2021
DOI: 10.1016/j.ijpharm.2021.120341
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Increasing the fine particle fraction of pressurised metered dose inhaler solutions with novel actuator shapes

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Cited by 9 publications
(13 citation statements)
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References 27 publications
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“…Contrary to the results of Duke et al (2021), in which the twin nozzle performed better than the conventional one in terms of drug deposition, our data showed that, in the real MT airway, which influences the distribution of the flow field, the twin nozzle enhanced the drug deposition in only the MT region, rather than deeper parts of the airway. So, according to the present study, not only the higher velocity of aerosol generated by a twin nozzle does not improve the function of pMDI in terms of drug delivery, but it also worsens its efficiency.…”
Section: Discussioncontrasting
confidence: 99%
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“…Contrary to the results of Duke et al (2021), in which the twin nozzle performed better than the conventional one in terms of drug deposition, our data showed that, in the real MT airway, which influences the distribution of the flow field, the twin nozzle enhanced the drug deposition in only the MT region, rather than deeper parts of the airway. So, according to the present study, not only the higher velocity of aerosol generated by a twin nozzle does not improve the function of pMDI in terms of drug delivery, but it also worsens its efficiency.…”
Section: Discussioncontrasting
confidence: 99%
“…Then, the two plumes collapse before entirely leaving the actuator structure, and one continuous plume appears, like the conventional one. Our result is aligned with that of Duke et al (2021). The spray collapse phenomenon causes a decrease in plume width and an increase in tip penetration (Chang et al 2023;Nishida et al 2009).…”
Section: Plume Behavioursupporting
confidence: 89%
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“…Data propose that smaller orifices (0.22 mm) generate fine particles and higher sustained plume velocities cause higher fine particles at the periphery of the spray owing to improved shear. A small change in the pMDI device significantly impacts the drug deposition profile and improves formulation aerodynamic functioning ( 113 ).
Fig.
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Section: Pulmonary Drug Deliverymentioning
confidence: 99%
“…Duke et al . [ 46 ] have reported that decreasing the spray orifice diameter has the effect of increasing both the plume velocity and fine particle fraction keeping the vapor pressure of the pMDI formulation constant [ 46 ]. In the case of DPIs, one of the major device parameters that can affect the fine particle fraction is the internal mesh design that is primarily responsible for the device resistance that needs to be overcome by the patient’s inhalation flow rate in order to enable optimal de-aggregation of the API drug particles from the lactose carrier.…”
Section: Introductionmentioning
confidence: 99%