Lighthouse Case Studies
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Achieving Container Closure Integrity During Cryogenic Storage Conditions Using An Optimized Vial Stopper Combination
2/17/2022
Here, we investigate possible primary packaging solutions for therapies requiring even colder storage temperatures down to cryogenic levels (-150°C to -180°C).
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Nitrogen Purging Process Development For Oxygen Sensitive Formulations In Pre-Filled Syringes
6/22/2021
A new biological product, in pre-filled glass syringes, had demonstrated oxygen sensitivity in stability studies. Therefore, the headspace was purged with nitrogen during filling, and the client wanted to validate the batch production process and assess the nitrogen purge efficiency. In this study we demonstrate by performing a 100% inspection on the engineering batches using non-destructive headspace oxygen analysis you could gather the data needed before a commercial launch.
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Oxygen Sensitive Product: Comparing Oxygen Testing Methods
3/7/2021
The accurate determination of oxygen concentration as a critical quality parameter for oxygen-sensitive products is important across the product life cycle activities. Traditional methods for determining headspace oxygen levels in parenteral containers, such as electrochemical methods or gas chromatography, are slow and destructive. This article describes several case studies comparing non-destructive laser-based oxygen headspace analysis with electrochemical oxygen analysis and gas chromatography.
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Ensuring CCI For Products Requiring Deep Cold Storage By Correlating Seal Quality To CCI
3/3/2021
This case study describes how packaging development and process study data of a pharmaceutical vial product requiring deep cold storage can be combined in a holistic approach.
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Moisture Headspace Analysis For Efficient Scaleup Of Freeze Drying Capacity And Validation
10/21/2020
With the application of non-destructive headspace moisture analysis, small-scale proof of concept studies can minimize project risk and the number of full-scale runs in the freeze-drying validation process.
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Ensuring Container Closure Integrity Of A Gene Therapy Cancer Vaccine Needing Deep Cold Storage
7/22/2020
A gene therapy clinical trial was halted due to CCI issues in deep cold storage. A CCI test method was developed that enabled non-destructive CCI testing of product vials at these cold temperatures.
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Quality Stability Testing: Oxygen Monitoring During Shelf Life
6/3/2020
A manufacturer of a syringe product received complaints about discolored product that was nearing the end of shelf life. A root cause investigation was started and product syringes were put on stability. The headspace oxygen levels were monitored over time. The laser-based headspace analysis proved to be a useful tool to check package integrity and for the presence of reactive headspace gases that can degrade the formulation.
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Filling Line Nitrogen Purge Qualification In Manufacturing
6/3/2020
A client had an existing filling line and wanted to optimize the nitrogen purge process to decrease headspace oxygen levels to 2%. In addition, frequent line stoppages resulted in a need to identify and reject high oxygen vials that had lost the nitrogen headspace during the stoppage. A purging process qualification study was performed using rapid non-destructive headspace oxygen analysis in an at-line set-up with samples being measured immediately from the line.
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CCI Test Method Validation For Pre-Filled Syringes
3/18/2020
Regulators are paying closer attention to the proper design of robust Container Closure Integrity (CCI) studies and the validation of CCI test methods.
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Verifying Vacuum Maintenance While Preserving The Product Sample
3/28/2019
Vacuum in finished sterile product containers is critical for certain pharmaceutical formulations to ensure proper reconstitution before administration to the patient, or to prevent interactions between the formulation and headspace gas. A loss of vacuum can be a clear indicator of a container closure integrity defect or an issue with the original sealing process. Using a LIGHTHOUSE headspace analysis platform for non-destructive headspace pressure determination verifies the maintenance of vacuum while preserving the product sample.