INHALATION DRUG DELIVERY ARTICLES
Organic Impurities: New Draft ICH Q3E Guidance For Leachables And Extractables
A new draft guidance document from ICH, issued jointly with the EMA, adopts the position that the assessment of leachables and extractables requires a holistic framework for risk evaluation.
INHALATION DRUG DELIVERY VIDEOS
See how an amorphous solid dispersion (ASD) of acalabrutinib was designed using in vitro studies and in silico modeling. Understand how ASD formulations can enhance bioavailability.
Can a diligent focus on patient safety during combination product development inadvertently lead to missed opportunities for device use enhancements? 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, discusses ways to keep the organization focused on developing quality products that enhance user adoptability while also mitigating user-related harm.
In this segment of the Drug Delivery Leader Live online event, Innovations In Drug Delivery: Opportunities For Enhancing Familiar, Mature Approaches, panelists Carolyn Dorgan and Courtney Evans from delivery device consultancy Suttons Creek talk with host Fran DeGrazio about factors creating challenges and opportunities in moving patients to on-body injectors (OBIs) and other wearable drug delivery systems.
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.
INHALATION DRUG DELIVERY RESOURCES
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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-1299873218-lab]( "Improve Solubility And Spray Drying Throughput For Brick Dust Compounds")
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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![iStock-1191189866-lung-inhalation-skeleton-respiratory]( "Expanding Opportunities For Inhaled Drug Delivery")
Review the challenges and intricacies of effectively delivering drugs to the lung and the advantages of using nanoparticles and gentle particle processing techniques to enable delivery of sensitive drugs.
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![GettyImages-1206035004-spectroscopy-lab]( "Application Of Nano-Emulsion Technology To Address Unmet Medical Needs: A Case Study Of Clopidogrel IV By 505(b)(2) Pathway")
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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![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-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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![drug-delivery-GettyImages-1156884561]( "The Gateway Delivery To The Brain")
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.
INHALATION DRUG DELIVERY SOLUTIONS
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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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![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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![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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![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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![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-1392016982 business meeting]( "Medical Device Technical Due Diligence")
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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![OFM]( "Pharmaceutical Filling System For Non-Injectable Products: Ophthalmic, Nasal Sprays, Syrups: OFM")
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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![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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![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.
