琼脂喷雾递送至鼻腔后部进行黏膜免疫并短期预防传染性呼吸道疾病。

Delivery of Agarose-aided Sprays to the Posterior Nose for Mucosa Immunization and Short-term Protection against Infectious Respiratory Diseases.

机构信息

Department of Biomedical Engineering, University of Massachusetts Lowell, Lowell, MA, USA.

Department of Aerospace, Industrial, and Mechanical Engineering, California Baptist University, Riverside, CA, USA.

出版信息

Curr Pharm Biotechnol. 2024;25(6):787-798. doi: 10.2174/1389201024666230801142913.

DOI:10.2174/1389201024666230801142913

PMID:37533243

Abstract

AIM

The study aimed to deliver sprays to the posterior nose for mucosa immunization or short-term protection.

BACKGROUND

Respiratory infectious diseases often enter the human body through the nose. Sars- Cov-2 virus preferentially binds to the ACE2-rich tissue cells in the Nasopharynx (NP). Delivering medications to the nose, especially to the NP region, provides either a short-term protective/ therapeutic layer or long-term mucosa immunization. Hydrogel-aided medications can assist film formation, prolong film life, and control drug release. However, conventional nasal sprays have failed to dispense mediations to the posterior nose, with most sprays lost in the nasal valve and front turbinate.

OBJECTIVE

The objective of the study was to develop a practical delivery system targeting the posterior nose and quantify the dosimetry distribution of agarose-saline solutions in the nasal cavity.

METHODS

The solution viscosities with various hydrogel concentrations (0.1-1%) were measured at different temperatures. Dripping tests on a vertical plate were conducted to understand the hydrogel concentration effects on the liquid film stability and mobility. Transparent nasal airway models were used to visualize the nasal spray deposition and liquid film translocation.

RESULTS

Spray dosimetry with different hydrogel concentrations and inhalation flow rates was quantified on a total and regional basis. The solution viscosity increased with decreasing temperature, particularly in the range of 60-40oC. The liquid viscosity, nasal spray atomization, and liquid film mobility were highly sensitive to the hydrogel concentration. Liquid film translocations significantly enhanced delivered doses to the caudal turbinate and nasopharynx when the sprays were administered at 60oC under an inhalation flow rate of 11 L/min with hydrogel concentrations no more than 0.5%. On the other hand, sprays with 1% hydrogel or administered at 40oC would significantly compromise the delivered doses to the posterior nose.

CONCLUSION

Delivering sufficient doses of hydrogel sprays to the posterior nose is feasible by leveraging the post-administration liquid film translocation.

摘要

目的

本研究旨在通过喷雾将药物递送至鼻腔后部以实现黏膜免疫或短期保护。

背景

呼吸道传染病通常通过鼻腔进入人体。SARS-CoV-2 病毒优先结合鼻咽部（NP）中富含 ACE2 的组织细胞。将药物递送至鼻腔，特别是 NP 区域，可以提供短期的保护/治疗层或长期的黏膜免疫。水凝胶辅助药物可以帮助形成薄膜、延长薄膜寿命并控制药物释放。然而，传统的鼻腔喷雾剂未能将药物递送至鼻腔后部，大多数喷雾剂在鼻阀和前鼻甲中丢失。

目的

本研究旨在开发一种针对鼻腔后部的实用递药系统，并定量测量鼻腔中琼脂盐水溶液的剂量分布。

方法

在不同温度下测量了不同水凝胶浓度（0.1-1%）下的溶液粘度。通过在垂直板上进行滴落测试来了解水凝胶浓度对液膜稳定性和流动性的影响。使用透明鼻腔气道模型可视化鼻腔喷雾沉积和液膜迁移。

结果

基于总剂量和局部剂量定量评估了不同水凝胶浓度和吸入流速下的喷雾剂量分布。溶液粘度随温度降低而增加，特别是在 60-40°C 范围内。液体粘度、鼻腔喷雾雾化和液膜流动性对水凝胶浓度高度敏感。当以 11 L/min 的吸入流速在 60°C 下用浓度不超过 0.5%的水凝胶给药时，液膜迁移显著增加了对尾鼻甲和鼻咽部的药物递送剂量。另一方面，当使用 1%的水凝胶或在 40°C 下给药时，会显著降低对鼻腔后部的药物递送剂量。

结论

通过利用给药后液膜迁移，可以将足够剂量的水凝胶喷雾递送至鼻腔后部。

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琼脂喷雾递送至鼻腔后部进行黏膜免疫并短期预防传染性呼吸道疾病。

Delivery of Agarose-aided Sprays to the Posterior Nose for Mucosa Immunization and Short-term Protection against Infectious Respiratory Diseases.

机构信息

出版信息

AIM

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

背景

目的

方法

结果

结论

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