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Nipro - Glass Tubing - Clear

Glass tubing

Nipro is one of the largest manufacturers of pharmaceutical glass tubing. Our high-quality and strong customer centric approach make us the supplier of choice of many leading converters. Three plants on three continents provide supply assurance and enable local production. Strict quality systems, compliant to ISO 15378, IS0 14001, ISO 50001, and ISO 45001, control all processes. Our glass tubing fulfills all requirements of the prevailing Pharmacopoeia (EP, USP, JP). We provide personalized guidance and manufacture glass tubing best suited for your packaging needs.

D2F™ Pre-fillable Glass Syringes

Nipro is highly experienced in the development and production of Direct-to-Fill (D2F™) pre-fillable glass syringes for the pharmaceutical industry. Our advanced syringe plant incorporates cutting-edge manufacturing and inspection technologies. We offer D2F™ glass syringes in three quality levels: ENABLE, ENHANCE, and ENGAGE, each tailored to meet specific drug product standards and service needs. Our knowledgeable cross-functional team will assist you in selecting the ideal syringe that aligns with your requirements.

Vials

Nipro vials offer precise dimensional and pristine cosmetic quality. The carefully controlled specifications contribute to reliable fill-finish operations. Nipro’s proprietary VIALEX™ technology offers exceptional glass surface durability for highly sensitive drug products. Choose between ENABLE, ENHANCE, and ENGAGE quality to match your drug product and service level requirements.

Cartridges

Glass cartridges are frequently incorporated into diabetes pens and dental injection systems. Nipro PharmaPackaging cartridges meet the high-quality requirements of the pharmaceutical industry. Depending on your drug product requirements, ENABLE, ENHANCE, or ENGAGE cartridges will be the optimal choice.

Ampoules

Economical and well-proven, glass ampoules are a frequently selected primary packaging type by the pharmaceutical industry. Nipro offers a wide range of high-quality ampoules.

Medical Devices

Choose from a selective range of high-quality medical devices that facilitate drug reconstitution and administration.

Laboratory Services

Optimizing your packaging characteristics.

Highlights

Nipro PharmaPackaging - D2F Pre-fillable Glass Syringe - Silicone oil-free

D2F™ Pre-fillable Glass Syringe System - Silicone Oil-Free

Nipro's D2F™ Pre-fillable Glass Syringe - Silicone Oil-Free is a solution for drug products highly sensitive to silicone oil. The key quality attributes that are impacted by the absence of silicone have been tested thoroughly and the results confirm the excellent performance of the D2F™ Pre-fillable Glass Syringes - Silicone Oil-Free

Ampoules with ACT

Nipro ampoules with anti-counterfeit technology (ACT) support to prove drug product authenticity. Special ink that contains light emitting particles is used for the print on the ampoule.

VIALEX™

The VIALEX™ technology mitigates the effects from the converting process on the inner glass surface of vials twofold. It reduces the sodium concentration and improves the inner glass surface which leads to less interactions of drug molecules and formulations with the inner glass surface, lower pH shift, reduced risk of glass delamination , and an optimized lyophilization process (less fogging).

ENHANCE Biotech Products

Nipro’s eNhance quality level is based on years of experience supporting leading (bio)pharmaceutical companies, partnering to develop and manufacture high-end glass containers that meet the challenging requirements of highly sensitive drug products.

Frequently Asked Questions (FAQs)

What is pharmaceutical packaging?

Medicines such as vaccines and antibiotics are stored in pharmaceutical packaging. Pharmaceutical Packaging must comply with regulatory requirements set by health authorities to ensure product safety, efficacy, and quality. The packaging protects the pharmaceutical product from physical, chemical, and biological damage during handling, transportation, and storage throughout the entire shelf life. 

Why is pharmaceutical packaging important?

Pharmaceutical packaging serves as a barrier to protect pharmaceutical products from physical, chemical, and biological damage during handling, transportation, and storage. Proper packaging is essential for maintaining the quality and efficacy of pharmaceutical products.

What are the different types of pharmaceutical packaging?

There are several types of pharmaceutical packaging and each type of packaging serves specific functions in protecting, identifying, and providing information about pharmaceutical products throughout their lifecycle.

  • Primary Packaging:

The container is in direct contact with the pharmaceutical product, such as bottles, ampoules, vials, blister packs, prefilled syringes, and inhalers.

  • Secondary Packaging:

Outer packaging that provides additional protection and information about the product, including cartons, boxes, and labels.

  • Tertiary Packaging:

Bulk packaging used for transportation and storage of multiple units of primary or secondary packaging, such as shipping containers and pallets.

What is a "primary" pharmaceutical packaging?

Primary packaging refers to the container that comes into direct contact with the pharmaceutical product. Its purpose is to safeguard the integrity, stability, and sterility of the pharmaceutical product throughout the entire process, spanning from manufacturing, through storage, to its ultimate use.

What types of materials are used for pharmaceutical packaging?

Materials used are chosen based on factors such as product compatibility, protection requirements, regulatory compliance, and cost-effectiveness.

  • Plastics: This category encompasses polyethylene, polypropylene, PVC, PET, and HDPE, utilized for crafting bottles, blister packs, and closures.
     
  • Glass: Employed for ampoules, cartridges, syringes, and vials, glass is chosen for its inertness and impermeability.
     
  • Aluminum: Employed for blister packs, foil seals, and closures owing to its barrier properties and light protection.
     
  • Paper and Cardboard: Selected for cartons, inserts, and labels, these materials provide printing surfaces and facilitate information display.
     
  • Laminates: These involve combinations of materials like foil, plastic, and paper to offer specific barrier properties and strength, commonly found in pouches and sachets.
     
What types of glass are used in pharmaceutical packaging?

Various types of glass possess distinct properties that render them suitable for diverse pharmaceutical packaging applications, contingent on factors such as drug compatibility, regulatory requirements, and cost-effectiveness.

  • Type I Glass: Borosilicate glass, given its outstanding chemical resistance and low alkalinity, is the preferred choice for packaging injectable medications.
  • Type II Glass: Soda-lime glass is frequently used for oral medications such as tablets and capsules.
  • Type III Glass: Soda-lime-silica glass is suitable for non-parenteral applications, such as topical medications and ointments.
     
Why is glass commonly used for pharmaceutical packaging?

There are many reasons that glass is a preferred material for pharmaceutical packaging. These include its chemical inertness, exceptional barrier properties against moisture and light, transparency facilitating visual inspection of contents, recyclability, versatility, and compliance with regulatory standards for safety and stability.

What are the different sterilization methods for glass primary packaging?

Each sterilization method has distinct advantages and limitations. The method chosen depends on factors such as the nature of the product, packaging materials, regulatory requirements, and compatibility with sterilization conditions.

  • Autoclaving: Glass containers undergo exposure to high-pressure steam at temperatures typically ranging between 121°C to 134°C for a specified duration, effectively killing microorganisms.
     
  • Dry Heat Sterilization: Glass containers are subjected to elevated temperatures ranging from 160°C to 250°C for a specified duration, achieving sterilization through the oxidative destruction of microorganisms.
     
  • Gamma Irradiation: Glass containers are exposed to ionizing radiation from a gamma radiation source, which damages the DNA of microorganisms and renders them incapable of replication.
     
  • Ethylene Oxide (ETO) Sterilization: Glass containers undergo treatment with ethylene oxide gas in a controlled environment, penetrating packaging materials to eradicate microorganisms. This method required aeration to remove residual gas.
     
How do you ensure the quality of pharmaceutical packaging?

Ensuring the quality of pharmaceutical packaging involves several key steps:

  • Selecting suitable materials that are inert and compatible.
  • Validating packaging designs and sterilization processes.
  • Ensuring compliance with regulatory standards.
  • Implementing quality control testing and assurance systems.
  • Conducting packaging integrity testing.
  • Monitoring environmental conditions to prevent contamination.
     
What are pharmaceutical packaging guidelines?

Pharmaceutical packaging guidelines provide comprehensive instructions and standards for the design, development, testing, and use of packaging materials and systems in the pharmaceutical industry. These guidelines aim to ensure the safety, efficacy, and quality of pharmaceutical products throughout their lifecycle, from manufacturing to distribution and use. Some key pharmaceutical packaging guidelines include:

  • Good Manufacturing Practices (GMP)
  • International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) Guidelines
  • Regulatory Requirements (e.g., FDA, EMA)
  • Pharmacopeial Standards (e.g., USP, Ph. Eur.)
  • ISO Standards
  • Quality Control Testing Guidelines
  • Guidelines for Specific Packaging Types
     
What does "RTU" mean?

"RTU" stands for "Ready-To-Use". It refers to products or materials that are prepared and packaged in a way that they can be used directly without requiring further assembly, mixing, or preparation by the end-user.

What are the advantages of using glass over plastic for pharmaceutical packaging?

Overall, glass offers superior protection, stability, sterility, and recyclability, making it a preferred choice for primary pharmaceutical packaging, especially for sensitive medications that require stringent quality control and protection from external factors.

  • Chemical Inertness: Glass is chemically inert, meaning it does not react with pharmaceutical ingredients. This ensures the stability and purity of medications,  reducing the risk of chemical interactions or contamination.
     
  • Barrier Properties: Glass provides an excellent barrier against moisture, gases, and light, protecting pharmaceutical products from degradation and ensuring their integrity and potency over time.
     
  • Transparency: Glass containers allow for visual inspection of the contents, facilitating quality control, detection of impurities, and accurate dosing.
     
  • Sterility: Glass can withstand high-temperature sterilization methods such as autoclaving, ensuring sterility and reducing the risk of contamination during storage and use.
     
What does "drug reconstitution" mean?

Drug reconstitution refers to the process of combining a medication with a diluent or solvent to prepare a solution for administration. This process is typically necessary for medications that are supplied in a powdered or concentrated form and require dilution before use.
 

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For information regarding Nipro products, services, and resource material: 

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+32 15 263 500
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pharmapackaging@nipro-group.com
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