Today Trudell Medical International announces it is extending its global footprint with its expansion into the Australian market with the establishment of Trudell Medical Australia Propriety Limited (Trudell Medical Australia).
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.
It is our pleasure to announce that in honour of the late Mitchell Baran, the founder and leader of the Trudell Medical Group of Companies, the City of London has renamed the portion of Third Street that two of the Trudell Companies are located to “Baransway Drive”.
It is our pleasure to announce that in honour of the late Mitchell Baran, the founder and leader of the Trudell Medical Group of Companies, the City of London has renamed the portion of Third Street that two of the Trudell Companies are located to “Baransway Drive”.
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.
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
Asthma impacts different people in different ways. Most people are able to control their asthma with regular use of their controller medication and using their reliever medication when necessary. However, for many it can be difficult to recognize when their asthma is not controlled. When asthma is well-controlled, you will experience little to no asthma symptoms.
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
Asthma impacts different people in different ways. Most people are able to control their asthma with regular use of their controller medication and using their reliever medication when necessary. However, for many it can be difficult to recognize when their asthma is not controlled. When asthma is well-controlled, you will experience little to no asthma symptoms.
As a medical device manufacturer, we are committed to minimizing any disruption to the supply of our products to our customers globally, during this unprecedented time with the outbreak of COVID-19.
COPD is a chronic and progressive disease that requires regular self-administration of inhaled medications. However, as the disease progresses, reduced respiratory muscle strength may prevent patients from generating sufficient inspiratory effort to effectively use dry-powder inhalers (DPIs) [1, 2]. In contrast, patients can inhale slowly or breathe tidally from a pMDI with VHC without the need to coordinate with inhaler actuation [3].
The most efficient and effective delivery method remains that recommended in the device IFU (one actuation inhaled at a time, as well inhalation as soon as possible after actuation)
However, this laboratory-based study has indicated that a modified common-canister protocol with an anti-static VHC as the aerosol transfer vehicle has the potential to be a viable ‘off-label’ proposition in hospital situations where there is an urgent need to conserve pMDI medication as well as avoid cross-contamination from pathogenic viruses or bacteria
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.
In the Preparing for a Telemedicine Session webinar, Dr. Josianne Hamel-Bourbeau discussed the intricacies of telemedicine, and how to deliver the best care for your patients while remaining as efficient as possible. Please see a recording of the session below.
The personalised approach to inhaled medicine - Ensure your respiratory patients are prepared in case of emergency
Join Professor Anna Murphy as she highlights the role of spacers in optimising inhaled medication delivery for people of all ages and ensuring patients are prepared in case of emergency.
