Ramona Jeitler scite author profile

The therapeutic effect of common ocular drug delivery systems is often limited because tear fluid, protective biological barriers, and the blink reflex prevent drugs from reaching their target. Combining nanodrug delivery systems with contact lenses is one approach to increase the precorneal residence time and thus the drug concentration in the eye. Hence, the aim of this study was to selectively print itraconazole (ITZ) nanocrystals on commercially available 1 day soft hydrogel contact lenses using inkjet printing. For this, ITZ nanocrystals stabilized with Poloxamer 407 were prepared and optimized via wet media milling. After careful characterization, the nanocrystals were printed into vials, the printing process was adjusted, and the characteristics of the nanoformulation after printing were investigated. Finally, nanocrystals were printed onto hydrogel contact lenses. By performing a concise design of experiments (DoE), stable nanocrystals with a size of approximately 200 nm, a narrow particle size distribution, a negative surface charge, and an almost spherical shape were obtained. Compared to the bulk material, the apparent solubility was significantly increased and no changes in the solid-state behavior occurred. It was further demonstrated that inkjet printing did not affect the characteristics of the nanocrystals. Multiple layers of the ITZ nanoformulation were printed on soft hydrogel 1 day contact lenses, and a dual drug release profile was obtained in simulated tear fluid. These results clearly show that printing on contact lenses is a promising application for ophthalmic drug delivery.

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Cytokine-Mediated Inflammation in the Oral Cavity and Its Effect on Lipid Nanocarriers

Tetyczka

Hartl

Jeitler

et al. 2021

Nanomaterials

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Topical drug administration to the oral mucosa proves to be a promising treatment alternative for inflammatory diseases. However, disease-related changes in the cell barrier must be considered when developing such delivery systems. This study aimed at investigating the changes in the lining mucosa caused by inflammation and evaluating the consequences on drug delivery systems such as nanostructured lipid carriers (NLC). For this, TR146 cells were treated with inflammatory cytokines and bacterial components. Cell viability and integrity, reactive oxygen species (ROS), and interleukin (IL)-8 release were used as endpoints to assess inflammation. Translocation of phosphatidylserine, cytoskeletal arrangement, opening of desmosomes, and cell proliferation were examined. Transport studies with NLC were performed considering active and passive pathways. The results showed that IL-1ß and tumor necrosis factor α induced inflammation by increasing IL-8 and ROS production (22-fold and 2-fold). Morphologically, loss of cell–cell connections and formation of stress fibers and hyperplasia were observed. The charge of the cell membrane shifted from neutral to negative, which increased the absorption of NLC due to the repulsive interactions between the hydrophobic negative particles and the cell membrane on the one hand, and interactions with lipophilic membrane proteins such as caveolin on the other.

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Investigation of Cellular Interactions of Lipid-Structured Nanoparticles With Oral Mucosal Epithelial Cells

Jeitler

Glader

Tetyczka

et al. 2022

Front. Mol. Biosci.

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Lipid-based nanosystems enable intracellular delivery of drugs in the oral cavity for the treatment of local diseases. To rationally design such systems, suitable matrix compositions and particle properties need to be identified, and manufacturing technologies that allow reproducible production have to be applied. This is a prerequisite for the reliable and predictable performance of in-vitro biological studies. Here, we showed that solid lipid nanoparticles (SLN, palmitic acid) and nanostructured lipid carriers (NLC, palmitic acid and oleic acid in different ratios) with a size of 250 nm, a negative zeta potential, and a polydispersity index (PdI) of less than 0.3 can be reproducibly prepared by high-pressure homogenization using quality by design and a predictive model. SLN and NLC were colloidally stable after contact with physiological fluid and did not form agglomerates. The in-vitro studies clearly showed that besides particle size, surface charge and hydrophobicity, matrix composition had a significant effect. More specifically, the addition of the liquid lipid oleic acid increased the cellular uptake capacity without changing the underlying uptake mechanism. Regardless of the matrix composition, caveolin-mediated endocytosis was the major route of uptake, which was confirmed by particle localization in the endoplasmic reticulum. Thus, this work provides useful insights into the optimal composition of lipid carrier systems to enhance the intracellular uptake capacity of drugs into the oral mucosa.

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Assessment of Carbon Nanotubes on Barrier Function, Ciliary Beating Frequency and Cytokine Release in In Vitro Models of the Respiratory Tract

et al. 2023

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The exposure to inhaled carbon nanotubes (CNT) may have adverse effects on workers upon chronic exposure. In order to assess the toxicity of inhaled nanoparticles in a physiologically relevant manner, an air–liquid interface culture of mono and cocultures of respiratory cells and assessment in reconstructed bronchial and alveolar tissues was used. The effect of CNT4003 reference particles applied in simulated lung fluid was studied in bronchial (Calu-3 cells, EpiAirway™ and MucilAir™ tissues) and alveolar (A549 +/−THP-1 and EpiAlveolar™ +/−THP-1) models. Cytotoxicity, transepithelial electrical resistance, interleukin 6 and 8 secretion, mucociliary clearance and ciliary beating frequency were used as readout parameters. With the exception of increased secretion of interleukin 6 in the EpiAlveolar™ tissues, no adverse effects of CNT4003 particles, applied at doses corresponding to the maximum estimated lifetime exposure of workers, in the bronchial and alveolar models were noted, suggesting no marked differences between the models. Since the doses for whole-life exposure were applied over a shorter time, it is not clear if the interleukin 6 increase in the EpiAlveolar™ tissues has physiological relevance.

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In-vial printing and drying of biologics as a personalizable approach

Fiedler

Alva

Pinto

et al. 2022

International Journal of Pharmaceutics

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Ramona Jeitler

Itraconazole Nanocrystals on Hydrogel Contact Lenses via Inkjet Printing: Implications for Ophthalmic Drug Delivery

Cytokine-Mediated Inflammation in the Oral Cavity and Its Effect on Lipid Nanocarriers

Investigation of Cellular Interactions of Lipid-Structured Nanoparticles With Oral Mucosal Epithelial Cells

Assessment of Carbon Nanotubes on Barrier Function, Ciliary Beating Frequency and Cytokine Release in In Vitro Models of the Respiratory Tract

In-vial printing and drying of biologics as a personalizable approach

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