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Research ArticleResearch

Time Temperature Superposition Evaluation and Modeling for Container Closure System's Seal Performance at Low Temperatures

Qingyu Zeng, Anthony Bucci and Le Ho
PDA Journal of Pharmaceutical Science and Technology January 2020, 74 (1) 27-40; DOI: https://doi.org/10.5731/pdajpst.2019.010371
Qingyu Zeng
West Pharmaceutical Services, Inc, Exton, PA 19341
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  • For correspondence: qingyu.zeng@westpharma.com
Anthony Bucci
West Pharmaceutical Services, Inc, Exton, PA 19341
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Le Ho
West Pharmaceutical Services, Inc, Exton, PA 19341
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Abstract

There has been a growing interest in the assessment of container closure systems (CCS) for cold storage and shipment. Prior publications have lacked systematic considerations for the impact of dynamic time temperature transition on sealing performance associated with the viscoelastic characteristics of rubber stoppers used in container closure systems (CCSs). This paper demonstrates that sealing performance changes inherently and is fundamentally both time- and temperature-dependent. Our research results display this critical time temperature transition impact on CCS sealing performance by applying compression stress relaxation (CSR) on a rubber stopper for experimental data collection and modeling evaluation. The experimental results agree with modeling evaluation following Maxwell–Wiechert theory and the time temperature superposition based on the Arrhenius and Williams–Landel–Ferry methods. Both testing and modeling data show good consistency, demonstrating that the sealing force inevitably changes over time together with temperature transition because of the viscoelastic nature of the rubber stoppers. Our results show that compression seal force decreases quickly as temperature decreases. The significant loss of rubber stopper sealing force at lower temperature transitions could contribute significant risk to CCI at low storage and transport temperatures. Modeling evaluation, with a powerful capability to handle actual testing data, can be employed as a predictive tool to evaluate the time- and temperature-dependent sealing force throughout the entire sealed drug product life span. The present study is only applicable before reaching the rubber glass transition temperature Tg – a critical transition phase that can not be skipped/separated from real time temperature transition, and it will further determine the CCS sealing performance while approaching cryogenic temperature. The present work provides a new, integrated methodology framework and some fresh insights to the parenteral packaging industry for practically and proactively considering, designing, setting up, controlling, and managing stopper sealing performance throughout the entire sealed drug product life span.

  • Compression stress relaxation (CSR)
  • Residual seal force (RSF)
  • Container closure system (CCS)
  • Container closure integrity (CCI)
  • Stopper
  • Vial
  • Cap
  • Seal
  • Capping
  • Time-dependent
  • Temperature-dependent
  • Maxwell–Wiechert model
  • Kohlrausch–Williams–Watts (KWW) stretched exponential function
  • Time–temperature superposition
  • Arrhenius
  • Williams–Landel–Ferry (WLF)
  • © PDA, Inc. 2020
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PDA Journal of Pharmaceutical Science and Technology: 74 (1)
PDA Journal of Pharmaceutical Science and Technology
Vol. 74, Issue 1
January/February 2020
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Time Temperature Superposition Evaluation and Modeling for Container Closure System's Seal Performance at Low Temperatures
Qingyu Zeng, Anthony Bucci, Le Ho
PDA Journal of Pharmaceutical Science and Technology Jan 2020, 74 (1) 27-40; DOI: 10.5731/pdajpst.2019.010371

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Time Temperature Superposition Evaluation and Modeling for Container Closure System's Seal Performance at Low Temperatures
Qingyu Zeng, Anthony Bucci, Le Ho
PDA Journal of Pharmaceutical Science and Technology Jan 2020, 74 (1) 27-40; DOI: 10.5731/pdajpst.2019.010371
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Similar Articles

Keywords

  • Compression stress relaxation (CSR)
  • Residual seal force (RSF)
  • Container closure system (CCS)
  • Container closure integrity (CCI)
  • Stopper
  • Vial
  • Cap
  • Seal
  • Capping
  • Time-dependent
  • Temperature-dependent
  • Maxwell–Wiechert model
  • Kohlrausch–Williams–Watts (KWW) stretched exponential function
  • Time–temperature superposition
  • Arrhenius
  • Williams–Landel–Ferry (WLF)

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