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.
Evaluations of inhaler use have demonstrated that mishandling of MDIs is commonplace.
One of the most common errors is the failure to coordinate inhalation with actuation of the inhaler
One of the reasons why VHCs are often prescribed, is to reduce the severity of this error
This Functional Respiratory Imaging (FRI) based study assessed the likely severity of a short inhalation delay (from actuation) with an MDI alone and how it contrasted to the use with a VHC
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.
Nontuberculous mycobacterial (NTM) lung disease is a chronic, progressive condition caused by nontuberculous mycobacteria. NTM lung disease occurs more frequently in older adults and people with other lung diseases, like bronchiectasis, and chronic obstructive pulmonary disease (COPD).
Cystic fibrosis (CF) is a progressive, genetic condition affecting more than 100,000 people worldwide.1 There are over 4,300 people living with CF in Canada.2
Bronchiectasis is a chronic, progressive lung condition affecting infants, children and adults. While the global prevalence of bronchiectasis is not accurately known,1 there is a growing awareness of the disease.2
Chronic Obstructive Pulmonary Disease (COPD) affects around 251 million people globally.1 It is a term that covers two types of chronic (long-term) diseases where the airways in the lungs become “obstructed” or partly blocked.
Asthma is a chronic respiratory disease, characterized by narrowing of the airways and excess mucus production. People with asthma typically suffer from chest tightness/pain, shortness of breath, and episodes of coughing and wheezing.
Bronchiectasis – How Key is the Role of Airway Clearance? A Practical Review and Guide for this Pandemic and Beyond
Join Professor James Chalmers, Pamela Vaughn and Paul McCallion as they discuss the importance of airway clearance therapy in Bronchiectasis patients, global guidelines and recommendations during the pandemic.
Est-ce une MPOC, une Fibrose, de l’Asthme…NON, C’est une bronchiectasie! Plein feux sur une meilleur prise en charge de cette pathologie!
Joignez-vous à Isabelle LeClerc, Infirmière praticienne, pour une discussion accréditée sur la bronchiectasie afin d'en savoir plus sur ce qui rend cette maladie respiratoire unique. Ensemble, nous découvrirons comment vous pouvez aider vos patients atteints de bronchiectasie à mieux respirer grâce à une approche non-pharmacologique ainsi qu’une bonne autogestion pour finalement améliorer leur qualité de vie.
Living a full life with Chronic Obstructive Pulmonary Disease (COPD) is more accessible than ever before with today’s online resources. Whether you’re looking for in-depth tutorials, facts, or simple tips on self-management, the web offers information at your fingertips. Here’s a few of our favourite bookmark-worthy websites for you!
Living a full life with Chronic Obstructive Pulmonary Disease (COPD) is more accessible than ever before with today’s online resources. Whether you’re looking for in-depth tutorials, facts, or simple tips on self-management, the web offers information at your fingertips. Here’s a few of our favourite bookmark-worthy websites for you!
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.
The DPI results suggest that inhalation breathing profiles can have an appreciable impact upon aerosol delivery, with one participant having much less predicted medication as fine particles
In contrast, although the inhalation profiles across all participants were also divergent when asked to inhale from the pMDI + VHC, either tidal breathing or by a slow, deep inhalation, all volunteers would have received a relatively consistent amount of medication.
It also appears that the pMDI + VHC platform delivers a larger FPM<5.0 µm for both APIs and a consequently smaller coarse particle mass. However, it is recognized that more investigation is warranted with a larger number of volunteers and with other passive DPIs having different resistances
While the hot summer months may affect the everyday management of your lung health, it doesn’t have to keep you from living your fullest life. Here are a few tips to help you find the breathing spaces you need this summer.
While it’s one of the most anticipated seasons of the year, summer can also be the most difficult season for Canadians living with COPD (chronic obstructive pulmonary disease). We want to help you make the most of it! Here’s what you need to know about summer, and how you can enjoy yours this year.
