INJECTABLE DRUG DELIVERY ARTICLES
New Regulatory Considerations For Animal Testing And The Consequences For Drug Product Formulation Development
The U.S. is experiencing a shift in the regulatory environment for animal testing, driven by the evolving use of AI. This impacts the formulation development approach for new drugs in the non-clinical phase.
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A review of the draft guidance and importance of component selection as it relates to establishing a risk-based approach and the role of the NovaPure product line in component selection.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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![Telehealth virtual ipad elderly]( "Hospital To Home: What It Means For Patients, Providers And Medical Devices")
Healthcare is shifting homeward. With telehealth, connected devices, and user-friendly design, patients and caregivers now deliver hospital-level care safely and effectively outside clinical settings.
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![GettyImages-1284529278-syringe-pre-filled-PFS]( "How To Protect A Modern Silicone Oil-Sensitive Biologic Drug For Self-Injection Of 2.25mL")
A customer experienced expensive project delays when they selected their “tried and tested” large volume, glass syringe system to package a drug to be used in an auto-injector for self-administration.
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![Design Verification Testing of Combination Products]( "Design Verification Testing Of Combination Products")
Developing a combination product and seeking a list of tests to complete design verification testing? Review the details for planning, design inputs, design outputs, and design verification.
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![GettyImages-1191463139-lab-test-tube-experiment]( "Steps To Overcome Challenges Associated With Biologic Formulation Development")
Explore guidance on the challenges posed by biologics, including overcoming degradation, establishing a stress test process, and the value of lipid nanoparticles (LNPs) and polymeric nanoparticles (NPs).
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![GettyImages-1306440102-sterile-injectable-syringe]( "Supporting The Unique Needs Of Your Sterile Injectable")
Leveraging the experience and specialized technology of a reliable CDMO partner is essential to ensure your sterile injectable therapeutic's safety and quality while delivering at speed.
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![GettyImages-597935610 cell and gene]( "Delivering The Promise Of Gene Therapy")
Gene therapies rely on efficient, precise methods of delivering genetic material. Examine how combining polymeric nanoparticles with CRISPR therapies is increasing the potential for improved treatment.
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![Vials pharma manufacturing GettyImages-618518692]( "Comparing Vial Container Closure Systems")
Examine a case study where two 20mm vial CCSs were compared using the DeltaCube™ Modeling Platform and experimentally show the link between prediction and real performance.
INJECTABLE DRUG DELIVERY SOLUTIONS
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![ASEPTiCell]( "Isolator Barrier Pharmaceutical Aseptic Filling Systems")
ASEPTiCell is integrated with isolator-barrier technologies to fully enclose and tightly control the aseptic environment for ideal conditions for processing sterile drug products. The system can be configured with a Restricted Access Barrier System (RABS) or an aseptic isolator to provide uninterrupted aseptic conditions during production. With isolator integrated systems, the ASEPTiCell is completely compatible with repeated in-situ bio-decontamination using hydrogen peroxide to further enhance the sterility assurance of the system.
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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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![GettyImages-875547540-Auto_Injector_Parenteral]( "Commercial Autoinjector Capabilities")
Innovative technologies in the pharmaceutical industry are enabling a patient-centric approach in medicine. Auto-injectors provide an easy, convenient drug-delivery system for patient self-administration — improving compliance and dosage accuracy.
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![DD 1 - GCAPP_Valor size 2 Vial]( "The Future Of Glass Packaging Is Here")
Review the potential of Corning Valor® Glass to optimize the fill/finish process and reduce total cost of quality as well as overall manufacturing cost.
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![GettyImages-827582436-lab-samples-work-PPE]( "Sterile Fill-Finish Facility: Your Integrated Partner For Customized Clinical Supplies")
Syngene's Sterile Fill-Finish facility is custom-built to meet market demand for clinical supplies, sterile drug products having short development timelines,
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![BIMI]( "Aseptic Filling System For Pharmaceuticals: BI-MI")
Rotary filling, stoppering/tip placement/pump inserting and crimping or closing machine for bottles and vials up to 6000 u/h. The system is compatible with RABs or isolator enclosures. The system is able to work with stainless steel or ceramic rotary piston pumps or peristaltic pumps. Systems are available for manual or semi-automatic debagging, manual, semi-automatic or automatic delidding for pre-sterilized glass as well as cleanroom unscrambler’s for ophthalmic containers. Systems are 21 CFR Part 11 and audit trail compatible.
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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.
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![GettyImages-2176475661 tabet press, pharma manufacturing]( "Streamlining The Generic Combination Device Design Assessment Process")
A new six-phase assessment process simplifies regulatory approval for generic drug-device combination products, reducing costs and timelines while maintaining safety, effectiveness, and substitutability with reference-listed drugs.
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ArQ is built around our primary cyclic olefin copolymer (COC) drug container. It offers an autoinjector that is simple to use, with the flexibility and ability to deliver a wide range of viscosities and volumes.
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Subcutaneous
Low - Medium Viscosities
< 100 cP
1 - 10 mlHigh - Ultra-High Viscosities
>100 - 10,000 cP
0.5 - 3 mlArQ® - Bios offers a small, simple to use package to deliver high viscosity formulations. Oval’s proprietary COC PDC technology allows us to build the device around a stronger drug container that can deliver 1ml of formulations up to 1000cP through a 25G needle in less than 5 seconds. The ArQ-Bios platform also can deliver greater volumes than 1 ml subject to matching the formulation characteristics with acceptable patient tolerability.
