INHALATION DRUG DELIVERY ARTICLES
Improving Execution Of Biological Evaluation Of Drug Delivery Devices
This article provides a framework to streamline the biological safety assessment process, reduce testing burdens, and improve patient safety for combination products.
INHALATION DRUG DELIVERY RESOURCES
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By transitioning to alternative solvents or leveraging process aids, the challenges associated with the use of these chemicals can be addressed, helping create a sustainable, greener footprint.
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Combination therapies delivered directly to the lung by dry powder inhalants are an effective means of reducing patient burden. Read about case studies that illustrate the potential for improving care.
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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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Review a process where the insoluble and unstable free-base form of clopidogrel is converted to a form with acceptable drug loading and is protected from chemical degradation.
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Discover how patient-centric design principles can improve the development of medical devices. By focusing on user needs and behaviors, manufacturers can ensure that products align with expectations.
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Combination products provide significant avenues for increasing patient adherence and overall efficacy. This collection outlines the opportunity and identifies strategies for gaining regulatory approval.
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Everything from glass or plastic bottles to the ink used in labels can leach unwanted contaminants. The first challenge chemists address is to narrow the focus on the most likely suspects.
INHALATION DRUG DELIVERY SOLUTIONS
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Human‑relevant models deliver greatest value with clear questions, rigorous execution, and confident interpretation — turning innovation into trusted evidence for development and regulatory decisions.
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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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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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Our integrated capabilities and vast knowledge encompasses pre-formulation sciences, formulation development, device evaluation, clinical trial manufacturing and the clinical assessment of a variety of inhaled formats for nasal and pulmonary delivery.
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Weiler Engineering’s ASEP-TECH® Blow/Fill/Seal machines are ideal for processing temperature sensitive products such as biological and protein-based materials – providing a level of enhanced sterility assurance.
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An overview of analytical capabilities to boost product quality, meet regulatory expectations, and drive development through phase‑appropriate methods and specialized testing for complex drug programs.
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A focused look at how low‑GWP propellant technologies support sustainability goals while preserving inhaler performance, offering guidance for planning regulatory readiness, device compatibility, and long‑term respiratory portfolio strategy.
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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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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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See key inhalation platforms and their advantages, showing how targeted delivery, formulation flexibility, and patient-friendly design support efficient development and stronger therapeutic outcomes.