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 VIDEOS
In this segment of the Drug Delivery Leader Live online event, Just Breathe: Increasing Efficacy And Expanding Targets With Inhalation Delivery, panelists David Morton, Geraldine Venthoye, Stephen Stein, and Nani Kadrichu comment on the current state of innovation, platform technologies, supplier consolidation, and the role of CDMOs in the inhalation drug delivery industry.
Among the characteristics of a device design feature that helps identify it as an Essential Drug Delivery Output (EDDO) is “device dependent.” In this segment of the Drug Delivery Leader Live event The FDA Guidance on EDDO: What to Know, What to Do, consultant Susan Neadle of Combination Products Consulting Services, LLC explains the differences between the concepts of device-dependent versus device-independent and illustrates why only the former is applicable to an EDDO.
In this episode of Sit and Deliver, host Tom von Gunden talks with Merck VP of Pharmaceutical Sciences and Clinical Supply Allen Templeton about formulation and device considerations for combination products and other delivery systems deployed across a range of molecule types and sizes. The conversation takes them from small molecules, through peptides and mAbs, to large molecule biologics, across various routes of administration including oral, injectable, and inhalation.
In this segment of the Drug Delivery Leader Live event EDDOs Revisited: Putting Essential Drug Delivery Outputs Into Practice, consultant Susan Neadle of Combination Products Consulting Services, LLC, and Alan Stevens, regulatory head of complex devices and drug delivery systems at AbbVie, use a hypothetical case study for an on-body injector (OBI) to demonstrate a template for identifying EDDOs.
INHALATION DRUG DELIVERY RESOURCES
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![Computational Science: Disruption In Biopharma Discovery]( "Formulation Research Strategy For Discovery- Stage New Drug Candidates")
Early stage formulation studies, which should support the emerging target product profile, will often yield important experimental results to aid subsequent development of clinically relevant dosage forms.
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![GettyImages-528041162-lab-testing]( "Simultaneous Spray Drying For Large/Small Mol Combinations")
Gain insights into a “simul-spray” process pioneering for combining small and large molecules into a single, atomized drug product for inhalation administration.
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![iStock-474771466-inhaler-inhale]( "Understanding The In-Vitro/In-Vivo Relationship (IVIVR): Inhaled Medicinal Products")
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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![GettyImages-1321279050-inhaler-inhalation-breathe-lungs]( "Six Inhaler Sustainability Myths – And Why They Must Be Busted")
The solution to the carbon footprint of respiratory disease is complicated. The prevailing “myths” must be examined and addressed to achieve the shared industry vision of a decarbonized inhaler market.
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![GettyImages-995087800-lab]( "Drug Formulation Development: Quick Reference Guide")
This guide shares the steps involved in formulation development, considerations during formulation, and how partnering with an experienced CDMO can lead to a successful commercial product.
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In a recent webinar, Lonza discussed the process it uses to develop a spray dried powder formulation and scale from early feasibility studies to manufacturing.
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![science drug development data iStock-1209661917]( "Is Your Combination Product Drug-Led Or Device-Led?")
The $118 billion combination-product market is projected to increase at a CAGR of 8.8%. This article answers the question: “Is this actually a combination product? What do we need to do if it is?”
INHALATION DRUG DELIVERY SOLUTIONS
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![Nasal spray, allerfies, common cold-GettyImages-2147519597]( "Nasal Drug Delivery")
How integrated analytics, formulation, and manufacturing enable fast‑acting, noninvasive nasal therapies while helping teams align delivery needs, regulations, and performance goals.
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![iStock-474771466-inhaler-inhale]( "Inhaled Product Development")
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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![Biological drug products]( "Blow/Fill/Seal Packaging Systems")
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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![Blow Fill Seal Packaging]( "Blow-Fill-Seal Packaging Systems For Large Volume Nebulizers And Humidifiers")
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.
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![scientist in lab microscope-GettyImages-1867575565]( "NanoImprove The Performance Of Your Biologic Formulation")
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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![pulmonary-GettyImages-2148494976]( "Pulmonary")
See key inhalation platforms and their advantages, showing how targeted delivery, formulation flexibility, and patient-friendly design support efficient development and stronger therapeutic outcomes.
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![Syringes-injectables=tablets-GettyImages-1353657651]( "Combination Products")
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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![GettyImages-884796056-solubility-test-pill]( "Pharmaceutical Development")
Developing an optimized formulation tailored to your API nanoparticles is critical to unlocking their full potential.
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![Working on testing machine]( "Organ On A Chip: Advancing New Approach Methodologies")
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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![GettyImages-1600719545 lab]( "Innovative Formulations And Higher Drug Loads Across The Life-Cycle")
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.
