PTI Launches E-Scan RTX Automated CCI solution for pre-filled syringes at Pack Expo International
Hawthorne, New York (October 17, 2022) - PTI will launch the E-Scan RTX fully automated CCI solution for pre-filled syringes at Pack Expo International, October 23-26, 2022, at McCormick Place, Chicago IL in booth W-20014.
The E-Scan RTX platform is PTI’s fully automated, modular container closure integrity solution for pre-filled syringes. The RTX is a practical and reliable CCI solution that features a dynamic robotic design, tailored to fit your production requirements.
This robust, adaptable platform utilizes MicroCurrent HVLD technology, a revolutionary form of HVLD that is the ideal CCI solution for high-risk, delicate biologic liquids. It provides a rapid PASS/FAIL result – test cycle is only seconds – and is suitable for batch release testing, at line on production or in the lab.
“The E-Scan RTX MicroCurrent technology is the go-to solution for all liquid filled parenterals. Sensitivity and reliability go hand in hand with Container Closure Integrity Testing (CCIT). The E-Scan RTX is the next generation automated inspection system for CCI of Parenteral products.”
Heinz Wolf
PTI’s Vice President of Inspection Technologies
PTI’s MicroCurrent HVLD technology uses a unique mode of DC voltage, applying no more than 50% of the voltage used on conventional high voltage technologies. The nature of the PTI solution allows for detection of leaks in packages with liquids of extreme low conductivities, including packages containing sterile water. The low voltage and current applied to the container also reduces the voltage the product is exposed to during the test. The technological advantage makes it the ideal solution for all parenteral and biologic solutions.
Benefits
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MicroCurrent HVLD technology is effective across all parenteral products, including biologics and extremely low conductivity liquids including sterile water (WFI).
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Listed in USP Chapter 1207 as recommended method for parenteral liquid package inspection.
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Robust method and good Signal-Noise-Ratio between good and defective products.
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Low voltage exposure reduces production of ozone.