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Related Concept Videos

Biopharmaceutical Factors Influencing Drug Product Design: Overview01:22

Biopharmaceutical Factors Influencing Drug Product Design: Overview

Rational drug product design integrates knowledge of the drug’s physicochemical properties, formulation components, manufacturing techniques, and intended route of administration. Each factor influences the drug’s performance, including how it is released, absorbed, and eliminated in the body.The physicochemical properties of a drug—such as solubility, stability, and particle size—affect its compatibility with excipients and the choice of dosage form. Excipients, though pharmacologically...
Formulation and Manufacturing Process: Physical Attributes of Generic Tablets and Capsules01:18

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Bioequivalence in generic drugs, such as tablets and capsules, refers to their pharmaceutical equivalence to the brand-name counterparts. However, for therapeutic equivalence, manufacturers must also consider physical attributes like size, shape, and weight (FDA Guidance for Industry, December 2003). Discrepancies in these aspects could impact patient compliance and cause medication errors. For instance, swallowing difficulties, often experienced with larger tablets or capsules, can lead to...
Parenteral Drug Delivery Systems: Injectables, Implants, and Infusion Devices01:28

Parenteral Drug Delivery Systems: Injectables, Implants, and Infusion Devices

Parenteral drug delivery systems play a crucial role in modern therapeutics by enabling the direct administration of drugs into the systemic circulation, bypassing the gastrointestinal tract. These systems are particularly valuable for poorly absorbed oral medications that are unstable in the digestive environment or require rapid onset or sustained therapeutic levels. Delivery is achieved through intravenous, intramuscular, or subcutaneous routes, each selected based on the drug's properties...

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Related Experiment Video

Updated: Jun 21, 2026

Manufacturing of Three-dimensionally Microstructured Nanocomposites through Microfluidic Infiltration
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Advanced Manufacturing, Modeling And Analytical Tools In Injectable Products.

Howard Stamato1, Maxwell Korang-Yeboah2, Jyothi Rangineni3

  • 1SSL, Califon, NJ, USA. Howard@StamatoSolutions.com.

Pharmaceutical Research
|February 26, 2025
PubMed
Summary
This summary is machine-generated.

Advancements in pharmaceutical manufacturing enhance injectable drug production and delivery. This review explores trends in advanced manufacturing for improved medicine accessibility and treatment efficacy.

Keywords:
advanced manufacturinglyophilizationmodelingparenteral productsprocess analytical technology

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Area of Science:

  • Pharmaceutical Sciences
  • Biotechnology
  • Manufacturing Engineering

Background:

  • Despite progress, challenges remain in medicine accessibility and advanced disease treatments.
  • Recent technological innovations accelerate the development, production, and delivery of novel therapeutics.
  • The National Institute for Pharmaceutical Technology and Education convened experts to evaluate current advancements.

Purpose of the Study:

  • To provide a perspective on recent trends in advanced manufacturing of injectable pharmaceutical products.
  • To offer insights for pharmaceutical manufacturers to implement improvements based on technological progress.

Main Methods:

  • Review of recent trends in advanced manufacturing technologies for injectable drugs.
  • Synthesis of expert perspectives from academia, industry, and regulatory authorities.

Main Results:

  • Emerging technologies are transforming the production, characterization, data collection, and delivery of injectable medicines.
  • Significant opportunities exist for manufacturers to leverage these advances for enhanced product quality and patient access.

Conclusions:

  • Continued innovation in advanced manufacturing is crucial for improving pharmaceutical product effectiveness and availability.
  • Adoption of new technologies can lead to substantial improvements in drug development and patient care.