INJECTABLE DRUG DELIVERY ARTICLES
Reassessing Nanoparticle Immunotoxicity: From Well-Established To Novel Approaches
This article highlights government-funded resources available to de-risk nanomedicines, reviews principles of immunotoxicity testing, and discusses emerging methodologies.
INJECTABLE DRUG DELIVERY RESOURCES
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Dual-chamber syringes (DCSs) are in high demand across the pharmaceutical and hospital industries. Learn about the challenges of the DCS filling manufacturing market and how to overcome them.
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The challenges of silicone-oil lubrication and the growing trend for more viscous, protein-based drugs are now leading pharma and biotech companies to investigate alternative solutions.
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Minimize the risks of accelerated drug development processes and the potential use of new vaccine platform technologies with the use of an elastomer plunger laminated with FluroTec™ barrier film.
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Explore the rationale behind opting for a contract development organization (CDO) to fulfill organizational requirements and underscore vital considerations for evaluating CDOs to ensure alignment with your project objectives.
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Since physical structure and biological activity are directly linked, controlling the physical form of a compound is paramount to a final drug product’s quality and effectiveness.
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Growing use of large‑volume subcutaneous therapies is increasing demand for wearable injectors that reduce user error, simplify preparation, and enhance safety through human‑factors‑focused design.
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Examine considerations regarding the handling and process for fill/finish to ensure the stability and purity of your vaccine as well as limit unnecessary waste and cost.
INJECTABLE DRUG DELIVERY SOLUTIONS
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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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More than a service provider, we act as an extension of your team, accelerating your drug’s journey from late-stage clinical development to commercial supply.
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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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A wearable subcutaneous injector is being developed to support delivery of large‑volume, complex biologic therapies, expanding options for patients needing advanced at‑home administration.
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Accelerate sterile injectable development with expert support, advanced facilities, and tailored solutions for complex APIs — from formulation through commercialization across small molecules and biologics.
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Learn how our team of scientists, engineers, and human-centered designers, as well as our world-class facilities, empower us to confidently guide your product toward a successful market launch.
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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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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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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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Ascendia specializes in the development of market suitable formulations for poorly water soluble drug substances. Based on the pre-formulation data package and the delivery requirements for the product, we recommend a comprehensive formulation development strategy. We understand that each formulation is unique and must address the specific challenges associated with poor solubility, inadequate bioavailability, and/or unacceptable physical/chemical stability. We also understand the urgency companies have for progressing their pipeline, and our approach maximizes the probability of success by exploring multiple formulation options in parallel if necessary.