OBJECTIVETo develop a nebulizer controller which can be used to control the ultrasonic nebulizer and spray atomizer which can optimize the working of the nebulizer in pulse way, in a purpose to save the medication and minimize the impact on the environment.

METHODSDesign the controller by using SCM to adjust the frequency and duty factor of the nebulizer pulse. The output pulse of the controller can drive a relay or a electromagnetic valve to control the pulse work of the two kind of nebulizer.

RESULTSThe controller can work in a pulse way, and patients can inhale in pace with the nebulizer.

CONCLUSIONThe controller can save the medication by 50%, and reduce the impact on the environment by 50%.

Administration, Inhalation ; Adolescent ; Asthma ; therapy ; Child ; Child, Preschool ; Female ; Humans ; Inhalation Spacers ; Male ; Metered Dose Inhalers ; Nebulizers and Vaporizers ; standards ; Technology Assessment, Biomedical ; Treatment Outcome

BACKGROUND: The proper use of inhaler drugs is critical in the management of chronic asthma. In this study, we investigated the inhalation performance of asthmatic patients and effectiveness of the regular education of inhalation technique. METHODS: The 145 asthmatic patients who had been educated the inhaler technique for more than 3 times were enrolled. The inhalation performance of each patient was scored using a checklist form (9 items for metered dose inhaler [MDI], 4 items for dry powder inhaler [DPI]) whenever they visited the clinic. Clinical characteristics affecting inhalation performance were evaluated in the groups using each type of inhaler. RESULT: In MDI, the mean initial performance score was significantly low when the patients were female sex, aged patients (>65 years old), or had lower educational backgrounds. Some items of the checklist, which include tilting head back, placing the mouthpiece with a distance from lips, continuing deep inspiration, and holding breath after inhalation for 10 seconds, were improperly performed in about 25% of the MDI users. No significant change was observed in the final performance scores assessed after intensive repeated education for proper inhalation technique of MDI. In DPI, the mean initial performance score was significantly low in the patients with old age (>65 years old) or lower educational backgrounds. The final performance scores were significantly improved after the repeated education for proper use of DPI inhalation in contrast to MDI. CONCLUSION: For the effective management of asthma, it may be important to choose proper type of inhaler with consideration of individual characteristics of the patients. The evaluation of inhalation performance and regular education of inhalation technique could be useful to maintain and improve the effective use of inhaler, especially in DPI.
Asthma* ; Checklist ; Dry Powder Inhalers ; Education ; Female ; Head ; Humans ; Inhalation* ; Lip ; Metered Dose Inhalers ; Nebulizers and Vaporizers

PURPOSE: Asthma control in older asthmatics is often less effective, which may be attributed to small airway dysfunction and poor inhalation technique. We compared the efficacy of 2 inhalers (fluticasone propionate/formoterol treatment using a pressurized metered-dose inhaler [p-MDI group] vs. fluticasone propionate/salmeterol treatment using a dry powder inhaler [DPI group]) in older asthmatics.METHODS: We conducted a 12-week, randomized, open-label, parallel-designed trial in older patients (over 55 years old) with moderate-to-severe asthma, and compared the efficacy and safety for asthma control between the 2 groups. Subgroup analyses on disease duration and air trapping were performed. Clinical parameters, including changes in lung function parameters, inhaler technique and adherence, were compared with monitoring adverse reactions between the 2 groups.RESULTS: A total of 68 patients underwent randomization, and 63 (30 in the p-MDI group and 33 in the DPI group) completed this study. The p-MDI group was non-inferior to the DPI group with regard to the rate of well-controlled asthma (53.3% vs. 45.5%, P < 0.001; a predefined non-inferiority limit of 17%). In subgroup analyses, the proportion of patients who did not reach well-controlled asthma in the p-MDI group was non-inferior to that in the DPI group; the difference was 12.7% among those with a longer disease duration (≥ 15 years) and 17.5% among those with higher air-trapping (RV/TLC ≥ 45%), respectively (a predefined non-inferiority limit of 17%, P < 0.001). No significant differences were observed in lung function parameters, inhalation techniques, adherence and adverse reactions between the 2 groups.CONCLUSION: These results suggest that the p-MDI group may be comparable to the DPI group in the management of older asthmatics in aspects of efficacy and safety.
Airway Management ; Asthma ; Dry Powder Inhalers ; Fluticasone ; Humans ; Inhalation ; Lung ; Medication Adherence ; Metered Dose Inhalers ; Nebulizers and Vaporizers ; Random Allocation

BACKGROUND: Bronchoconstriction associated with aerosolized agents delivered by a metered dose inhaler (MDI) is relatively uncommon, but has been of particular interest. MATERIAL AND METHOD: In this study, we investigated to what extent the inert ingredients and propellants (freons) influence pulmonary function in 25 asthmatic patients. Forced expiratory volume in one second(FEV,) was measured by spirometry, Autospira HI 498(Chest, Japan) before and 1, 3, 5 and 10 minutes after the inhalation of saline control and MDI-placebo containing freons and inert ingredients. RESULT: Twenty four % (6/25) of asthmatics experienced a decrease in FEV20 by 10% or greater when compared to saline control. Number of positive cases in steroid dependent asthmatics is significantly higher compared to non-steroid dependent asthmatics. (p<0.05) Bronchoconstriction associated with the use of MDI-placebo appeared within 3 to 5 minutes and resolved spontaneouly at 10 minutes after the inhalation. CONCLUSION: The bronchoconstrictive response induced by MDI might be caused by the pro-pellants and/or the other inert ingredients contained in MDIs.
Bronchoconstriction ; Chlorofluorocarbons ; Forced Expiratory Volume ; Humans ; Inhalation ; Metered Dose Inhalers ; Spirometry

BACKGROUND: Medications for asthma can be administered either by inhaled or systemic routes. The major advantages of delivering drugs directly into the lungs via inhalation are that higher concentrations can be delivered more effectively to the airways and that systemic side effects are avoided or minimized. Inhaled medications, or aerosols, are available in a variety of devices that differ in required technique and quantity of drugs delivered to the lung. OBJECTIVE: The purpose of this study was to determine the effects of patient education on correct use of metered dose inhaler in patients with asthma. METHODS: Twenty patients with asthma were instructed three times on proper inhaler usage by a physician at two-week intervals. Practical performance and theoretical knowledge were assessed (ten-item assessment). Scoring was done by one physician using a score of 1-3 for each item. RESULTS: The practical performance and theoretical knowledge scores were higher in patients after being instructed three times compared with those who were instructed once (26.2+/-2.2 vs 18.1+/-3.6, p< 0.01). The scores were higher in patients with higher education level com- pared with those with lower education level after three lessons (27.3+/-1.94 vs 24.3+/-1.80, p< 0.05). The most common errors included inadequate actuation time and breath holding, and insufficient activations. CONCLUSION: These findings suggest that patients with asthma be instructed in inhaler use and that their technique be checked regularly and repeatedly depending on education level.
Aerosols ; Asthma* ; Breath Holding ; Education ; Humans ; Inhalation ; Lung ; Metered Dose Inhalers* ; Nebulizers and Vaporizers ; Patient Education as Topic*

OBJECTIVEDry powder inhalers (DPIs) are increasingly being used to deliver drugs for the treatment of asthma. It is known that DPIs require a crucial minimal inspiratory flow. Previous studies have demonstrated that the peak inspiratory flow (PIF, L/min) through a DPI is dependent on the type of device, the age of the patient, and the level of bronchial obstruction. However, the peak inspiratory flow of healthy preschool children in China remains scant in the literature. The present study aimed to analyze the ability of inspiring flow through the resistance state of ordinary use inhaler in Shenzhen healthy preschool children by measuring the peak inspiratory flow through the different analogue dry powder inhalers and go further into the relationship between it and the age, weight and forced expiratory volume of the children.

METHODA survey in 370 healthy preschool children aged 3 to 6 years (75 children aged 3 years, 104 children aged 4 years, 100 children aged 5 years and 91 children aged 6 years) was carried out in Shenzhen. Peak inspiratory flow (PIF) was measured without and with resistances, which mimicked the internal resistances of several inhalers, Diskus, Turbuhaler, Autohaler, Surehaler by PIF meter (In-check DIAL) and then data PIF-N, PIF-D, PIF-T, PIF-A and PIF-S were obtained. Peak expiratory flow (PEF) was measured by PEF meter (MicroPeak, USA). These two measurements were made in a well-controlled setting, and at least three attempts were recorded to establish maximum achievement. Six spirometry parameters forced vital capacity (FVC), forced expiratory volume at 0.5 second (FEV 0.5), forced expiratory volume at 0.75 second (FEV 0.75), forced expiratory volume at one second (FEV1), maximal mid expiratory flow rate (FEF 25 - 75, PEF were measured by using COSMED spirometry of Italy and the FVC measurements should be around the quality control for spirometry in preschool children which we suggested and published in 2005. All data were expressed as mean +/- SD and analyzed with the statistical software SPSS 12.0 for Windows. Pearson's test was used for calculation of the significances of the correlation coefficients. Variance analysis was used for analysing the variability of inspiratory flows through the inhalers.

RESULTSResults were obtained from 295 children aged 3 - 6 years who successfully finished the tests. The PIF-N, PIF-D, PIF-T, PIF-A and PIF-S were significantly different among the groups aged 3 yrs, 4 yrs, 5 yrs and 6 yrs. The peak inspiratory flow significantly increased with age. The PIF-N, PIF-D, PIF-T, PIF-A and PIF-S in the children of 110 cm height and above were significantly higher than those in the children below 110 cm height, so were the parameters between the children of 120 cm height and above and the children below 120 cm. PIF correlated significantly with age, height and weight and the Pearson coefficient was 0.3 - 0.5. The PIFs in different inhalers varied because of the different inner resistances. The minimum and optimum PIFs in resistances of Diskus, Autohaler and Surehaler could be achieved in almost all subjects, but those in resistances of Turbuhaler could be achieved in only 87.5% subjects, most of whom aged 3 yrs or below 100 cm height. There were good correlations between the PIFs in different resistances and main parameters of ventilation function (FVC, FEV 0.5, FEV 0.75, FEV1, FEF 25 - 75, PEF), PEF was the best among them (Pearson correlative coefficient was 0.6).

CONCLUSIONThe inspiratory ability of the children can be predicted and assessed by using routine measurement of lung function of normal pre-school children. As to the pre-school children of varying ages, the variety of inspiratory ability should be considered completely in the selection of inhaler used during the treatment. The best inhaler suitable for them should be selected properly in order to obtain the best efficacy of treatment individually.

BACKGROUND: Proper education regarding inhaler usage and optimal management of chronic obstructive pulmonary disease (COPD) is essential for effectively treating patients with COPD. This study was conducted to evaluate the effects of a comprehensive education program including inhaler training and COPD management. METHODS: We enlisted 127 patients with COPD on an outpatient basis at 43 private clinics in Korea. The patients were educated on inhaler usage and disease management for three visits across 2 weeks. Physicians and patients were administered a COPD assessment test (CAT) and questionnaires about the correct usage of inhalers and management of COPD before commencement of this program and after their third visit. RESULTS: The outcomes of 127 COPD patients were analyzed. CAT scores (19.6±12.5 vs. 15.1±12.3) improved significantly after this program (p<0.05). Patients with improved CAT scores of 4 points or more had a better understanding of COPD management and the correct technique for using inhalers than those who did not have improved CAT scores (p<0.05). CONCLUSION: A comprehensive education program including inhaler training and COPD management at a primary care setting improved CAT scores and led to patients' better understanding of COPD management.
Animals ; Cats ; Disease Management* ; Dry Powder Inhalers ; Education* ; Humans ; Korea ; Metered Dose Inhalers ; Nebulizers and Vaporizers* ; Outpatients ; Primary Health Care ; Pulmonary Disease, Chronic Obstructive*

PURPOSE: Asthma inhalation therapy is important for the treatment of childhood asthma. Therefore, it is necessary to educate patients on the correct inhalation techniques. The purpose of this study was to determine the effectiveness and necessity of educating patients on the correct inhalation techniques. METHODS: A total of 86 patients with bronchial asthma and who were over 7 years old were enrolled and educated on handling inhaler devices for 2 years. The inhaler devices used were the diskus (n=27), turbuhaler (n=12) and metered dose inhaler with a spacer (n=47). Trained pharmacists provided the education. Four steps (breathing out prior to inhalation, inhalation, holding the breath, exhaling slowly) that were critical for handling each device were evaluated and each step was scored as good, fair or poor. We evaluated the symptom score (daytime cough, nighttime cough, sleep disturbance and limitation of activity) and lung function before treatment and 4 weeks later. RESULTS: Over 90.0% of the diskus users performed fair to good in each step. The symptom score and lung function at 4 weeks later after education were significantly improved (P=0.000). The turbuhaler users all performed fair to good on each step. The symptom score was significantly improved (P<0.005), but the lung function was not difference. Over 95% of the users of a metered dose inhaler with a spacer performed moderate to good on each step. The symptom score and lung function were significantly improved (P<0.05). CONCLUSION: The structured, detailed education on inhaler devices by trained specialists was very important for performing correct inhalation therapy to control asthma, and repeated education might be also necessary.
Asthma ; Cough ; Exhalation ; Handling (Psychology) ; Humans ; Inhalation ; Lung ; Metered Dose Inhalers ; Nebulizers and Vaporizers ; Pharmacists ; Respiratory Therapy ; Specialization

Aerosol Propellants ; Animals ; Delayed-Action Preparations ; Humans ; Hydrocarbons, Fluorinated ; administration & dosage ; metabolism ; Lung ; metabolism ; Metered Dose Inhalers