Depending on the pMDI/spacer system chosen the delivery of medication can vary significantly and as a result will have implications on the potential carbon footprint.

In this case, the use of the AeroChamber Plus* Flow-Vu* VHC could potentially reduce the carbon footprint by three fold compared to the alternative spacers.

By maximizing the amount of each puff reaching the lungs the patient is likely to be able to get relief sooner and reduce the amount of puffs needed.

More consistent dose delivery was achieved with the breath actuated technology rather than breath enhanced.
Delivering medication only when the patient inhales would result in more stable therapy if I:E ratio was to change with disease< progression or if the patient took breaks to talk during treatment.

Summary:

Presented at DDL 2017 in Edinburgh

• Valved holding chambers are widely prescribed to assist patients receiving inhaled medications by avoiding losses caused by imperfect coordination of inhalation and actuation and also to reduce oropharyngeal deposition.
• Regardless of whether using a solution based formulation (like Qvar) or a suspension formulation (Flovent), the use of a valved holding chamber reduced the amount of medication deposited in the mouth (oropharynx) and increased the potential for lung delivery
• This study can be used to help demonstrate the value of using a valved holding chamber for both solution and suspension formulated metered dose inhalers and for all patient populations, including adults

Online marketplaces offer convenience and a vast array of options making them an attractive choice for purchasing medical devices. 

Presented at the British Thoracic Society December 2018.

Having a child with asthma can be stressful for parents, especially for financially strapped ones struggling to pay for an arsenal of puffers and pills for their child’s treatment. Because of this, those healthcare professionals who recommend spacer chambers may suggest one of many lower-cost versions that are available on the market today. But focusing only on cost may be putting a child’s health at risk.

Depending on the pMDI/spacer system chosen the delivery of medication can vary significantly and as a result will have implications on the potential carbon footprint.

In this case, the use of the AeroChamber Plus* Flow-Vu* VHC could potentially reduce the carbon footprint by three fold compared to the alternative spacers.

By maximizing the amount of each puff reaching the lungs the patient is likely to be able to get relief sooner and reduce the amount of puffs needed.

So why aren’t they used more widely?

A new review suggests that wider use of OPEP devices could reduce exacerbations and reduce hospital visits.

Conclusions:

• The FRI deposition profiles highlight that the MDI/ AeroChamber Plus* Flow Vu* VHC system delivered an appreciably greater percentage of drug to the lung region than either of the two DPIs.
• The influence of inhalation flow profile was less with the MDI/VHC system and differed between the two DPIs.

• The FRI deposition profiles highlight that the MDI/ AeroChamber Plus* Flow Vu* VHC system delivered an appreciably greater percentage of drug to the lung region than either of the two DPIs.
• The influence of inhalation flow profile was less with the MDI/VHC system and differed between the two DPIs.

This study looked to understand themes around time to bronchiectasis diagnosis, treatment burden and maintenance of therapeutic devices.

Conclusions:

From a UK perspective, BUD/F delivered via an MDI + VHC offers an economic benefit for the treatment of patients with mild asthma. Further analysis is required to determine if there would be any quality-adjusted life-year (QALY) effects based on the chosen intervention.