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Slow release formulations of inhaled rifampin.吸入用利福平缓释制剂。
AAPS J. 2008 Jun;10(2):342-8. doi: 10.1208/s12248-008-9044-5. Epub 2008 Jun 27.
2
Nanoparticles for drug delivery to the lungs.用于肺部药物递送的纳米颗粒。
Trends Biotechnol. 2007 Dec;25(12):563-70. doi: 10.1016/j.tibtech.2007.09.005. Epub 2007 Nov 8.
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Preparation and in vivo evaluation of a dry powder for inhalation of capreomycin.卷曲霉素吸入用干粉的制备及体内评价
Pharm Res. 2008 Apr;25(4):805-11. doi: 10.1007/s11095-007-9381-6. Epub 2007 Jul 27.
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Inhaled large porous particles of capreomycin for treatment of tuberculosis in a guinea pig model.用于豚鼠模型中治疗结核病的吸入型大孔卷曲霉素颗粒
Antimicrob Agents Chemother. 2007 Aug;51(8):2830-6. doi: 10.1128/AAC.01164-06. Epub 2007 May 21.
5
Preparation and antibacterial activity evaluation of rifampicin-loaded poly lactide-co-glycolide nanoparticles.载利福平聚乳酸-羟基乙酸共聚物纳米粒的制备及抗菌活性评价
Nanomedicine. 2007 Jun;3(2):161-7. doi: 10.1016/j.nano.2007.03.003. Epub 2007 Apr 30.
6
Drug release study of large hollow nanoparticulate aggregates carrier particles for pulmonary delivery.用于肺部给药的大型中空纳米颗粒聚集体载体颗粒的药物释放研究
Int J Pharm. 2007 Aug 16;341(1-2):195-206. doi: 10.1016/j.ijpharm.2007.03.035. Epub 2007 Mar 30.
7
Evaluation of dosing regimen of respirable rifampicin biodegradable microspheres in the treatment of tuberculosis in the guinea pig.可吸入性利福平可生物降解微球给药方案对豚鼠结核病治疗效果的评估
J Antimicrob Chemother. 2006 Nov;58(5):980-6. doi: 10.1093/jac/dkl369. Epub 2006 Sep 13.
8
A practical approach to the use of nanoparticles for vaccine delivery.一种使用纳米颗粒进行疫苗递送的实用方法。
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Formulation and cytotoxicity of doxorubicin nanoparticles carried by dry powder aerosol particles.干粉气雾剂颗粒携带的阿霉素纳米颗粒的制剂与细胞毒性
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Investigation of the proinflammatory potential of biodegradable nanoparticle drug delivery systems in the lung.可生物降解纳米颗粒药物递送系统在肺部的促炎潜力研究。
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用于肺部给药的自组装利福平纳米颗粒系统的制剂与药代动力学

Formulation and pharmacokinetics of self-assembled rifampicin nanoparticle systems for pulmonary delivery.

作者信息

Sung Jean C, Padilla Danielle J, Garcia-Contreras Lucila, Verberkmoes Jarod L, Durbin David, Peloquin Charles A, Elbert Katharina J, Hickey Anthony J, Edwards David A

机构信息

Harvard School of Engineering and Applied Sciences, 29 Oxford Street, Pierce 322, Cambridge, Massachusetts 02138, USA.

出版信息

Pharm Res. 2009 Aug;26(8):1847-55. doi: 10.1007/s11095-009-9894-2. Epub 2009 Apr 30.

DOI:10.1007/s11095-009-9894-2
PMID:19407933
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10247220/
Abstract

PURPOSE

To formulate rifampicin, an anti-tuberculosis antibiotic, for aerosol delivery in a dry powder 'porous nanoparticle-aggregate particle' (PNAP) form suited for shelf stability, effective dispersibility and extended release with local lung and systemic drug delivery.

METHODS

Rifampicin was encapsulated in PLGA nanoparticles by a solvent evaporation process, spray dried into PNAPs containing varying amounts of nanoparticles, and characterized for physical and aerosol properties. Pharmacokinetic studies were performed with formulations delivered to guinea pigs by intratracheal insufflation and compared to oral and intravenous delivery of rifampicin.

RESULTS

The PNAP formulations possessed properties suitable for efficient deposition in the lungs. In vitro release showed an initial burst of rifampicin, with the remainder available for release beyond eight hours. PNAPs delivered to guinea pigs by insufflation achieved systemic levels of rifampicin detected for six to eight hours. Moreover, rifampicin concentrations remained detectable in lung tissue and cells up to and beyond eight hours. Conversely, after pulmonary delivery of an aerosol without nanoparticles, rifampicin could not be detected in the lungs at eight hours.

CONCLUSIONS

Our results indicate that rifampicin can be formulated into an aggregated nanoparticle form that, once delivered to animals, achieves systemic exposure and extends levels of drug in the lungs.

摘要

目的

将抗结核抗生素利福平制成干粉“多孔纳米颗粒聚集体颗粒”(PNAP)形式的气雾剂,以实现储存稳定性、有效分散性以及在肺部局部和全身给药时的缓释。

方法

通过溶剂蒸发法将利福平包封于聚乳酸-羟基乙酸共聚物(PLGA)纳米颗粒中,喷雾干燥成含有不同量纳米颗粒的PNAP,并对其物理和气雾剂特性进行表征。通过气管内注入将制剂递送至豚鼠体内进行药代动力学研究,并与利福平的口服和静脉给药进行比较。

结果

PNAP制剂具有适合在肺部有效沉积的特性。体外释放显示利福平有初始突释,其余部分可在八小时后释放。通过注入递送至豚鼠的PNAP在六至八小时内达到了可检测到的利福平全身水平。此外,在长达八小时及八小时以后,肺组织和细胞中仍可检测到利福平浓度。相反,在肺部递送不含纳米颗粒的气雾剂后,八小时时在肺部无法检测到利福平。

结论

我们的结果表明,利福平可以制成聚集纳米颗粒形式,一旦递送至动物体内,即可实现全身暴露并延长肺部药物水平。