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 RESOURCES
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To mitigate inherent risks like inconsistent dosing, user error, and low adoption due to complex usage procedures, technological innovation in delivery devices is best guided by lessons from the past, including user feedback and follow-on learnings from market data.
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This report discusses the benefits of the αeolus technology, a passive, high-performance, high-consistency dry powder inhaler platform concept, and the preliminary performance data from early-stage 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.
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Explore an integrated service package designed to simplify and accelerate the development pathway, even for APIs with challenging properties such as low aqueous solubility and poor bioavailability.
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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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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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Spray drying of amorphous dispersions improves solubility and bioavailability, enabling supersaturation in the intestine and driving higher absorption rates when compared to crystalline drug forms.
INHALATION DRUG DELIVERY SOLUTIONS
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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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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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By partnering with Battelle, your organization can reduce risks and save on investment costs, leading to more successful and sustainable outcomes.
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Developing an optimized formulation tailored to your API nanoparticles is critical to unlocking their full potential.
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Integrated device assembly, labeling, and packaging solutions streamline pharma delivery, ensuring compliance, scalability, and patient-centric design from clinical trials to commercial production.
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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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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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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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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.