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.
The back-to-school season can be an exciting time for both kids and parents, but did you know that this time of year has been linked to a considerable increase in hospitalizations for children with asthma? This phenomenon is referred to as the September Asthma Spike, where hospitalizations begin to increase at the start of the school year until they peak during the third week of September.1
Medications to manage care of bronchiectasis and NTM patients are often delivered via a nebulizer. This study compares a number of different OPEP/Nebulizer combinations using salbutamol as the modelled medication.
The delivery of medication from the AEROECLIPSE* II BAN* to the lungs was not affected by the incorporation of the Aerobika* OPEP device. Aerosol deposition within the lung was unaltered by the addition of the OPEP device as evidenced by the near identical percentage of the dose being deposited in both the peripheral and central airways.
BAN+OPEP therapy could offer the clinician the opportunity for combined treatment thereby reducing the time needed for the patient to take both nebulizer and OPEP treatments separately.
Inhaled tobramycin is recommended for use in cystic fibrosis patients for treatment of Pseudomonas aeruginosa infection. This in vitro study looked at antibiotic delivery using a BA nebulizer/compressor system and two BE nebulizer/compressor systems.
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.
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.
Medications to manage care of bronchiectasis and NTM patients are often delivered via a nebulizer. This study compares a number of different OPEP/Nebulizer combinations using salbutamol as the modelled medication.
We invite you to join the latest “Ask the Expert” session with Kathy Hayward, Respiratory Educator at Calgary COPD & Asthma Program, as she provides tips for how to best manage COPD, the importance of mucus clearance and inhaled medications, and the impact COVID-19 may have on COPD.
Effective management of your COPD patients in COVID times - How to help keep them out of the hospital
We invite you to join in on the conversation with Dr. Alan Kaplan as he discusses COVID-19 risk for COPD patients, pharmacological and non-pharmacological COPD treatments, and tips for conducting virtual COPD visits.
