Metal–Organic Framework Microsphere Formulation for Pulmonary AdministrationClick to copy article linkArticle link copied!
- Cristina Fernández-PazCristina Fernández-PazNanobiofar Group, Department of Pharmacology, Pharmacy & Pharmaceutical Technology. Faculty of Pharmacy, University of Santiago de Compostela, Campus Vida, 15782 Santiago de Compostela, SpainMore by Cristina Fernández-Paz
- Sara RojasSara RojasAdvanced Porous Materials Unit, IMDEA Energy. Av. Ramón de la Sagra 3, 28935 Móstoles-Madrid, SpainMore by Sara Rojas
- Pablo Salcedo-AbrairaPablo Salcedo-AbrairaAdvanced Porous Materials Unit, IMDEA Energy. Av. Ramón de la Sagra 3, 28935 Móstoles-Madrid, SpainMore by Pablo Salcedo-Abraira
- Teresa Simón-YarzaTeresa Simón-YarzaINSERM U1148. Laboratory for Vascular Translational Science, Bichat Hospital, Université de Paris. 75018 Paris, FranceMore by Teresa Simón-Yarza
- Carmen Remuñán-López*Carmen Remuñán-López*Email: [email protected]Nanobiofar Group, Department of Pharmacology, Pharmacy & Pharmaceutical Technology. Faculty of Pharmacy, University of Santiago de Compostela, Campus Vida, 15782 Santiago de Compostela, SpainMore by Carmen Remuñán-López
- Patricia Horcajada*Patricia Horcajada*Email: [email protected]Advanced Porous Materials Unit, IMDEA Energy. Av. Ramón de la Sagra 3, 28935 Móstoles-Madrid, SpainMore by Patricia Horcajada
Abstract
Although nanoscaled metal–organic frameworks (nanoMOFs) are promising drug carriers, their appropriate formulation remains almost unexplored and basically restricted to intravenous routes. Lungs, beneficiating from a large absorption surface and low enzymatic presence, are a very attractive target for both local and systemic delivery. However, pulmonary nanoMOF formulation is a pending and defying task. Thus, we propose a pioneer nanoMOF-based microsphere system as a potential platform for pulmonary administration. A biocompatible nanoMOF was successfully encapsulated in mannitol by a simple and continuous spray-drying technique. Upon intratracheal administration to rats, the resulting formulation, exhibiting optimal properties (i.e., homogeneity, size, density, and spray-drying process yield), was able to release the intact nanoMOF carrier uniformly along the lungs, reaching the bronchioles and alveoli.
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