A large volume spacer significantly reduces the effect of inhaled steroids on bone formation.

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Meeran K, Burrin JM, Noonan KA, Price CP, Ind PW

A large volume spacer significantly reduces the effect of inhaled steroids on bone formation.

Postgrad Med J. 1995 Mar;71(833):156-9.

PubMed ID

7746775 [ View in PubMed

]

Abstract

Inhaled steroids are increasingly advocated as first line treatment for mild asthma. Some studies suggest that inhaled steroids suppress bone formation as reflected by a fall in plasma osteocalcin. Spacers have been shown to increase the proportion of inhaled aerosol that is deposited in the lungs and to reduce the amount swallowed. We measured plasma osteocalcin levels to determine the effect on bone formation of inhaled beclomethasone dipropionate (BDP) with and without a 750 ml spacer in a double-blind, randomised, placebo-controlled, cross-over study. Twenty-six healthy male volunteers took BDP 500 micrograms (two puffs of Becloforte) together with two puffs of placebo, inhaled twice daily for seven days. One inhaler was taken directly while the other was inhaled through a 750 ml spacer. After a two week washout period, the inhalers were exchanged so that BDP was taken by the alternate route for a further seven days. Fasting plasma osteocalcin levels were measured at 09.00 h before and at the end of each week. After a week of BDP taken directly (without a spacer), osteocalcin levels fell from 11.8 (SEM 0.6) ng/ml to 9.5 (SEM 0.5) ng/ml (p < 0.001). After a week of BDP taken through a spacer, osteocalcin levels fell from 12.1 (SEM 0.5) ng/ml to 11.1 (SEM 0.5) ng/ml (p < 0.001). The fall in osteocalcin when a spacer was used was significantly less than when BDP was taken directly (p < 0.005). This is likely to be because the systemic effects on bone are caused by swallowed rather than inhaled BDP, and this is limited by the use of a spacer. Spacers should be more widely prescribed with inhaled steroids. Further prospective studies are indicated to evaluate whether spacers protect bone mass.

DrugBank Data that Cites this Article

Pharmaco-proteomics

Drug	Drug Groups	Gene	Gene ID	Change	Interaction	Chromosome
Beclomethasone dipropionate	Approved Investigational	BGLAP	632	decreased	Beclomethasone results in decreased expression of BGLAP protein	1q22
Beclomethasone dipropionate	Approved Investigational	BGLAP	632	decreased	Beclomethasone results in decreased expression of BGLAP protein	1q22