Effect of a volumatic spacer and mouth rinsing on systemic absorption of inhaled corticosteroids from a metered dose inhaler and dry powder inhaler.

BACKGROUND: High doses of inhaled corticosteroids are absorbed systemically and may cause long term side effects. As rinsing the mouth out after use and inhaling through a spacing device may reduce systemic absorption this has been further investigated. METHODS: Three crossover studies were carried out to assess the effect of budesonide given by dry powder inhaler (Turbuhaler) with and without mouth rinsing and beclomethasone dipropionate given by metered dose inhaler with or without a spacing device (Volumatic) on serum cortisol concentrations and urinary cortisol excretion in patients with asthma taking an inhaled corticosteroid. Each treatment period was two weeks with in a two week washout period. Serum cortisol concentrations at 0800 hours on day 14 and the 24 hour urinary excretion of cortisol were measured. In study 1 24 patients taking beclomethasone dipropionate 500 micrograms twice a day inhaled with (n = 10) or without (n = 14) a Volumatic spacing device were switched to a budesonide dry powder inhaler, 600 micrograms to be taken twice a day without mouth rinsing. In study 2 10 patients took budesonide 800 micrograms twice a day with and without mouth rinsing and without swallowing the rinsing water. In study 3 17 patients took budesonide 800 micrograms twice daily with mouth rinsing and beclomethasone dipropionate 500 micrograms twice daily with the spacing device and mouth rinsing. RESULTS: In study 1 no difference was seen between budesonide without mouth rinsing and beclomethasone dipropionate without a spacer: beclomethasone with spacer caused less suppression of cortisol (mean (SD) serum cortisol concentration: beclomethasone and spacer 487(148), budesonide 368(145) nmol/l). In study 2 mouth rinsing caused less suppression of morning serum cortisol concentrations (rinsing 440(63), no rinsing 375(56) nmol/1). In study 3 there was no difference in serum or urinary cortisol concentrations between twice daily beclomethasone dipropionate 500 micrograms inhaled by Volumatic spacer or budesonide by Turbuhaler 800 micrograms twice daily, both with mouth rinsing. Individual serum cortisol values were within the normal range in all patients except one in study 1. CONCLUSION: Systemic absorption of a corticosteroid inhaled from a metered dose inhaler is reduced by using a spacing device and that from a dry powder inhaler by mouth rinsing.     

Comparison of inhaled beclomethasone dipropionate 1000 micrograms twice daily and oral prednisone 10 mg once daily in asthmatic patients.

BACKGROUND--Glucocorticosteroids are widely used as drugs of first choice in the treatment of moderate to severe asthma. The effects of inhaled steroids in high doses have been compared with oral prednisone in asthmatic patients in a double blind crossover study. METHODS--The trial consisted of a two week run in period followed by two four week treatment periods separated by a four week washout. During the treatment period patients took either 1000 micrograms beclomethasone dipropionate twice daily and placebo tablets once daily, or 10 mg prednisone daily in one morning dose and placebo inhaler twice daily. The effects of treatment on the provocative dose of histamine producing a 20% fall in FEV1 (PC20 histamine), peak flow measurements at home, and spirometric measurements in the clinic, as well as on the basal and stimulated plasma cortisol levels were measured. RESULTS--Seventeen patients with asthma completed the study. After four weeks of treatment beclomethasone dipropionate showed a significantly better effect on morning peak expiratory flow rate than prednisone. There was a trend to a greater improvement in the PC20 histamine in patients receiving beclomethasone dipropionate than in those receiving prednisone. There were no significant differences in spirometric values, symptom scores, or basal and stimulated cortisol levels between the treatments. The within treatment analysis showed a significant effect of prednisone on stimulated cortisol levels but not of beclomethasone dipropionate. CONCLUSIONS--Beclomethasone dipropionate 1000 micrograms twice daily has a slightly greater therapeutic effect in this population of asthmatic patients than 10 mg of prednisone once a day with less effect on adrenocortical function.     

Effects of high doses of inhaled corticosteroids on adrenal function in children with severe persistent asthma.

BACKGROUND--Childhood asthma generally responds well to inhaled corticosteroids within the dosage range recommended by the manufacturers, but it is sometimes necessary to use higher doses--that is, above 400 micrograms/day--a practice which has become more widespread recently. Whereas the lack of adrenal suppression in children given inhaled corticosteroids in normal doses is well documented, little is known about the effects of higher doses. METHODS--The effects on adrenal function of high dose (above 400 micrograms/day) inhaled corticosteroids were evaluated by measuring cortisol concentration in the morning and performing a short tetracosactrin test in 49 children taking budesonide (mean age 9.2 years (range 4 to 16 years) and 28 children taking beclomethasone dipropionate (10.2 years (5 to 13 years)). Twenty three non-asthmatic children (8.9 years (4.9 to 13 years)) who were under investigation for short stature served as controls for the study. RESULTS--Compared with controls mean basal cortisol concentration was lower in children taking budesonide and beclomethasone dipropionate (control 401 (26.8) nmol/l, budesonide 284 (22) nmol/l, beclomethasone dipropionate 279 (23.2) nmol/l). Sixteen of the 49 children taking budesonide had subnormal basal cortisol concentrations compared with seven of the 28 taking beclomethasone dipropionate. Mean stimulated cortisol concentrations were lower in children taking inhaled corticosteroids than in controls, with no difference between those taking budesonide or beclomethasone dipropionate. CONCLUSIONS--Adrenal suppression occurs in some children who are given inhaled corticosteroids in doses greater than 400 micrograms/day. It may therefore be advisable to try alternative treatments before such doses are used.     

Adrenocortical activity with repeated twice daily dosing of fluticasone propionate and budesonide given via a large volume spacer to asthmatic school children

BACKGROUND: In a previous single dosing study in asthmatic school children fluticasone propionate produced significantly greater suppression of overnight urinary cortisol excretion than budesonide at high doses of 800 micrograms/day or greater. The aim of this study was to assess whether conventional lower doses of both drugs cause adrenal suppression when given at steady state twice daily by large volume spacer on a microgram equivalent basis in asthmatic school children. METHODS: Eight school children of mean age 12.1 years with stable asthma of mild to moderate severity (forced expiratory volume in one second (FEV1) 78.6% predicted, mid forced expiratory flow rate (FEF25- 75) 72.5% predicted), on 400 micrograms/day or less of inhaled corticosteroid, were studied in a single blind (investigator blind), placebo controlled, crossover design comparing inhaled budesonide and fluticasone propionate 100 micrograms bid and 200 micrograms bid. Each dose was given at 08.00 hours and 20.00 hours for four days by metered dose inhaler via their respective large volume spacers with mouth rinsing. Measurements were made of overnight urinary cortisol and creatinine excretion after the eighth dose. RESULTS: Neither drug produced significant suppression of overnight urinary cortisol or cortisol/creatinine excretion compared with pooled placebo and there were no differences between the drugs. Only one subject with each drug at 200 micrograms twice daily had abnormally low urinary cortisol excretion of < 10 nmol/12 hours. Ratios for the fold difference between active treatment versus placebo for urinary cortisol excretion were (as means and 95% confidence intervals for difference): budesonide 100 micrograms b.i.d 1.03 (95% CI 0.46 to 1.61), budesonide 200 micrograms b.i.d 1.04 (95% CI 0.62 to 1.46); fluticasone 100 micrograms b.i.d 1.11 (0.45 to 1.77), fluticasone 200 micrograms b.i.d 1.12 (0.78 to 1.47). Likewise, there were no significant differences in overnight urinary cortisol/creatinine excretion. CONCLUSIONS: With repeated twice daily administration at steady state across a dose range of 200-400 micrograms/day no evidence of significant adrenal suppression was found using the sensitive marker of overnight urinary cortisol excretion for either fluticasone propionate or budesonide given via a large volume spacer. These results emphasise the good safety profile in children of these inhaled steroids at conventional dose levels, which have proven antiasthmatic efficacy.


     

Bone turnover during high dose inhaled corticosteroid treatment.

This study was performed to determine the effects of high doses of two inhaled corticosteroids, beclomethasone dipropionate and budesonide, on biochemical indices of bone turnover (urinary hydroxyproline:creatine and calcium:creatinine ratios, plasma alkaline phosphatase, and parathyroid hormone). Twelve healthy male doctors, aged 25-36 (mean 30) years, were studied. After a week's run in period eight subjects inhaled beclomethasone dipropionate 2000 micrograms/day and eight inhaled budesonide 1800 micrograms/day for 28 days; this was followed by a week without any treatment. During treatment with beclomethasone dipropionate there was a significant increase in the hydroxyproline:creatinine ratio (a 46% increase at 28 days), and a fall in serum alkaline phosphatase activity (a 7.4% fall at 28 days). There were no significant changes during budesonide treatment. Thus high dose inhaled beclomethasone dipropionate increased biochemical markers of bone resorption and reduced serum alkaline phosphatase, a marker of bone mineralisation. A prospective study in asthmatic patients is indicated to assess the long term effects of high dose inhaled corticosteroids on bone mass.     

Effects of high dose inhaled beclomethasone dipropionate, 750 micrograms and 1500 micrograms twice daily, and 40 mg per day oral prednisolone on lung function, symptoms, and bronchial hyperresponsiveness in patients with non-asthmatic chronic airflow obstruction.

BACKGROUND--The effect of treatment with inhaled corticosteroids in patients with non-asthmatic chronic airflow obstruction is still disputed. Whether any physiological improvements seen are accompanied by changes in bronchial responsiveness and symptoms and quality of life is also still unclear. METHODS--A sequential placebo controlled, blinded parallel group study investigating the effect of three weeks of treatment with inhaled beclomethasone dipropionate (BDP), 750 micrograms or 1500 micrograms twice daily, and oral prednisolone, 40 mg per day, was carried out in 105 patients with severe non-asthmatic chronic airflow obstruction (mean age 66 years, mean forced expiratory volume in one second (FEV1) 1.05 litres [40% predicted], geometric mean PD20 0.52 mumol). End points assessed were FEV1, forced vital capacity (FVC), and peak expiratory flow (PEF), bronchial responsiveness to inhaled histamine, and quality of life as measured by a formal quality of life questionnaire. RESULTS--Both doses of BDP produced equivalent, small, but significant improvements in FEV1 (mean 48 ml), FVC (mean 120 ml), and PEF (mean 12.4 l/min). The addition of oral prednisolone to the treatment regime in two thirds of the patients did not produce any further improvement in these parameters. Inhaled BDP produced a treatment response in individual patients (defined as an improvement in FEV1, FVC, or mean PEF of at least 20% compared with baseline values) more commonly than placebo (34% v 15%). The two doses of BDP were equally effective in this respect and again no further benefit of treatment with oral prednisolone was noted. Treatment with BDP for up to six weeks did not affect bronchial responsiveness to histamine. Small but significant improvements were seen in dyspnoea during daily activities, and the feeling of mastery over the disease. CONCLUSIONS--High dose inhaled BDP is an effective treatment for patients with chronic airflow obstruction not caused by asthma. Both objective and subjective measures show improvement. Unlike asthma, no improvement in bronchial responsiveness was detected after six weeks of treatment.     

Comparative adrenal suppression with inhaled budesonide and fluticasone propionate in adult asthmatic patients.

BACKGROUND: A study was performed to compare the adrenal suppression caused by inhaled fluticasone propionate and budesonide on a microgram equivalent basis, each given by metered dose inhaler to asthmatic patients. METHODS: Twelve asthmatic patients of mean age 29.9 years, with a forced expiratory volume in one second (FEV1) 92.9% predicted and forced expiratory flow 25-75% (FEF25-75) 69.5% predicted, on less than or equal to 400 micrograms/day inhaled corticosteroid, were studied in a double blind placebo controlled crossover design comparing single doses of inhaled budesonide 400, 1000, 1600, 2000 micrograms and fluticasone propionate 500, 1000, 1500, 2000 micrograms. Doses were administered at 22.00 hours by metered dose inhaler with mouth rinsing and measurements were made in the laboratory 10 hours later. RESULTS: Serum cortisol levels compared with placebo (mean 325.2 nmol/l) were suppressed by fluticasone at doses of 1500 micrograms (211.6 nmol/l) and 2000 micrograms (112.3 nmol/l) and by budesonide at 2000 micrograms (243.4 nmol/l). Fluticasone propionate 2000 micrograms produced lower absolute serum cortisol levels than budesonide 2000 micrograms (95% CI for difference 42.9 to 219.2). The dose ratio (geometric mean) for the relative potency was 2.89 fold (95% CI 1.19 to 7.07). In terms of percentage suppression versus placebo, fluticasone propionate also produced greater effects (means and 95% CI for difference): budesonide 1600 micrograms (16.0) versus fluticasone propionate 1500 micrograms (40.9) (95% CI -0.6 to 50.6), budesonide 2000 micrograms (26.0) versus fluticasone 2000 micrograms (65.2) (95% CI 10.5 to 67.8). Individual serum cortisol levels at the two highest doses showed 15 of 24 patients below the normal limit of the reference range (150 nmol/l) for fluticasone and five of 24 for budesonide. Fluticasone propionate also caused greater ACTH suppression than budesonide (as % versus placebo): budesonide 1600 micrograms (12.0) versus fluticasone propionate 1500 micrograms (31.9) (95% CI 7.6 to 32.1), budesonide 2000 micrograms (13.5) versus fluticasone propionate 2000 micrograms (44.4) (95% CI 13.2 to 48.7). For overnight 10 hour urinary cortisol (nmol/10 hours) there was a difference between the lowest doses of the two drugs: budesonide 400 micrograms (37.2) versus fluticasone propionate 500 micrograms (19.9) (95% CI 6.9 to 27.8). CONCLUSIONS: Like budesonide the systemic bioactivity of fluticasone propionate is mainly due to lung vascular absorption. Fluticasone propionate exhibited at least twofold greater adrenal suppression than budesonide on a microgram equivalent basis in asthmatic patients.     

Inhaled beclomethasone decreases serum osteocalcin in postmenopausal asthmatic women.

There are very few data as yet to quantify the effect of inhaled corticosteroids on bone metabolism, although the use of these drugs as a first-line treatment in bronchial asthma has widened. We determined the effect of three dose levels (200, 1000, 2000 micrograms/day, three weeks each) of inhaled beclomethasone on specific characteristics of bone metabolism in nine postmenopausal women with new asthma without any previous corticosteroid therapy. Significant decrease was noted in the mean serum morning osteocalcin concentration between the baseline and after nine weeks of beclomethasone (from 4.4 to 3.1 micrograms/l, p = 0.005). Significant increase in serum total and ionised calcium was found, although the parameters measuring bone resorption itself did not change. The results show that especially high-dose inhaled beclomethasone decreases serum osteocalcin in post-menopausal asthmatic women. Further studies are needed to assess the effects of inhaled beclomethasone, both on the ability of the osteoblasts to form bone matrix and on the density of bone during a longer treatment period on inhaled corticosteroids.     

One year prospective open study of the effect of high dose inhaled steroids, fluticasone propionate, and budesonide on bone markers and bone mineral density

BACKGROUND: Inhaled corticosteroids are recognised as the most effective agents in the treatment of asthma. However, concerns have been expressed about the effects of high doses of inhaled corticosteroids on safety in relation to bone resorption and formation. This study measures the effects of two inhaled corticosteroids on bone markers and bone mineral density (BMD) over one year. METHODS: A one year randomised, prospective, open parallel study comparing inhaled fluticasone propionate (FP), 500 micrograms twice daily in 30 patients, and budesonide (BUD), 800 micrograms twice daily in 29 patients, delivered by metered dose inhaler and large volume spacers was performed in adults with moderate to severe asthma. Biochemical markers of bone turnover (osteocalcin, procollagen type 1 C-terminal propeptide (PICP), immunoreactive free deoxypyridinoline (iFDpd), N-terminal crosslinked telopeptides of type I collagen (NTx)), BMD at the spine and femoral neck, and serum cortisol concentrations were measured at baseline and 12 months later. RESULTS: There were no significant differences between the inhaled steroids on bone markers of bone resorption and formation or bone mineral density. Bone mineral density of the spine increased slightly in both groups over the 12 month period. Serum osteocalcin levels increased from baseline in both treatment groups (FP 16.9%, p = 0.02; BUD 14.3%, p = 0.04). PICP did not differ significantly from baseline. Both markers of bone resorption (iFDpd, NTx) varied considerably with no significant changes after one year. There was a significant correlation in percentage change from baseline between BMD of the spine and osteocalcin at 12 months (r = 0.4, p = 0.017). Mean serum cortisol levels remained within the normal range in both groups following treatment. CONCLUSION: There was no evidence of a decrease in BMD during 12 months of treatment with high doses of either FP or BUD. The change in spine BMD correlated with the increase in osteocalcin. Studies extending over several years are needed to establish whether these findings persist.     

Systemic effects of high dose inhaled steroids: comparison of beclomethasone dipropionate and budesonide in healthy subjects.

ACKGROUND--Systemic absorption of inhaled corticosteroids may adversely influence the function of the hypothalamo-pituitary-adrenal axis, bone metabolism, and circulating leucocytes. These changes can be used to assess the safety of different types and modes of administration of these drugs. METHODS--The study was a randomised, double dummy, crossover design with nine healthy adults. It compared the effects of beclomethasone dipropionate and budesonide (given by metered dose aerosols with and without their respective large volume spacers (Volumatic and Nebuhaler) attached) on serum cortisol, 24 hour urinary free cortisol, and plasma osteocalcin concentrations, and circulating neutrophils and lymphocytes. Subjects inhaled the drug (1 mg) and matching placebo at 0900 and 2200 hours on each of six study days. Blood samples were taken hourly for six hours after the morning dose and at the end of the study period. RESULTS--All results were within the reference ranges. Both drugs caused similar reductions in serum cortisol four to six hours after inhalation. These changes were not affected by the use of a large spacer and did not persist at 24 hours. Use of spacers tended to increase the haematological effects of the steroids. Beclomethasone dipropionate inhaled through a Volumatic provoked a rise in circulating neutrophils compared with placebo although lymphocyte numbers were unaffected. Budesonide did not influence neutrophil numbers but did reduce circulating lymphocytes, numbers of which were further reduced when the Nebuhaler was used. There were no significant changes in plasma osteocalcin concentration or 24 hour urinary free cortisol excretion with budesonide, with or without a spacer. Beclomethasone dipropionate inhaled without a spacer reduced urinary cortisol and plasma osteocalcin at 24 hours; however, use of the Volumatic protected against these effects. CONCLUSIONS--Attaching a Volumatic reduces the systemic effects of 2 mg aerosol beclomethasone dipropionate on the hypothalamo-pituitary-adrenal axis and circulating osteocalcin concentrations. This study did not establish whether the Nebuhaler reduces the systemic effects of budesonide. When large spacers are used, 2 mg per day of beclomethasone dipropionate and budesonide seem to be equivalent in terms of unwanted effects.     

Efficacy of low and high dose inhaled corticosteroid in smokers versus non-smokers with mild asthma

BACKGROUND: Cigarette smokers with asthma are insensitive to short term inhaled corticosteroid therapy, but efficacy when given for a longer duration at different doses is unknown. METHODS: Ninety five individuals with mild asthma were recruited to a multicentre, randomised, double blind, parallel group study comparing inhaled beclomethasone in doses of 400 microg or 2000 microg daily for 12 weeks in smokers and non-smokers. The primary end point was the change in morning peak expiratory flow (PEF). Secondary end points included evening PEF, use of reliever inhaler, number of asthma exacerbations, spirometric parameters, and asthma control score. RESULTS: After 12 weeks of inhaled beclomethasone there was a considerable difference between the morning PEF measurements of smokers and non-smokers with asthma (-18 (95% CI -35 to -1), adjusted p = 0.035). Among those receiving 400 microg daily there was a difference between the mean (95% CI) morning PEF (l/min) in smokers and non-smokers (-25 (95% CI -45 to -4), adjusted p = 0.019) and in the number of asthma exacerbations (6 v 1 in smokers and non-smokers, respectively, p = 0.007). These differences were reduced between smokers and non-smokers receiving 2000 microg inhaled beclomethasone daily. CONCLUSIONS: Compared with non-smokers, smokers with mild persistent asthma are insensitive to the therapeutic effect of low dose inhaled corticosteroid treatment administered for a 12 week period. The disparity of the response between smokers and non-smokers appears to be reduced with high dose inhaled corticosteroid. These findings have important implications for the management of individuals with mild asthma who smoke.     

Effect of four weeks'' high dose ipratropium bromide treatment on lung mucociliary clearance.

In a randomised, double blind crossover study the effect of high dose ipratropium bromide (200 micrograms three times daily given by metered dose inhaler for four weeks) on lung mucociliary clearance and on the wet weight and mean apparent viscosity of sputum was compared with that of placebo. Six smokers, six ex-smokers, and three non-smokers (12 men and three women, median age 60 years) were studied. Eight subjects had chronic obstructive lung disease (median FEV1 46% predicted) and seven had asthma (FEV1 70% predicted). Seven subjects produced sputum regularly, two of whom had asthma. Clearance of secretions was measured by an inhaled radioaerosol technique. The number of coughs and the wet weight, radioactive content, and mean apparent viscosity of sputum produced during the six hour observation period were recorded, as was the mean wet weight of sputum produced during the last two 24 hour periods ending each treatment. Comparison with placebo showed that treatment with high dose ipratropium bromide was associated with a significant increase in the penetration index of inhaled particles, but there was no significant change in alveolar deposition of particles or in tracheobronchial clearance, uncorrected or corrected for sputum expectorated. The wet weight of sputum produced, its radioactive content, and mean apparent viscosity were similar after treatment with ipratropium bromide and placebo. These results show that high dose inhaled treatment with the synthetic anticholinergic bronchodilator ipratropium bromide for four weeks is not associated with detectable modification of the clearance of secretions from the lungs, or of sputum volume or viscosity.     

Effect of eight months of inhaled beclomethasone dipropionate and budesonide on carbohydrate metabolism in adults with asthma.

BACKGROUND--The safety of high dose inhaled steroids has been a subject of debate. The efficacy and safety of beclomethasone dipropionate and budesonide inhalations were evaluated by measuring their effects on pulmonary function, on the hypothalamic-pituitary-adrenocortical axis, and on carbohydrate metabolism in adults with unstable asthma. METHODS--Fifteen adults with unstable asthma and 15 healthy controls were studied. Eight patients were treated with beclomethasone dipropionate in initially high (2 mg/day for five months) and subsequently lower (1 mg/day for three months) doses. Seven patients were treated with budesonide at doses of 1.6 mg/day for five months followed by 0.8 mg/day for three months. Blood glucose and serum insulin were measured in an oral glucose tolerance test and plasma cortisol in an adrenocorticotrophic hormone test. The antiasthmatic effect of treatment was evaluated by measuring peak morning expiratory flow rates and forced expiratory volume in one second (FEV1). RESULTS--The FEV1 increased significantly after one month of treatment (medians 88% v 96%, p < 0.01), and nocturnal symptoms disappeared within two weeks of treatment in both groups. At one month, the high dose significantly decreased serum insulin concentrations as calculated from the areas under the incremental two hours curves in the glucose tolerance test. The decrease was 59% for beclomethasone dipropionate (medians 76 v 31 mU/l/h, p < 0.005) and 42% for budesonide (medians 79 v 46 mU/l/h, p < 0.01). The median areas at five and eight months were intermediate for both drugs. No significant differences were found when the five and eight month values were compared either with the baseline or with one month values. The difference between the baseline values of both groups and the respective values in healthy controls was significant (medians 79 v 49 mU/l/h, p < 0.01). The one month values for the patients and control subjects were similar. Paralleling the changes for insulin, the area under the incremental two hour blood glucose curve decreased significantly (medians 1.4 v 0.4 mmol/l/h, p < 0.05) during the first month of treatment. The five and eight month values were intermediate (medians 0.8 and 0.7 mmol/l/h, respectively). These changes were not significant compared with the baseline or the one month areas. Similar changes were seen in both treatment groups. Neither treatment had any significant effect on plasma cortisol in the one hour adrenocorticotrophic hormone test. CONCLUSIONS--In patients stressed by uncontrolled asthma, the antiasthmatic effect of high dose beclomethasone dipropionate and budesonide was accompanied by a significant initial decrease in insulin resistance with a parallel improvement in glucose tolerance. During prolonged treatment a small increase in insulin sensitivity was found. The overall effect of beclomethasone dipropionate and budesonide inhalations on carbohydrate metabolism may be beneficial in patients with uncontrolled asthma.     

Bone mineral density in subjects with mild asthma randomised to treatment with inhaled corticosteroids or non-corticosteroid treatment for two years

BACKGROUND: Inhaled corticosteroids are clearly beneficial for patients with asthma of moderate severity, but the risks and benefits of using them in patients with milder asthma are less clear. We have compared the change in bone mineral density over 2 years in adults with mild asthma randomised to receive an inhaled corticosteroid or non-corticosteroid treatment. METHODS: Subjects with mild asthma (mean forced expiratory volume in one second (FEV(1)) 86% predicted, mean age 35 years, taking beta agonists only) were randomised to receive inhaled budesonide, inhaled beclomethasone dipropionate, or non-corticosteroid treatment for 2 years in a prospective randomised open study in 19 centres in France, New Zealand, Spain, and the UK. The corticosteroid dose was adjusted according to a written self-management plan. The main outcome measure-change in bone mineral density after 6, 12, and 24 months-was measured "blind". Secondary outcomes included lung function, the relation between change in bone density and inhaled steroid dose and change in biochemical markers of bone metabolism. RESULTS: Of 374 subjects randomised, 239 (64%) completed the study and were included in the analysis. The median daily doses of inhaled budesonide (n=87) and beclomethasone (n=74) were 389 microg and 499 microg, respectively. Subjects treated with an inhaled corticosteroid had better asthma control than those in the reference group (n=78). Change in bone mineral density did not differ between the three groups over the 2 years, nor did it correlate with changes in markers of bone metabolism. The mean change in bone mineral density over 2 years in the budesonide, beclomethasone dipropionate, and reference groups was 0.1%, -0.4%, and 0.4% for the lumbar spine and -0.9%, -0.9%, and -0.4% for neck of the femur. Mean daily dose of inhaled steroid was related to reduction in bone mineral density at the lumbar spine but not at the femoral neck. CONCLUSION: In subjects with mild asthma an inhaled corticosteroid provided better asthma control than alternative non-corticosteroid treatment with no difference in change in bone mineral density over 2 years. The relation between dose of inhaled corticosteroid and change in bone density at the lumbar spine may be due to a direct effect of inhaled corticosteroids on bone. Since inhaled steroid dose is also related inversely to lung function, an effect of asthma severity on bone density was also possible.     

Adrenal suppression with chronic dosing of fluticasone propionate compared with budesonide in adult asthmatic patients

BACKGROUND: In a previous single dosing comparison between fluticasone propionate and budesonide differences in cortisol levels measured at 08.00 hours were observed at doses in excess of 1000 micrograms. The aim of this study was to compare the adrenal suppression caused by chronic twice daily dosing with inhaled fluticasone propionate (FP) and budesonide (B) given on a microgram equivalent basis by metered dose inhaler to asthmatic patients. METHODS: Twelve stable asthmatic patients of mean age 29.7 years with forced expiratory volume in one second (FEV1) 89.0% predicted and mid forced expiratory flow (FEF25-75) 58.9% predicted, on 400 micrograms/day or less of inhaled corticosteroid, were studied in a double blind, placebo controlled, crossover design comparing inhaled budesonide and fluticasone propionate in doses of 250 micrograms, 500 micrograms, and 1000 micrograms twice daily. Each dose was given at 08.00 hours and 22.00 hours for four days by metered dose inhaler with mouth rinsing. Measurements were made of overnight urinary cortisol excretion and plasma cortisol levels at 08.00 hours, 10 hours after the eighth dose. RESULTS: The plasma cortisol levels (nmol/ l) at 08.00 hours showed that fluticasone propionate produced lower cortisol levels than budesonide at all three dose levels: F500 333.8, B500 415.2 (95% CI 28.9 to 134.0); F1000 308.3, B1000 380.3 (95% CI 10.5 to 133.5); F2000 207.3, B2000 318.5 (95% CI 5.8 to 216.7); placebo 399.9. Fluticasone produced greater effects than budesonide on the overnight urinary cortisol/creatinine ratio (nmol/mmol) at all three dose levels: F500 3.12, B500 5.55 (95% CI 0.16 to 3.79); F1000 2.54, B1000 6.12 (95% CI 1.25 to 5.91); F2000 2.07, B2000 6.09 (95% CI 0.88 to 7.18); placebo 5.23. CONCLUSIONS: With repeated dosing across a dose range of 250-1000 micrograms twice daily, fluticasone propionate produced significantly greater adrenal suppression than budesonide for both plasma and urinary cortisol. It was therefore possible to demonstrate differences between fluticasone and budesonide at lower doses with chronic dosing from those previously found with single dosing when given on a microgram equivalent basis in asthmatic patients. Factors contributing to the systemic adverse activity profile of fluticasone comprise enhanced receptor potency, prolonged receptor residency time, greater tissue retention, and a longer elimination half life.


     

Delivery of beclomethasone dipropionate from a spacer device: what dose is available for inhalation?

BACKGROUND--It is common for inhaled steroids to be delivered through a large volume spacer device. Comparatively little is known about how this practice affects the dose of drug received by patients compared with drug delivered directly from a metered dose inhaler. METHODS--The amount of beclomethasone dipropionate, contained in particles of various size, available for inhalation from a 750 ml polycarbonate spacer (Volumatic) was determined by impinger measurement and high performance liquid chromatography. Three strengths of metered dose inhalers were studied (50 micrograms, 100 micrograms, and 250 micrograms/actuation). The effect of multiple actuations of beclomethasone dipropionate into a Volumatic spacer, and increasing residence times of drug within the spacer before inhalation, on the amount of drug available to the patient for inhalation was determined. RESULTS--The amount of beclomethasone dipropionate in particles < 5 microns when delivered by a spacer device or directly from a metered dose inhaler was similar. The total amount of beclomethasone dipropionate available for inhalation per actuation decreased by 20 micrograms with the 50 micrograms inhaler, 48 micrograms with the 100 micrograms inhaler, and 161 micrograms with the 250 micrograms inhaler, when given via the spacer compared with delivery directly from a metered dose inhaler. There was a progressive decrease in drug available for inhalation per actuation as the number of actuations into the spacer increased, for all strengths of beclomethasone dipropionate tested. A progressive decrease in drug recovered per actuation was also seen with increasing residence times of drug within the spacer before inhalation. CONCLUSIONS--Use of the spacer device significantly reduced the amount of nonrespirable beclomethasone dipropionate available for inhalation. The amount of beclomethasone dipropionate within respirable particles decreased considerably following multiple actuations into the spacer and with increasing residence times within the spacer before inhalation. When given via a spacer device beclomethasone dipropionate should be inhaled immediately after actuation and multiple actuations into the device should be avoided.     

Effect of prednisone and beclomethasone dipropionate on airway responsiveness in asthma: a comparative study.

To examine the effect of corticosteroids on bronchial hyperresponsiveness, a randomised, double dummy, single blind crossover study was performed in 18 subjects with chronic asthma, comparing the effect of three weeks' treatment with inhaled beclomethasone dipropionate, 1200 micrograms daily, and oral prednisone 12.5 mg daily. The 12 week study began with a three week run in period of baseline treatment, which was continued unchanged throughout the study, and the two treatment periods were separated by a three week washout period. Patients kept daily Airflometer readings and attended the laboratory every three weeks for spirometry and a histamine inhalation test for determining the provocative dose of histamine causing a 20% fall in FEV1 (PD20). The mean FEV1 at the start was 1.9 litres (56% predicted). There was no significant change in PD20 with prednisone treatment, the mean PD20 being 0.56 and 0.59 mumol before and after treatment. There was, however, a significant improvement in PD20 with beclomethasone dipropionate treatment, the geometric mean PD20 being 0.38 and 1.01 mumol before and after treatment (p less than 0.001). There was a small but significant improvement in mean FEV1 after beclomethasone dipropionate treatment--from 1.9 to 2.2 litres--but no change after prednisone. Both medications produced significant and similar improvements in morning and evening Airflometer readings, post-bronchodilator improvement, and diurnal variation. Thus at doses that had similar beneficial effects on lung function beclomethasone dipropionate caused a significant improvement in bronchial hyperresponsiveness whereas prednisone caused no change. The superior topical anti-inflammatory effect of beclomethasone dipropionate may account for the different effects on bronchial hyperresponsiveness.     

Twice daily beclomethasone dipropionate administered with a concentrated aerosol inhaler: efficacy and patient compliance.

The efficacy of twice daily inhaled beclomethasone dipropionate administered by a concentrated aerosol inhaler (one puff twice daily-500 micrograms/day) has been compared with that of treatment four times daily with a standard dose inhaler (two puffs four times daily-400 micrograms/day) in 21 patients with stable asthma. Double placebo inhalers were used in a randomised crossover fashion during two four week treatment periods. Mean peak expiratory flow (PEF), mean symptom scores, and number of extra salbutamol inhalations required were not significantly different between the two treatment periods. Local side effects were more common during treatment with the four times daily active preparation; overt oropharyngeal candidiasis, however, was not found in either group during the study. On completion of the crossover study patients were transferred to the twice daily regimen. At the three month follow up all patients had remained stable and the outpatient PEF was significantly higher (mean 382 (SD 26)l min-1) than at entry into the trial (mean 345 (24)l min-1) (p less than 0.05). Twice daily beclomethasone administered by a concentrated aerosol inhaler appears to be as effective as the standard four times daily regimen in controlling stable asthma.     

Effects of long term inhaled high dose beclomethasone dipropionate on adrenal function.

Studies of adrenal function were performed on 54 asthmatic patients who were taking long term high doses of inhaled beclomethasone dipropionate ranging from 500 to 2000 micrograms/day for between six and 60 months. Of the 43 patients taking up to 1500 micrograms/day, 39 (91%) had normal basal plasma cortisol concentrations and normal short tetracosactrin responses and 24 hour urinary free cortisol excretion was within the normal range in eight of nine patients tested. Some evidence of adrenal suppression was found in patients taking 2000 micrograms/day, with basal plasma cortisol below the normal range in four out of 11 patients and 24 hour urinary free cortisol excretion below the normal range in five out of six patients tested. Only one of the 11 patients taking 2000 micrograms/day had a short tetracosactrin response below the normal range: the mean rise in plasma cortisol was, however, significantly lower in this group than in those taking 1000 micrograms/day (328 (SE 30) and 506 (34) nmol/l respectively) (p less than 0.01). Patients taking more than 1500 micrograms/day of inhaled beclomethasone may require systemic corticosteroids during prolonged stress.     

Randomised controlled trial of montelukast plus inhaled budesonide versus double dose inhaled budesonide in adult patients with asthma

BACKGROUND: Inhaled corticosteroids (ICS) affect many inflammatory pathways in asthma but have little impact on cysteinyl leukotrienes. This may partly explain persistent airway inflammation during chronic ICS treatment and failure to achieve adequate asthma control in some patients. This double blind, randomised, parallel group, non-inferiority, multicentre 16 week study compared the clinical benefits of adding montelukast to budesonide with doubling the budesonide dose in adults with asthma. METHODS: After a 1 month single blind run in period, patients inadequately controlled on inhaled budesonide (800 microg/day) were randomised to receive montelukast 10 mg + inhaled budesonide 800 microg/day (n=448) or budesonide 1600 microg/day (n=441) for 12 weeks. RESULTS: Both groups showed progressive improvement in several measures of asthma control compared with baseline. Mean morning peak expiratory flow (AM PEF) improved similarly in the last 10 weeks of treatment compared with baseline in both the montelukast + budesonide group and in the double dose budesonide group (33.5 v 30.1 l/min). During days 1-3 after start of treatment, the change in AM PEF from baseline was significantly greater in the montelukast + budesonide group than in the double dose budesonide group (20.1 v 9.6 l/min, p<0.001), indicating faster onset of action in the montelukast group. Both groups showed similar improvements with respect to "as needed" beta agonist use, mean daytime symptom score, nocturnal awakenings, exacerbations, asthma free days, peripheral eosinophil counts, and asthma specific quality of life. Both montelukast + budesonide and double dose budesonide were generally well tolerated. CONCLUSION: The addition of montelukast to inhaled budesonide is an effective and well tolerated alternative to doubling the dose of inhaled budesonide in adult asthma patients experiencing symptoms and inadequate control on budesonide alone.