combined with deposition measurements in two sections of the oral passage (the horizontal oral cavity and the vertical laryngeal-tracheal airway) to calculate the dimensionless mass transfer Sherwood number (Sh). Mass transfer theory suggests that Sh should be expressible as a function of the Reynolds number (Re) and the Schmidt number (Sc). For inhalation and exhalation through the oral cavity (O-C), an empirical relationship was obtained for flow rates from 7.5-30.0 1 min-1: Sh = 15.3 Re0.812 Sc-0.986 An empirical relationship was likewise obtained for the laryngeal-tracheal (L-T) region over the same range of flow rates: Sh = 25.9 Re0.861 Sc-1.37 These relationships were compared to heat transfer in the human upper airways through the well-known analogy between heat and mass transfer. The Reynolds number dependence for both the O-C and L-T relationships was in good agreement with that for heat transfer. The mass transfer coefficients were compared to extrathoracic uptake of gases and vapors and showed similar flow rate dependence. For gases and vapors that conform to the zero concentration boundary condition, the empirical relationships are applicable when diffusion coefficients are taken into consideration.

Evaluation of acoustic rhinometry and posterior rhinomanometry as tools for inhalation challenge studies.

Objective measures of upper respiratory function are needed to understand the effects of inhaled toxicants on the nasal passages. Acoustic rhinometry (AR) is a simple new technique that determines nasal volume by measuring the cross-sectional area of the upper airway as a function of the distance along the nasal passage. This study compares acoustic rhinometry with the more traditional posterior rhinomanometry (NAR) and correlates these objective measures with the symptom of nasal congestion. Healthy young adults (n = 29) were studied on 4 days, each separated by at least 1 wk, in a climate-controlled environmental chamber for 6 h, with exposure to clean air or sidestream tobacco smoke (SS) (2 h, 1, 5, and 15 ppm CO). The coefficient of variation for single measurements was 8-15% (AR) and 4% (NAR); for across-day measurements it was 15-25% (AR) and 13-15% (NAR); and for between days it was 19-27% AR and 17-21% (NAR). These coefficients were similar in subjects with a history of environmental tobacco smoke sensitivity (ETS-S) and those with no history of ETS sensitivity (ETS-NS). At baseline, the perception of unilateral nasal congestion was significantly correlated with unilateral nasal dimensions or nasal resistance; the symptom of baseline bilateral nasal congestion (estimated for both nasal passages simultaneously) correlated less well with objective measures of nasal patency. Under challenge conditions (SS at 1-15 ppm CO), there were typically significant correlations between changes in unilateral congestion and both unilateral rhinomanometry and acoustic rhinometry, but correlations of bilateral congestion and measurable dimensions were much lower. ETS-S and ETS-NS subjects differed in correlations between bilateral subjective and objective measures: ETS-S subjects showed significant correlation between baseline congestion and NAR; in contrast, ETS-NS subjects showed significant correlation between baseline congestion and acoustic rhinometry. These results indicate that NAR and AR are complementary tests for use in inhalation challenge studies and have different correlations with nasal congestion under baseline and challenge conditions.

Tobacco smoke upper respiratory response relationships in healthy nonsmokers.

This study determined exposure-response relationships to side-stream tobacco smoke (2 hrs; 0, 1, 5, and 15 ppm CO) in 29 healthy nonsmoking young adults. Sixteen subjects had no history of environmental tobacco smoke rhinitis (ETS-NS) while 13 subjects had a history of ETS rhinitis (ETS-S). Eye irritation and odor perception showed a statistically significant exposure response in both groups; headache was significant in ETS-S and nose irritation was significant in ETS-NS subjects. Significant postexposure (P1) symptoms were first reported at 1 ppm CO among both groups, but in 3/9 symptoms were significantly greater at this exposure level in ETS-S subjects. Nasal congestion, rhinorrhea, and cough increased significantly at 15 ppm CO only. In ETS-S subjects, nasal volume decreased and nasal resistance increased in an exposure-response fashion. ETS-NS subjects had a qualitatively different shape to the exposure-response curve; significant dimensional reductions in mid- and posterior nasal volume occurred with exposure at 1 ppm CO but not at 5 ppm CO and reductions in posterior nasal volume occurred at 15 ppm CO exposure. These studies indicate subjective and objective response relationships with exposure to sidestream tobacco smoke at concentrations from 1 to 15 ppm CO. Some differences are noted among the two subject groups in the magnitude of some symptoms at the lowest exposure level and in the qualitative shape of the acoustic rhinometry and nasal resistance exposure-response curves.

Sidestream tobacco smoke exposure acutely alters human nasal mucociliary clearance.

Nasal mucociliary clearance (NMC) is a biomarker of nasal mucosal function. Tobacco smokers have been shown to have abnormal NMC, but the acute effect of environmental tobacco smoke (ETS) on nonsmokers is unknown. This study evaluated acute tobacco smoke-induced alterations in NMC in 12 healthy adults. Subjects were studied on 2 days, separated by at least 1 week. Subjects underwent a 60-min controlled exposure at rest to air or sidestream tobacco smoke (SS) (15 ppm CO) in a controlled environmental chamber. One hour after the exposure, 99mTc-sulfur colloid was aerosolized throughout the nasal passage and counts were measured with a scintillation detector. Six out of 12 subjects showed more rapid clearance after smoke exposure than after air exposure, and 3/12 had rapid clearance on both days. However, substantial decreases in clearance occurred in 3/12 subjects, all of whom had a history of ETS rhinitis. In two subjects, more than 90% of the tracer remained 1 hr after tracer administration (2 hr after smoke exposure). Understanding the basis for biologic variability in the acute effect of tobacco smoke on NMC may advance our understanding of pathogenesis of chronic effects of ETS.

Nasal pressure-volume relationships determined with acoustic rhinometry.

Partitioning of ventilation has been hypothesized to be related to nasal pressure-volume relationships, relationships that have been difficult to measure. Regional differences in nasal passage pressure-volume relationships are likely because the nasal valve and anterior turbinate are structurally different, but both are altered by agents that alter vascular tone. This study determined nasal volume-to-pressure ratio (NVPR) on six healthy nonsmoking subjects by measuring nasal volume by using acoustic rhinometry at pressures ranging between -14 and +14 cmH2O on 3 days: baseline, after intranasal decongestion (oxymetazoline), and congestion (histamine). NVPR was lower in the nasal valve (0.07 +/- 0.01 cm3/cmH2O) than in the anterior portion of the turbinates (0.29 +/- 0.05 cm3/cmH2O; P < 0.005). Oxymetazoline decongestion decreased NVPR in the nasal valve by 23% and NVPR in the anterior portion of the turbinates by 47%. Histamine did not alter NVPR at either site. Nasal resistance changes correlated with changes in nasal valve and anterior turbinate volume. In summary, regional differences in nasal pressure-volume relationships exist and changes occur with pharmacologically induced vascular decongestion.

Human susceptibility to indoor contaminants.

Indoor environmental pollutants can act as irritants, allergens, carcinogens, or infectious agents. This chapter focuses on human susceptibility to indoor environmental pollutants, here defined as inherent factors that alter exposure-response relationships. The host defense system is an important determinant of human susceptibility and is composed of two portions: nonspecific immunity and specific immunity. Pollutants elicit responses from many components of the human host defense system, and human susceptibility results from biologic variability in these components. Nonspecific immunity responds to stressors based on physicochemical properties. Components include mucociliary clearance, the epithelial barrier, airway surface fluid, and neural reflexes. Specific immunity recognizes and responds to unique peptide or carbohydrate sequences present on the foreign agent, and components of the response may include lymphocytes, basophils, mast cells, and immunoglobulins. Irritants typically stimulate nonspecific immunity, allergens stimulate specific immunity, and infecting organisms and carcinogens interact with both. Additional inherent factors that may alter the toxicity of an agent include genetic background, the presence of disease or specific organ pathology, age, gender, body weight, nutritional, hormonal, and central nervous system status. Understanding the basis for human susceptibility to indoor environmental pollutants can assist in implementing practical strategies for managing indoor air quality.

Particle deposition and resistance in the noses of adults and children.

Nasal filter efficiency for particles has been described by several authors as showing large individual variations, probably somehow related to airflow resistance. Twelve children, aged 5.5-11.5 yrs and 8 aged 12-15 yrs were compared to a group of ten adults. Deposition of polystyrene beads (1, 2.05, 2.8 microns mass median aerodynamic diameter (MMAD] was measured by comparing inhaled aerosols and exhaled air concentrations, for both nose and mouth breathing. Ventilation was controlled to scale breathing patterns appropriate for each age either at rest or during moderate exercise to allow comparison between subjects in similar physiological conditions. Anterior nasal resistance (as a function of flow rate) and standard lung function were measured for each subject. For the same inhalation flow rate of 0.300 l.s-1, children had much higher nasal resistances than the adults, 0.425 +/- 0.208 kPa.l.1.s under 12 yrs, 0.243 +/- 0.080 kPa.l.1.s over 12 yrs and 0.145 +/- 0.047 kPa.l.1.s in adults. Individually, nasal deposition increased with particle size, ventilation flow rate and nasal resistance, from rest to exercise. The average nasal deposition percentages were lower in children than in adults, in similar conditions: at rest, 12.9 and 11.7 versus 15.6 for 1 microns; 13.3 and 15.9 versus 21.6 for 2.05 microns; 11 and 17.7 versus 20 for 2.8 microns. This was even more significant during exercise, 17.8 and 15.9 versus 29.2 for 1 microns; 21.3 and 18.4 versus 34.7 for 2.05 microns; 16 and 16.1 versus 36.8 for 2.8 microns.(ABSTRACT TRUNCATED AT 250 WORDS)

The head dome: a simplified method for human exposures to inhaled air pollutants.

Acute controlled exposures of human subjects to air pollutants are customarily carried out with whole-body chambers, masks, or mouthpieces. The use of these methods may be limited by cost or technical considerations. To permit a study involving a highly unstable pollutant, artificial acid fog, administered to subjects during natural breathing, a head-only exposure chamber, called a head dome, was developed. It consists of a transparent cylinder with a neck seal which fits over the subject's head and rests lightly on his shoulders. The head dome does not constrain the upper airways or impede exercise on a bicycle ergometer. Ventilation can be monitored accurately and unobtrusively with a pneumotachograph at the exhaust port of the dome. A thermocouple may be used to monitor the onset and persistence of oronasal breathing. For short-term exposures to unstable or reactive pollutants lasting up to several hours, the head dome is an effective alternative to a whole-body chamber and probably superior to a face mask or mouthpiece.

Age-related scaling for aerosol and vapor deposition in the upper airways of humans.

Several theoretical models have been proposed in recent years to calculate age-related respiratory tract deposition of aerosols in humans. A critical factor in these models is the assumption about deposition in the airways above the trachea. In those models in which upper airway deposition is considered, a scaling factor, related to another airway dimension (usually tracheal diameter), is used to calculate an upper-airway dimension which determines inertial deposition. The paper reviews present knowledge of upper airway dimensions and airflow and proposed an age-related relationship for the critical nasal dimension, the nasal orifice. Relative inertial parameters for breathing at rest are obtained as a function of age from 1 mo to adulthood and compared to previous assumptions. The use of dimensionless parameters for predicting age-related deposition of diffusing particles and vapors is considered, and suggested experimental studies are proposed to supply needed information for age-related dosimetry of the entire respiratory tract.

Acoustic rhinometry: evaluation of nasal cavity geometry by acoustic reflection.

To study the geometry of the nasal cavity we applied an acoustic method (J. Appl. Physiol. 43: 523-536, 1977) providing an estimate of cross-sectional area as a function of distance. Acoustic areas in a model constructed from a human nasal cast, in the nasal cavity of a cadaver and in 10 normal subjects and two patients with well-defined afflictions of the nasal cavity, were compared with similar areas obtained by computerized tomography (CT) scans, a specially developed water displacement method, and anterior rhinomanometry. We found a coefficient of variation of the areas of less than 2% by the acoustic method compared with 15% for the rhinomanometric measurements. Acoustic areas correlated highly to similar areas obtained by CT scanning (r = 0.94) and by water displacement (r = 0.96). In two patients the acoustic method accurately outlined, respectively, a tumor in the nose and a septum deviation. It is concluded that this method provides an accurate method for measuring the geometry of the nasal cavity. It is easy to perform and is potentially useful for investigation of physiological and pathological changes in the nose.

Patent foramen ovale in young stroke patients.

The prevalence of patent foramen ovale in patients presenting with non-haemorrhagic stroke or transient ischaemic attacks under the age of 40 years was determined by contrast echocardiography. Studies were performed at rest and with a Valsalva manoeuvre in 40 stroke patients and in an age and sex matched control group. Right-to-left shunting was found in 20 (50%) of the stroke patients and 6 (15%) of the controls (p less than 0.001). Paradoxical embolism through a patent foramen ovale may be an under-recognised cause of stroke in young adults.

The effect of bronchial obstruction on central airway deposition of a saline aerosol in patients with asthma.

We studied the effect of bronchial obstruction on central airway deposition of a 0.9% saline aerosol (MMAD = 1.12 micron; sigma g = 2.04) labeled with 99mTc sulfur colloid. Radioaerosol was inhaled on 2 occasions by 8 patients with asthma. The degree of bronchial obstruction at the time of radioaerosol inhalation was measured by the FEV1. Mucociliary clearance of the radioaerosol was used as an index of regional aerosol distribution, because clearance from the densely ciliated central airways occurs more rapidly than from the peripheral, nonciliated regions of the lung. Using the Weibel lung model and an average mucociliary clearance rate of 1 mm/min, we determined that clearance of the radioaerosol from lung generations 1 to 5 (central airways) would be complete within approximately 90 min. Central airway deposition was therefore quantified as radioaerosol clearance in 97 min using a gamma camera. On Days 1 and 2, clearance ranged from 0 to 45% and from 0 to 17%, respectively; FEV1 as a percent of predicted FEV1 ranged from 36 to 88 on Day 1, and on Day 2 from 54 to 92. Radioaerosol clearance was inversely correlated with the baseline FEV1, with r = -0.7673 (linear regression analysis; p less than 0.05). These data suggest that the magnitude of bronchial obstruction is a determinant of aerosol distribution within the lung of patients with asthma and that increased bronchial obstruction enhances central airway deposition of inhaled particles.

Aerosol deposition and flow limitation in a compliant tube.

Studies in intact dogs have suggested that aerosol deposition is enhanced in the proximity of a flow-limiting segment (FLS) formed during cough. The mechanism for that observation was investigated using a monodisperse (geometric SD less than or equal to 1.15) fluorescent aerosol produced in a condensation generator. The aerosol was passed through a compliant tube (Penrose) that had been mounted vertically in a two-chamber box. The surrounding pressure (Ps) in the upstream chamber was controlled independent of the surrounding pressure in the downstream chamber, thus allowing development of an FLS near the exit of the upstream chamber. At fixed inlet pressure (P1) and Ps, flow limitation was achieved over a range of 0.1-0.5 l X s-1 by lowering downstream pressure alone (P2). The influence of the FLS cross-sectional geometry on the site of peak deposition was examined because area of an FLS is a function of transmural pressure (Ptm = Px - Ps). For those constriction geometries that did not involve opposing wall contact, the deposition distribution was characterized by a single peak immediately downstream of the constriction. In the most compressed geometries the peak in deposition was diminished and shifted further downstream. Total aerosol deposition was found to be characterized by a dimensionless particle inertia parameter formed as the ratio of particle stopping distance and the minor radius of the elliptical tube cross section. The deposition of small particles with an inertial parameter less than 0.01 was found to be independent of geometry and constriction velocity.(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanism of slowing of mucociliary transport induced by SO2 exposure.

Responses of nasal mucociliary transport mechanisms to exposure to 6 ppm SO2 were studied in chickens in vivo. This model takes advantage of the natural cleft palate which exposes the mucociliated base of the nasal septum. Exposure to 6 ppm SO2 decreased the mucociliary transport rate along the base of the nasal septum. The minimum force required to move an iron particle along this area of mucous membrane by use of a magnetic field in vivo increased significantly after SO2 exposure, while the minimum force required to move an iron particle on a pool of mucus collected from the same chicken and tested in vitro showed no change after SO2 exposure. The elastic recoil distance of mucus was measured both in vivo and in vitro. The in vivo recoil distance decreased significantly after SO2 exposure, while SO2 exposure did not change recoil distance in vitro. It is proposed that exposure of chickens to SO2 results in the formation of multiple points of adhesion of strands of mucus between the acinar gland cells and the emergent extracellular mucus or adhesion of a mucous blanket to the cilia, causing mucociliary transport to be retarded or static.