Blogs CCIT

20
Jan 2022

MicroCurrent HVLD for Testing the Integrity of Ampoules

MicroCurrent HVLD for Testing the Integrity of Ampoules

Pharmaceutical package integrity testing has always been an important aspect of the quality control and manufacturing process. Container Closure Integrity is critical for protecting the product throughout its lifespan until it is delivered to the patient. CCIT uses non-destructive inspection technologies for ensuring container closure integrity of vials, ampoules, syringes, cartridges, and auto-injectors.

Ampoules must be properly sealed since any crack or defect might contaminate the sterile substance inside. Microbial contamination, exposure to gases, water vapor, and solvent loss can all cause product degradation if there is any breach in the package. Hence, container closure integrity is an essential stage in the lifecycle of a sterile pharmaceutical product. Patients may be at risk if the container closure integrity is compromised. Drugs that are meant to save lives might lose their effectiveness or cause fatal side effects. CCI defects can cause oxidation, which can reduce a drug's potency and shelf life.

Integrity Testing of Ampoules using MicroCurrent HVLD

MicroCurrent HVLD technology detects leaks in nonporous, rigid, or flexible packaging such as ampoules that contains liquid products. This is a non-destructive High Voltage Leak Detection Technology that is highly effective across all parenteral products (vials, syringes, ampoules and BFS). The test technique detects pinholes, microcracks, stopper/plunger leaks, non-visible leaks under crimping, and many other defects by scanning a non-conductive container sealed with electrode probes. Any crack or other defect in the container can cause a resistance difference and a change in the current flow, which would indicate a breach. It is also possible to determine the approximate position of the defect.

When compared to conventional HVLD technologies, MicroCurrent HVLD uses around 50% less voltage and exposes the product and environment to less than 5% of the voltage. At high production speeds, this HVLD method may be simply transitioned from offline to 100 percent inline testing applications. It is a cost-effective online container closure testing solution that requires only minor infrastructure changes. This method is non-invasive and does not need sample preparation. For all parenteral and biologic products, MicroCurrent HVLD is one of the most effective CCI methods.

MicroCurrent HVLD Benefits

  • Effective in all parenteral preparations, even liquids with extremely low conductivity.
  • At high production speeds, inspection can be done both offline and online.
  • Non-destructive, non-invasive, and requires no sample preparation.
  • High level of accuracy and repeatability.
  • Deterministic method for parenteral liquid package inspection.
  • A robust technique for a variety of product classes and packaging forms with an estimated 3x Signal-Noise-Ratio.

Ampoules are such little glass bottles containing a sterile pharmaceutical liquid for parenteral administration. Microbes or other harmful pollutants may enter the ampoules through capillary pores or microscopic breaks, or the contents may leak to the outside. This may result in contamination of the sterile contents as well as a deterioration of the appearance of the package. MicroCurrent HVLD technology offered by CCIT can be applied to a variety of pharmaceutical packing formats including ampoules for testing integrity.

microcurrent hvld, package integrity, packaging integrity testing, container closure integrity, container closure integrity testing
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