Description:
It delivers accurate and repeatable measurements of oxygen (O₂) or carbon dioxide (CO₂) (depending on configuration), making it ideal for quality inspection of parenteral products such as IV bags, Large Volume Parenterals (LVP), and Small Volume Parenterals (SVP) across a wide range of flexible film formats.
Designed to inspect both primary and secondary packaging, the GPX1500 Film Pharma ensures product integrity, supports regulatory compliance, and enables efficient testing without compromising the container.
How does it work?
The GPX1500 Film Pharma uses advanced Tunable Diode Laser Absorption Spectroscopy (TDLAS) to perform fast, accurate, and non-destructive headspace gas analysis (HSA) and validate container closure integrity testing (CCIT) in flexible pharmaceutical packaging.
During operation, the package is placed on the instrument where the sensor head gently creates a vacuum on the film surface, forming a temporary bubble. A laser beam is transmitted through this bubble, allowing the system to analyze the gas content (oxygen or carbon dioxide) inside the sealed container. This process is fully non-invasive and ensures precise measurement using trusted Gasporox technology.
Applications for the GPX1500 Film Pharma:
Compatible with a wide variety of flexible packaging formats, such as Parenteral Flexible Containers (PFC), single-use systems (SUS) the GPX1500 Film Pharma is ideal for pharmaceutical packaging verification in development, QC, and small-scale production environments.
The instrument is well suited for regulatory compliances that call for deterministic, non-destructive testing methods.
Available variations:
- GPX1500 Film Pharma O₂ – Measures oxygen (O₂) concentration in the headspace of sealed pharmaceutical containers. Ideal for oxygen-sensitive products requiring headspace gas analysis (HSA) and container closure integrity testing (CCIT).
- GPX1500 Film Pharma CO₂ – Accurately measures carbon dioxide (CO₂) levels in the headspace, supporting quality control of products packaged in CO₂-modified atmospheres
Product-specific adaptations of the instrument are available on request.
