INHALATION DRUG DELIVERY ARTICLES
Does TSLP Inhibition Signal The Next Wave Of Respiratory Biologics?
Thymic stromal lymphopoietin (TSLP) inhibition has firmly established itself as a strategy in respiratory disease. This article highlights some promising drug candidates and next-generation approaches.
INHALATION DRUG DELIVERY VIDEOS
An increasingly common obstacle to treating patients with infections is resistance to antibiotics. In this episode of Sit and Deliver, CEO William Colton of biologics platform delivery developer Paldara Pharmaceuticals talks with videocast host Tom von Gunden about infection-combatting alternatives using hydrogel-based systems to deliver bacteriophage viral therapeutics directly to infection sites.
Both uFMEA (Use Failure Mode Effects Analysis) and URRA (Use-Related Risk Analysis) tools are available during combination product development for conducting risk assessments related to human factors. In this segment of the Drug Delivery Leader Live event Human Factors Risk Analysis: Leveraging URRA And UFMEA Tools, Natalie, Abts, head of human factors engineering at Genentech, and Shannon Hoste, chief scientific officer at Pathway for Patient Health, discuss scenarios in which a uFMEA might be used to inform a URRA regulatory submission.
What if a formulation that removed the need for cold chain distribution was possible? Explore the formulation of vaccines and manufacturing considerations for dry powder inhaled vaccines.
In this initial episode of The Combination Products Handbook: The Series, a chapter-by chapter videocast series introducing topics from The Combination Products Handbook: A Practical Guide for Combination Products and Other Combined Use Systems (CRC Press, 2023), host Tom von Gunden discusses the book’s intent with its editor, Susan Neadle. The discussion focuses on the rationale for each chapter and the expert contributions of various chapter authors and co-authors.
INHALATION DRUG DELIVERY RESOURCES
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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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![GettyImages-1279969622-self-injector-injection]( "Streamlining The Path To Market For Generic Drug-Device Combinations")
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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![combination]( "Combination Products: Market Trends And Regulatory Considerations")
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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![GettyImages-1413332879 diabetes]( "10 Ways To Align Your Medical Device With Human Factors Industry Best Practices")
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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![Lonza 1]( "Engineering Approaches To Respiratory Drug Delivery")
Explore the material and performance properties of spray-dried and jet-milled mannitol for respiratory delivery of crystalline mannitol.
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![GettyImages-1346675635-lab-tablet-research-team]( "Simultaneous Spray Drying For Innovative Dry Powder Inhaler Combination Formulations")
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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![GettyImages-1213498599-lab-research-microscope]( "Complex Molecules, Complex Problems")
The support of an experienced CDMO is critical to overcoming complexity when working with highly potent APIs and when solving solubility challenges.
INHALATION DRUG DELIVERY SOLUTIONS
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![ulab thumb]( "Battelle uLAB")
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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![lung-health-GettyImages-1360866086]( "Fast-Tracking Healthier Tomorrows For Patients And Our Planet")
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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![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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![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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![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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![iStock-493302504-scientist-lab-development]( "Pre-Formulation And Material Sciences")
Our formulation development and material sciences experts have over 30 years’ experience in pre-formulation and solid state characterization.
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![inhaler-GettyImages-2233485493]( "Pulmonary Drug Delivery")
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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![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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![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.
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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.
