PURPOSE:Our study was designed to verify the correlation between the level of percutaneous arterial oxygen saturation (SpO2) and forced expiratory volume in 1 second (FEV1) and to classify the severity according to SpO2 level when asthma exacerbation is developed. METHODS:We performed the methacholine bronchial provocation tests with monitoring SpO2 on 350 children who visited the pediatric allergy clinic with chronic cough or recurrent wheezing from August 2006 to August 2008. RESULTS:There was a significant correlation between FEV1%fall and SpO2 (r=-0.814, P< 0.01). The mean value of SpO2 was 95.80%+/-1.2% when decrement of FEV1 was 20%. It was 92.3%+/-0.81% when FEV1 decreased by 40%. CONCLUSION:Monitoring SpO2 is a convenient and reliable objective method to determine an appropriate therapeutic option when the pulmonary function test or arteial blood gas analysis is not available in children with asthma. We suggest less than 96% of SpO2 for the moderate attack, less than 92% for the severe attack, as the criteria for the severity of asthma exacerbations in Korea, which is higher than those suggested by GINA guideline or Japanese guidelines.
Asian Continental Ancestry Group ; Asthma ; Blood Gas Analysis ; Bronchial Provocation Tests ; Child ; Cough ; Forced Expiratory Volume ; Humans ; Hypersensitivity ; Korea ; Lung ; Methacholine Chloride ; Oxygen ; Respiratory Function Tests ; Respiratory Sounds

Pulmonary function testing (PFT) is an important and fundamental method in the evaluation and treatment of respiratory diseases. Airway responsiveness assessed using histamine or methacholine by PFT is meaningful for the diagnosis of asthma. Spirometry is simple, and has been the most commonly used technique. However, in younger or uncooperative children, other commercially available tools such as impulse oscillometry (IOS), gas dilution, and plethysmography have been used. IOS is a noninvasive method that allows the measurement of airway mechanics (resistance [R] and reactance [X]) with minimal patient cooperation. Functional residual capacity (FRC) is one of the most important measurements obtained by gas dilution. Plethysmography is a gold standard to measure airway resistance and useful for lung function testing in infants. The purpose of this review is to help pediatric physicians being familiar with PFT techniques used in young children by discussing their principles, clinical applications, limitations, and current accessibility in Korea.
Airway Resistance ; Asthma ; Child* ; Diagnosis ; Functional Residual Capacity ; Histamine ; Humans ; Infant ; Korea ; Lung* ; Mechanics ; Methacholine Chloride ; Oscillometry ; Patient Compliance ; Plethysmography ; Respiratory Function Tests ; Spirometry

OBJECTIVEBody plethysmography is a typical method to measure functional residual capacity (FRC) and airway resistance (Raw). The aim of the study was to test the feasibility of measuring lung function with the body plethysmography in young children with acute lower respiratory tract infection (ALRI) by evaluating changes and prognosis of lung function for infants with ALRI with or without wheezing via body plethysmograph.

METHODPulmonary function tests (PFTs) were performed by using body plethysmography in 444 children with ALRI, aged 1-36 months, to assess their tidal breathing parameters such as ratio of time to peak tidal expiratory flow to total expiratory time (TPTEF/TE), ratio of volume to peak tidal expiratory flow to total expiratory volume (VPTEF/VE), plethysmographic functional residual capacity (FRCP), FRCP per kilogram (FRCP/kg), specific effective airway resistance (sReff), effective airway resistance (Reff), Reff per kilogram (Reff/kg), etc. According to whether there was wheezing or not, children who had ALRI with wheezing were classified as Group-W, or without wheezing as Group-N. Changes or correlations of tidal breathing parameters and plethysmographic parameters were compared.One hundred and three contemporaneous healthy controls aged 1-36 months underwent the same tests for comparison. And 36 wheezing children accepted PFTs at follow-up in recovery phase.

RESULTMean values of TPTEF/TE in Group-W,Group-N and the Control respectively were (20.5 ± 6.7)%,(22.8 ± 6.5)%,(34.6 ± 5.0)% (F = 110.500, P < 0.001), while VPTEF/VE respectively were (23.0 ± 6.3)%,(25.2 ± 6.8)%,(34.5 ± 4.2)% (F = 107.800, P < 0.001). Compared to the Control,Group-W and Group-N had significantly higher values of FRCP (226 vs. 176 vs. 172 ml, χ(2) = 64.870, P < 0.001), FRCP/kg(24.40 vs.17.80 vs.17.60 ml/kg,χ(2) = 68.890, P < 0.001), sReff(1.00 vs. 0.52 vs. 0.46 kPa·s,χ(2) = 75.240, P < 0.001), Reff (3.90 vs.2.74 vs.2.20 kPa·s/L, χ(2) = 36.480, P < 0.001) and Reff/kg [0.42 vs. 0.29 vs.0.22 kPa·s/(L·kg), χ(2) = 29.460, P < 0.001]. Although 25 (12.8%) wheezing children with ALRI had normal values of tidal breathing parameters, they already had increased FRCP, FRCP /kg, sReff, Reff and Reff/kg (t = 2.221, 1.997, 2.502, 2.587, 2.539, all P < 0.05). Values of FRCP and Reff in infants caught ALRI were inversely correlated to that of TPTEF/TE and VPTEF/VE (P < 0.05); 36 children with wheezing who accepted PFTs at follow-up had shown significant decline in the specific parameters of plethysmography such as FRCP, FRCP/kg, sReff, Reff and Reff/kg (Z = -1.999, -2.195, -2.038, -1.823, -2.054, all P < 0.05), while no improvement in the main parameters of tidal breathing such as TPTEF/TE.

CONCLUSIONMeasuring lung function with the body plethysmography in young children with ALRI is feasible. FRC and Raw, as special lung function testing parameters of body plethysmography, were sensitive indicators reflecting impairment of lung function in infants with ALRI (especially for children caught ALRI with wheezing) and shows significant correlation with parameters from lung function testing via tidal breathing. Therefore plethysmography is worthy of clinical promotion.

Airway Resistance ; physiology ; Case-Control Studies ; Child, Preschool ; Female ; Functional Residual Capacity ; physiology ; Humans ; Infant ; Lung ; physiopathology ; Male ; Plethysmography, Whole Body ; Respiratory Function Tests ; Respiratory Sounds ; diagnosis ; physiopathology ; Respiratory Tract Diseases ; diagnosis ; physiopathology ; Tidal Volume

OBJECTIVES: To identify adverse health effects due to air pollution derived from a cement plant in Korea. The ventilation impairment in residents around a cement plant was compared to another group through a pulmonary function test (PFT). METHODS: From June to August of 2013, both a pre and post-bronchodilator PFT was conducted on a "more exposed group (MEG)" which consisted of 318 people who lived within a 1 km radius of a cement plant and a "less exposed group (LEG)" which consisted of 129 people who lived more than 5 km away from the same plant. The largest forced expiratory volume in a one second (FEV1) reading and a functional residual capacity (FVC) reading were recorded after examining the data from all of the usable curves that were agreed upon as valid by PFT experts of committee of National Institute of Environmental Research. The global initiative for chronic obstructive lung disease (GOLD) criteria for COPD, defined the FEV1/FVC ratio < 0.7 as the obstructive type, and the FEV1/FVC ratio >== 0.7 and FVC% predicted < 80% were as the restrictive type. The FVC% predicted value was estimated using Korean equation. We compared the proportion of lung function impairments between the MEG and the LEG by using a chi-square, and estimated the OR of obstructive and restrictive ventilation impairments by logistic regression. RESULTS: The obstructive type impairment proportion was 9.7% in the MEG, whereas it was 8.5% in the LEG. The restrictive type was 21.6% in the MEG which was more than the 12.4% of the LEG. The odds ratio (OR) of total ventilation impairment in the MEG was 2.63 (95% CI 1.50 ~ 4.61) compared to the LEG. The OR of obstructive type in the MEG was 1.60 (95% CI 0.70 ~ 3.65), the smoking history was 3.10 (CI 1.10 ~ 8.66) whereas OR of restrictive type in the MEG was 2.55 (95% CI 1.37 ~ 4.76), the smoking history was 0.75 (95% CI 0.35 ~ 1.60) after adjusting for sex and age. Level of exposure to particulate played a role in both types. However, it appeared to be a significant variable in restrictive type, while smoking history was also an important variable in obstructive type. CONCLUSION: Although this study is a limited cross-section study with a small number of subjects, ventilation impairment rate is higher in the MEG. There might be a possibility that it is due to long-term exposure to particulate dust generated by the cement plant.
Air Pollution ; Dust ; Forced Expiratory Volume ; Functional Residual Capacity ; Korea ; Leg ; Logistic Models ; Lung ; Odds Ratio ; Plants* ; Pulmonary Disease, Chronic Obstructive ; Radius ; Respiratory Function Tests ; Smoke ; Smoking ; Ventilation*

To evaluate exercise capacity, treadmill test and exercise pulmonary function test with cycle ergometer were preformed in 52 patients(pts) (M/F : 18/34, mean age : 43+/-11 yrs) with mitral stenosis before and 5~10 days after percutaneous mitral balloon valvuloplasty(PMV). Twenty four pts had atrial fibrillation. The results are as follow : 1) The mitral valve area increased from 0.9+/-0.2 to 1.8+/-0.3cm2(P<0.001). 2) The duration of exercise time on treadmill test(modified Bruce protocol) increased from 7.7+/-3.3min to 11.1+/-2.6min(P<0.001), but peak heart rate(HR) and maximum double product(MDP) did not change significantly. After exclusion of the patients with atrial fibrillation, peak HR and MDP increased from 157+/-24beats/min and 22350+/-8220mmHg beat to 165+/-19beats/min and 26290+/-5770mmHg beat respectively(P<0.05). 3) Diffusion capacity and diffusing capacity/alveolar volume at rest decreased from 95+/-25% and 112+/-24% to 87+/-22% and 100+/-18% respectively(p<0.001). 4) FVC, FEV1, FEV1/FVC, FEF25~75% and maximum voluntary ventilation increased from 77+/-12%, 79+/-16%, 104+/-10%, 69+/-25%, and 68+/-14%, to 80+/-11%, 84+/-14%. 106+/-9%, 78+/-25%, and 74+/-12%, respectively(P<0.05). But total lung capacity, residual volume and functional residual capacity did not change significantly. 5) Maximum oxygen consumption, anaerobic threshold, oxygen pulse and maximum work load during exercise increased form 53+/-14%, 34+/-8%, 6.2+/-2.1ml/min and 48+/-18 watts to 61+/-13%, 39+/-7%, 7.3+/-2.0ml/min and 58+/-20 watts respectively(P<0.0005). We conclude that oxygen transport and exercise capacity improve within 10days after PMV and the improvement results from not only hemodynamic improvement but also improvement of static pulmonary function.
Anaerobic Threshold ; Atrial Fibrillation ; Balloon Valvuloplasty* ; Diffusion ; Exercise Test ; Functional Residual Capacity ; Heart ; Hemodynamics ; Humans ; Mitral Valve ; Mitral Valve Stenosis ; Oxygen Consumption* ; Oxygen* ; Residual Volume ; Respiratory Function Tests ; Total Lung Capacity ; Ventilation

OBJECTIVE: To measure and compare the quantitative parameters of the lungs and airways in Korean never-smokers and current or former smokers (“ever-smokers”). MATERIALS AND METHODS: Never-smokers (n = 119) and ever-smokers (n = 45) who had normal spirometry and visually normal chest computed tomography (CT) results were retrospectively enrolled in this study. For quantitative CT analyses, the low attenuation area (LAA) of LAA(I-950), LAA(E-856), CT attenuation value at the 15th percentile, mean lung attenuation (MLA), bronchial wall thickness of inner perimeter of a 10 mm diameter airway (Pi10), total lung capacity (TLC(CT)), and functional residual capacity (FRC(CT)) were calculated based on inspiratory and expiratory CT images. To compare the results between groups according to age, sex, and smoking history, independent t test, one way ANOVA, correlation test, and simple and multiple regression analyses were performed. RESULTS: The values of attenuation parameters and volume on inspiratory and expiratory quantitative computed tomography (QCT) were significantly different between males and females (p < 0.001). The MLA and the 15th percentile value on inspiratory QCT were significantly lower in the ever-smoker group than in the never-smoker group (p < 0.05). On expiratory QCT, all lung attenuation parameters were significantly different according to the age range (p < 0.05). Pi10 in ever-smokers was significantly correlated with forced expiratory volume in 1 second/forced vital capacity (r = −0.455, p = 0.003). In simple and multivariate regression analyses, TLC(CT), FRC(CT), and age showed significant associations with lung attenuation (p < 0.05), and only TLC(CT) was significantly associated with inspiratory Pi10. CONCLUSION: In Korean subjects with normal spirometry and visually normal chest CT, there may be significant differences in QCT parameters according to sex, age, and smoking history.
Female ; Forced Expiratory Volume ; Functional Residual Capacity ; Humans ; Lung* ; Male ; Reference Values ; Respiratory Function Tests ; Retrospective Studies ; Smoke ; Smoking ; Spirometry ; Thorax ; Tomography, X-Ray Computed ; Total Lung Capacity ; Vital Capacity

Small and large airways functions were studied in patients with hypertensive heart disease in slightly ro moderately compromised state functionally. In this study, the forced vital capacity and various flow paramaeters reflecting expiratory flow rate were determined from simultaneously recorded forced expiratory volume and maximal expiretory flow volume curves in 86 cases. The closing volume was measured by a single breath nitrogen mrthod in 57 cases and airway resistance with its related parameters by a body plethysmograph in 11 cases. These results were compared with those obtained from the same numbers of healthy controls matched for sex, age and height. In the patient group, the forced vital capadity and all the observed values of flow parameters, execpt for the ratio of the first second vital capacity to the forced vital capacity, were significantly reduced than those in the controls. When the remainder of flow parameters was volume-adjusted to the forced vital capacity, however, the mean of the peak expiratory flow rate and the maximal expiratory flow rate at the 75 percent of the vital capacity were not significantly different from that of controls. In contrast, the volume-adjusted values of maximal expiratory flow were remained significantly smaller than those in the controls. The closing volume and its ratio to the vital capacity were significantly larger in the patient group. Airway resistance and its related parameters revealed no significant differences between two groups. These findings suggest that the patients with hypertensive heart disease in a mild to moderate failure are associated with restrictive ventilatory impairment and a small airways obstruction, but with little or no large airway dysfunction.
Airway Resistance ; Closing Volume ; Forced Expiratory Volume ; Heart Diseases* ; Heart* ; Humans ; Maximal Expiratory Flow Rate ; Nitrogen ; Peak Expiratory Flow Rate ; Vital Capacity

PURPOSE: We usually measure the changes of peak expiratory flow rate (PEFR) or forced expiratory volume in one second (FEV1) to check the bronchial response after inhalation of bronchodilator. Airway resistance determined by interrupter technique (Rint) is simple and easily applicable even to the infant. A comparison among PEFR, FEV1 and Rint was done to find out the feasibility of using Rint instead of PEFR or FEV1 in checking the bronchial response after inhalation of bronchodilator. METHODS: We checked PEFR, FEV1, Rint, and oxygen saturation with twenty eight asthmatic children, over 7 years old, visited emergency or out patient department with acute asthmatic attack. The same parameters were checked in 5, 10, 20 minutes after inhalation of bronchodilator. Comparison and relationship of measures as well as changes of measures after inhalation of bronchodilator among them were analyzed to confirm if Rint can replace PEFR or FEV1 in checking bronchial response after inhalation of bronchodilator. RESULTS: PEFR, FEV1 and O2 saturation increased as time goes on but airway resistance decreased. The relationship among the changes of parameters of PEFR, FEV1 and Rint checked in 5, 10 and 20 minutes after inhalation of bronchodilator showed close correlation with was statistically significant. But, the measures checked in 20 minutes after inhalation statistically insignificant. CONCLUSION: Rint can be used instead of PEFR and FEV1 in checking the bronchial response after inhalation of bronchodilator.
Airway Resistance* ; Child ; Emergencies ; Forced Expiratory Volume* ; Humans ; Infant ; Inhalation ; Oxygen ; Peak Expiratory Flow Rate* ; Respiratory Function Tests

PURPOSE: Epidemiological data indicate that obesity is a risk factor in asthma, however effects related to obesity and adipokines on airway inflammation and bronchial hyper-responsiveness (BHR) have not yet been demonstrated in the human airway. The aim of this study was to investigate the relationship between serum adipokine levels and BHR to mannitol in asthmatic children. METHODS: Serum adipokine levels were measured and pulmonary function tests were perfomed: baseline, postbronchodilator inhalation, methacholine inhalation, and mannitol inhalation. The response to mannitol was expressed as the dose causing a 15% decrease in forced expiratory volume in one second (FEV1) (PD15), and as the response-dose ratio (RDR) (% fall in FEV1/cumulative dose). RESULTS: Sixty-nine prepubertal children between the ages of 6 and 10 years were participated in the study. They comprised asthmatic children (n=40) and healthy (n=29). Twenty-two subjects (55.5%) with asthma had a positive mannitol bronchial provocation test (BPT) result. The body mass index (BMI) was higher in those asthmatics with positive mannitol BPTs than in asthmatics with negative mannitol BPTs and in the control group (19.30 kg/m2 vs. 17.60 kg/m2 vs. 17.93 kg/m2, P=0.035, P=0.046). Serum leptin levels were also significantly higher in asthmatics with positive mannitol BPTs than in asthmatics with negative mannitol BPTs and in the control group (10.58 ng/mL vs. 5.49 ng/mL vs. 6.75 ng/mL, P=0.002, P=0.016). Leptin values were significantly associated with a PD15 (r=-0.498, P=0.022) and RDR to mannitol (r=0.346, P=0.033) in asthmatic children after adjustment for BMI. CONCLUSION: Serum leptin levels were significantly associated with BHR to mannitol in asthmatic children.
Adipokines ; Asthma ; Body Mass Index ; Bronchial Provocation Tests ; Child* ; Forced Expiratory Volume ; Humans ; Inflammation ; Inhalation ; Leptin* ; Mannitol* ; Methacholine Chloride ; Obesity ; Respiratory Function Tests ; Risk Factors

Since pulmonary function testing was first described by Hutchinson in 1846, this technic has been developed by many physiologists and applied to clinical fields for eviluation of cardiopulmonary status in order to improve diagnosis and treatment of cardiopulmonary diseases. The normal values of the lung volumes and capacities, maximal midexpiratory flow, maximal breathing capacity and forced expiratory volume and time in 120 (male-60, female-60) normal Korean adults by using a Gaensler-Collins bronchospirometer are presented. The results were as follows: 1. The vital capacity of the normal Korean adult was 4191+/-451ml. for males and 2685+/-375 ml. for females. 2. The ratio of inspiratory capacity to vital capacity for males was 66+/- 9% and for females 70+/- 7%, but that of expiratory reserve volume to vital capacity for males was 34+/-9% and for females was 30+/-7%. The ratio of inspiratory capacity to vital capacity of normal Korean adults is slightly lower than that of whites, while that of expiratory reserve volume to vital capacity of normal Korean adults is slightly higher than that of whites. 3. The maximal breathing capacity of males was 95+/- 171/min. and that of females 61+/-141/min. 4. The maxima mid-expiratory flow for males was 266+/- 711/min. and for females 176+/- 421 /min. The maximal mid-expiratory time of males was 0. 497+/- 0.145 second and that of females 0. 479+/- 0. 128 second.
Adult* ; Diagnosis ; Expiratory Reserve Volume ; Female ; Forced Expiratory Volume ; Humans ; Inspiratory Capacity ; Lung ; Male ; Maximal Voluntary Ventilation ; Reference Values ; Respiratory Function Tests ; Vital Capacity