Instillation of a Dry Powder in Nasal Casts: Parameters Influencing the Olfactory Deposition With Uni- and Bi-Directional Devices.

Frontiers in Medical Technology Pub Date : 2022-06-27 eCollection Date: 2022-01-01 DOI:10.3389/fmedt.2022.924501
Clément Rigaut, Laura Deruyver, Jonathan Goole, Benoît Haut, Pierre Lambert
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引用次数: 5

Abstract

Nose-to-brain delivery is a promising way to reach the central nervous system with therapeutic drugs. However, the location of the olfactory region at the top of the nasal cavity complexifies this route of administration. In this study, we used a 3D-printed replica of a nasal cavity (a so-called "nasal cast") to reproduce in vitro the deposition of a solid powder. We considered two different delivery devices: a unidirectional device generating a classical spray and a bidirectional device that relies on the user expiration. A new artificial mucus also coated the replica. Five parameters were varied to measure their influence on the powder deposition pattern in the olfactory region of the cast: the administration device, the instillation angle and side, the presence of a septum perforation, and the flow rate of possible concomitant inspiration. We found that the unidirectional powder device is more effective in targeting the olfactory zone than the bi-directional device. Also, aiming the spray nozzle directly at the olfactory area is more effective than targeting the center of the nasal valve. Moreover, the choice of the nostril and the presence of a perforation in the septum also significantly influence the olfactory deposition. On the contrary, the inspiratory flow has only a minor effect on the powder outcome. By selecting the more efficient administration device and parameters, 44% of the powder can reach the olfactory region of the nasal cast.

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干粉在鼻铸模中的灌注:影响单向和双向装置嗅觉沉积的参数。
鼻到脑输送是治疗药物到达中枢神经系统的一种很有前途的方式。然而,鼻腔顶部嗅觉区域的位置使这种给药途径复杂化。在这项研究中,我们使用了一个3d打印的鼻腔复制品(所谓的“鼻腔模型”)来体外复制固体粉末的沉积。我们考虑了两种不同的输送装置:产生经典喷雾的单向装置和依赖于用户过期的双向装置。一种新的人造粘液也覆盖在复制品上。改变五个参数来测量它们对铸造嗅觉区粉末沉积模式的影响:给药装置、注入角度和侧面、鼻中隔穿孔的存在以及可能伴随吸入的流速。我们发现单向粉末装置比双向装置更有效地瞄准嗅觉区。此外,将喷雾喷嘴直接对准嗅觉区域比对准鼻阀中心更有效。此外,鼻孔的选择和鼻中隔穿孔的存在也显著影响嗅觉沉积。相反,吸气流量对粉末效果的影响很小。通过选择更有效的给药装置和参数,44%的粉末可以到达鼻铸模的嗅觉区域。
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