22 research outputs found

    Synthetic Geopolymers for Controlled Delivery of Oxycodone: Adjustable and Nanostructured Porosity Enables Tunable and Sustained Drug Release

    Get PDF
    In this article we for the first time present a fully synthetic mesoporous geopolymer drug carrier for controlled release of opioids. Nanoparticulate precursor powders with different Al/Si-ratios were synthesized by a sol-gel route and used in the preparation of different geopolymers, which could be structurally tailored by adjusting the Al/Si-ratio and the curing temperatures. In particular, it was shown that the pore sizes of the geopolymers decreased with increasing Al/Si ratio and that completely mesoporous geopolymers could be produced from precursor particles with the Al/Si ratio 2∶1. The mesoporosity was shown to be associated with a sustained and linear in vitro release profile of the opioid oxycodone. A clinically relevant release period of about 12 h was obtained by adjusting the size of the pellets. The easily fabricated and tunable geopolymers presented in this study constitute a novel approach in the development of controlled release formulations, not only for opioids, but whenever the clinical indication is best treated with a constant supply of drugs and when the mechanical stability of the delivery vehicle is crucial

    Drugs 61: 2289-2307, No. 15, 2001

    No full text

    Intra-luminal exposure of murine airways to peroxynitrite causes inflammation but not hyperresponsiveness

    No full text
    Objective and design: There is increasing evidence for the involvement of reactive nitrogen species like peroxynitrite (ONOO-) in airway pathology, for example during allergic airway inflammation. Therefore, the effect of peroxynitrite exposure on airway responsiveness and inflammation was studied. Materials: Male BALB/c mice were treated intra-tracheally with authentic peroxynitrite and the peroxynitrite donor 3-morpholinosydnonimine (SIN-1). Control animals received decomposed solutions of peroxynitrite and SIN-1. Methods: Airway inflammation was monitored by broncho-alveolar lavage, three and seven days after administration. Airway responsiveness to methacholine and acetylcholine was measured on day 1, 2, 3 and 7 post administration using whole body plethysmography. Results: Intra-tracheal administration of peroxynitrite 200 muM in 50 mul phosphate buffered saline (PBS) induced a significant increase in macrophages (>35%, p <0.05) in the airway lumen three days after administration. In contrast, neither intra-tracheal administration of authentic peroxynitrite (up to 5 mM) nor the peroxynitrite donor SIN-1 (1 mM, both intra-tracheal and nebulized) changed airway responsiveness to methacholine. Moreover, peroxynitrite (5 mM) did not alter responsiveness to acetylcholine. Conclusion: Administration of peroxynitrite directly into the airways of BALB/c mice, induces airway inflammation, but not airway hyperresponsiveness. It is suggested that antioxidants in the epithelial lining fluid and/or the epithelium itself form an efficient barrier, which prevents peroxynitrite from reaching putative targets in the airway interstitium

    Intra-luminal exposure of murine airways to peroxynitrite causes inflammation but not hyperresponsiveness

    No full text
    Objective and design: There is increasing evidence for the involvement of reactive nitrogen species like peroxynitrite (ONOO-) in airway pathology, for example during allergic airway inflammation. Therefore, the effect of peroxynitrite exposure on airway responsiveness and inflammation was studied. Materials: Male BALB/c mice were treated intra-tracheally with authentic peroxynitrite and the peroxynitrite donor 3-morpholinosydnonimine (SIN-1). Control animals received decomposed solutions of peroxynitrite and SIN-1. Methods: Airway inflammation was monitored by broncho-alveolar lavage, three and seven days after administration. Airway responsiveness to methacholine and acetylcholine was measured on day 1, 2, 3 and 7 post administration using whole body plethysmography. Results: Intra-tracheal administration of peroxynitrite 200 muM in 50 mul phosphate buffered saline (PBS) induced a significant increase in macrophages (>35%, p <0.05) in the airway lumen three days after administration. In contrast, neither intra-tracheal administration of authentic peroxynitrite (up to 5 mM) nor the peroxynitrite donor SIN-1 (1 mM, both intra-tracheal and nebulized) changed airway responsiveness to methacholine. Moreover, peroxynitrite (5 mM) did not alter responsiveness to acetylcholine. Conclusion: Administration of peroxynitrite directly into the airways of BALB/c mice, induces airway inflammation, but not airway hyperresponsiveness. It is suggested that antioxidants in the epithelial lining fluid and/or the epithelium itself form an efficient barrier, which prevents peroxynitrite from reaching putative targets in the airway interstitium

    L-Arginine is not the limiting factor for nitric oxide synthesis by human alveolar macrophages in vitro

    No full text
    Unlike murine mononuclear phagocytes, human macrophages do not release high amounts of nitric oxide (NO) in vitro despite the presence of nitric oxide synthase (NOS). To determine whether this limited NO synthesis in vitro is due to limited availability of the NOS substrate L-arginine, and putative NOS inhibiting factors present in foetal serum preparations, both alveolar macrophages (AM) and monocyte derived macrophages (MDM) were incubated in various circumstances. Nitrite production measured using stimulated AM was typically It is concluded that the limited nitric oxide production of human macrophages in vitro can neither be explained by limited availability of L-arginine, nor by nitric oxide synthase inhibiting substances in foetal serum. Furthermore, it is shown that nitrite release from N omega -hydroxy-L-arginine by alveolar macrophages is nitric oxide synthase independent

    Apocynin inhibits peroxynitrite formation by murine macrophages

    No full text
    1 Peroxynitrite (ONOO-) the highly reactive coupling product of nitric oxide and superoxide, has been implicated in the pathngenesis of an increasing number of (inflammatory) diseases. At present, however. selective peroxynitrite antagonizing agents with therapeutic potential are not available. Therefore, the NADPH-oxidase inhibitor apocynin (3-hydroxy-3-methoxy-acetophenone) was tested for its ability to inhibit peroxynitrite formation in vitro. 2 The murine macrophage cell-line J774A.1, stimulated with IFN gamma/LPS, was used as a model. Conversion of 123-dihydrorhodamine (123-DHR) to its oxidation product 123-rhodamine was used to measure peroxynitrite production. 3 Stimulated peroxynitrite formation could be completely inhibited by apocynin, by the superoxide scavenger TEMPO as well as by the nitric oxide synthase inhibitor aminoguanidine. Apocynin and aminoguanidine specifically inhibited superoxide and nitric oxide formation respectively as confirmed by measuring lucigenin enhanced chemiluminescence and nitrite accumulation. 4 It is concluded that J774A.1 macrophages produce significant amounts of peroxynitrite, which is associated with nitric oxide production and NADPH-oxidase dependent superoxide formation. The NADPH-oxidase inhibitor apocynin proved to be a potent inhibitor of both superoxide and peroxynitrite formation by macrophages, which may be of future therapeutic significance in a wide range of inflammatory disorders
    corecore