从吸入器中释放时凝聚体的分解

N. Ivanov, S. Chemical, V. Sorokin, A. V. Markova
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引用次数: 0

摘要

空气流速与吸气气流的流速直接相关,这一方面表征了吸入装置的特性,另一方面也表征了患者的能力。考虑到吸入器通道具有复杂的几何形状,在实际应用中,流量是吸入过程中最重要的参数。对活性药物成分沙美特罗颗粒化后的可降解性与结块率的关系进行了实验研究。确定所研究的药物成分均形成团聚体。随着气流流速的增大,团聚体粒径呈单调减小趋势,表明团聚体的破坏是逐渐进行的。在一定的空气流速下,团块几乎完全分解。结果表明,引起团聚体衰变的界面作用力与团聚体运动的相对速度有关,在粒子运动开始时最大。所获得的实验结果可用于设计新的吸入装置或制造新的粉末组合物。Ключевыеслова:порошковыйингалятор,активныефармацевтическиесубстанци,идезагрегированиеагломератов,силамежфазноговзаимодействия,Сальметеролаксинафоат。
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Disaggregation of the agglomerates during releasing from the inhaler
The air velocity is directly related to the flow rate of the inspiratory flow, which on the one hand characterizes the inhalation device, on the other hand – the capabilities of the patient. Considering that the inhaler channel has a complex geometric shape, it is the flow that is the most important parameter of the inhalation process, which is used in practice. An experimental study of the dependence of degradability of the micronized active pharmaceutical ingredient – Salmeterol xinafoate, agglomerates from the air flow rate was carried out. It is established that all the investigated pharmaceutical ingredients forms agglomerates. Monotonic decrease of the agglomerates size occurs with an increase of air flow rate, which indicates their gradual destruction. Almost complete disaggregation of the agglomerates takes place beginning form a certain air flow rate. It is shown that the interfacial interaction force caused the decay of agglomerates depends on the relative speed of their movement and is maximum at the beginning of the particle motion. The obtained experimental results can be used when designing a new inhalation device or creating a new powder composition. Ключевые слова: порошковый ингалятор, активные фармацевтические субстанции, дезагрегирование агломератов, сила межфазного взаимодействия, Сальметерола ксинафоат.
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