INHALATION DRUG DELIVERY ARTICLES
Delivery Device Functional Scrutiny: Can You Pass Without The Test?
In this article, Chief Editor Tom von Gunden considers the relationship between regulatory testing and the biopharma industry’s interest in leveraging drug delivery platform technologies to reduce regulatory burden in product development. Tom includes a conversation with guest columnist Doug Mead about waivers on testing in the context of FDA’s guidance on Essential Drug Delivery Outputs (EDDOs).
INHALATION DRUG DELIVERY RESOURCES
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In this article, Fran DeGrazio examines the trend toward dual sourcing of products, components, and materials for drug delivery packaging and systems. She outlines the key differences between single and dual sourcing and makes recommendations about using one versus the other while mitigating supply chain and product quality risk.
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Developing g-DDCPs is a complex and time-consuming process. By using a risk-based approach, manufacturers can streamline the development process and bring g-DDCPs to market more quickly.
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IVIVR modeling leverages in-vitro testing knowledge toward predicting in-vivo testing results, often reducing long-term development costs by facilitating more informed decision-making during drug development.
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Dr. Kimberly Shepard, a principal R&D engineer at Lonza, offered insights on recent innovations pioneered in spray drying. Shepard also discussed spray drying technologies capable of combining small-molecule APIs with biotherapeutic molecules.
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Nose‑to‑brain delivery enables targeted neurological treatment by using direct neural pathways to boost precision and limit systemic exposure, with new formulations and devices driving rapid progress.
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This paper presents three approaches to address poor solubility in organic solvents for spray drying as well as case studies outlining their successful application during development.
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David Lyon, Ph.D., and Molly Adam answer attendee questions from a recent webinar about three enabling technologies designed to improve drug solubility in organic solvents for spray drying.
INHALATION DRUG DELIVERY SOLUTIONS
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Advanced nanotechnology improves biologics with higher drug loads, better stability, new delivery routes, and enhanced performance in injectables, inhalation, and long‑acting therapies.
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Unlock superior performance for peptides and proteins using nanotechnology. Achieve high drug loads for subcutaneous delivery and stable, aerodynamic dry powders for deep-lung inhalation.
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Learn how our team of scientists, engineers, and human-centered designers, as well as our world-class facilities, empower us to confidently guide your product toward a successful market launch.
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Explore new approach methodologies, integrating in vitro and computational models to improve toxicology testing, and drug development, enhancing accuracy, efficiency, and human relevance.
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Kymanox provides turnkey services to bring your product from concept to commercialization — and helps keep your product on the market. Kymanox has expertise in injectables (e.g., syringes, mechanical and electromechanical autoinjectors, wearable injectors, dual chamber systems, reconstitution systems), respiratory combination products (e.g., metered dose inhalers, dry powder inhalers, nasal sprays), and in ocular products (e.g., multi-dose containers, single-use injectables).
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Advanced particle engineering enhances the performance and life-cycle of therapeutics. Superior bioavailability, higher drug load, and improved stability are enabled for small and large molecules.
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OFM automatic filling and closing machines are designed for pharmaceutical formulations, such as syrups, ophthalmic products, and nasal sprays either in glass or plastic containers.
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This comprehensive suite of services encompasses the entire spectrum of user research, starting from the conceptualization of study designs to meticulous data analysis and comprehensive reporting.
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Modern inhalation platforms, improved formulations, and greener propellants speed development and strengthen respiratory performance, with key factors guiding device choice and clinical readiness.
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Large volume humidifiers and nebulizers – typically in sizes from 250 – 1000mL – can be specifically designed to fit existing delivery devices. Custom designs to facilitate the control of humidification in oxygen delivery can be developed.