INJECTABLE DRUG DELIVERY ARTICLES
Where Drug Delivery Falls Short And What The Industry Should Do Next
Next-generation drug delivery pairs science with usability, solving adherence by simplifying treatment, aligning patient behavior, and improving poorly tolerated therapies.
INJECTABLE DRUG DELIVERY VIDEOS
Explore primary packaging developed following well-established ICH principles for sustainable compliance and vial container closure systems for product development and commercial manufacturing needs.
Explore the challenges related to packaging of cell and gene therapy products and proven solutions to enable speed to market and compatibility, performance of packaging materials.
Explore some of the more challenging aspects surrounding in-use testing for parenteral delivery along with potential strategies to address these issues.
A review of the draft guidance and importance of component selection as it relates to establishing a risk-based approach and the role of the NovaPure product line in component selection.
INJECTABLE DRUG DELIVERY RESOURCES
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![West]( "Selecting A Vial Container Closure System With The DeltaCube™ Modeling Platform")
Understand a system approach that facilitates data-driven selection and optimization of vial container closure system components.
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![AST- Fill-Finish Automation And Robotics]( "Small-Scale Aseptic Filling Technology Considerations")
Small-scale aseptic filling presents a unique set of challenges. Learn what to look for when evaluating small-scale aseptic filling technology.
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![West]( "Design And Packaging Advantages For Cell And Gene Therapy Drugs")
With the increasing demand for cell and gene therapies, Crystal Zenith nested vials can help the biopharma industry overcome the challenges of scaling up manufacturing and logistics.
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![GettyImages-1066989062-gene-cell-doctor-research]( "Vial Adapter Transfer Device Compatibility With Cell Therapies")
Needles and syringes are commonly used to retrieve cell therapies from vials, posing the risk of needle stick injury. Explore the suitability of needle-free polycarbonate transfer devices.
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![Women using auto-injector syringe-GettyImages-1184225794]( "The Impact Of PFAS Regulations On Drug Delivery Devices")
By adopting a strategic approach and embracing necessary measures, the medical device industry can transform regulatory challenges surrounding PFAS into opportunities for innovation and growth.
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![GettyImages-525062561-syringe-vaccine-injection-subcutaneous]( "Considerations In Formulation Development Of Injectable Solutions")
Injectable solutions offer an alternative to oral dosage form due to fast onset, reproducible PK/efficacy profile, high bioavailability, and suitability of administration under hospital setting.
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![GettyImages-1462345800-robotics-vial-manufacturing]( "Robotics And AI In Pharma: Driving The Next Wave Of Innovation")
Adopting AI and robotics enhance sterility and regulatory compliance and enable real-time decision-making and reduce human-borne contamination, ensuring the safe production of complex therapies.
INJECTABLE DRUG DELIVERY SOLUTIONS
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![West-PFS SYRG-0178 NovaPure]( "An Integrated, Verified PFS System For Vaccines")
A pre-verified delivery platform eliminates redundant testing, simplifies regulatory submissions, and optimizes inventory management, allowing teams to focus on drug-specific performance.
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![Capture]( "Injection Molding")
Capabilities that improve efficiency and accelerate development.
B. Braun's OEM Division offers a variety of in-house molding capabilities including injection molding, insert molding and over molding. They own a primary 400,000-square-foot U.S. plant that includes a 16,500-square-foot ISO Class 8 molding facility housing some of B. Braun’s 80 injection molding presses, which range from 55-330 tons.
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![GettyImages-2098817477-vaccine-needle-syringe-gloved-hands-laboratory]( "BD Neopak™ XtraFlow™ Glass Prefillable Syringe")
A next‑generation injectable system uses shorter, thinner needles to reduce injection risk, lower force and time requirements, and improve comfort and usability for administering viscous formulations.
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![West-DELIV 2 - GC_App_^CZ vial with stopper and seal stack up]( "Proven Vial Containment That Scales From R&D To Commercial")
Speed up your time to market and reduce your risk of selecting individual components that may not work well together by choosing the Ready Pack containment solution.
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![analytical-timelines-GettyImages-2247278213]( "A Comprehensive Approach That's Exceptional By Design")
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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![GettyImages-1938951579-automation-filling-bottles-modern-robot-manufacturing]( "Aseptic Fill Finish")
One of the few CDMOs offering sterile fill, device manufacturing, and final assembly at one site — combining expertise, scale, and flexibility for clinical, commercial, and niche production.
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![cmo-cdmo-drug-discovery-GettyImages-184944030 (1)]( "Meet The Demands Of Today To Help Ensure The Possibility Of Tomorrow")
Emergency‑readiness programs strengthen response with dependable countermeasures, rapid‑action tools, and decades of expertise supporting teams facing chemical, biological, and other high‑risk threats.
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![denesting]( "Pharmaceutical De-Nesting Equipment For Syringes And Cartridges")
The DNS machines are designed for de-nesting pharmaceutical syringes and cartridges in nest without damaging them. Thanks to their precision, you can reach a higher speed and automatically connect the filling machine with the final production system. DNS machines are characterized by: Robotized precise handling of pharmaceutical syringes/cartridges, Automated tub and nest handling, Convenient operation with touch screen, and Secure and efficient recipe management.
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![iStock-640282108-fill-equipment-finish]( "cGMP Aseptic Manufacturing And Sterile Fill-Finish")
Experienced CDMOs will implement a cGMP aseptic manufacturing and sterile fill-finish policy to improve drug bioavailability. Aseptic fill-finish is a process in which the drug product, container, and container closure are sterilized separately and then integrated. Combining the drug, container, and closure in a clean room using special equipment that is self-contained in a sterile environment meets FDA guidelines related to cGMP.
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![West]( "What Does It Take To Guide A Combination Product Down The Path To Regulatory Submission?")
As one pharmaceutical company learned, it takes support from the right partner to create an on-body device that can safely and reliably deliver their medicine—while empowering patients to take control of their own health.
