A Method to Investigate Sterilization Processes and the Bacterial Inactivation Resolved in Time and Space.

PDA J Pharm Sci Technol

Fresenius Medical Care Deutschland GmbH, Frankfurter Straße 6-8, 66606 St. Wendel, Germany and.

Published: June 2024

In this study, a computational fluid dynamics (CFD) model was developed to predict all relevant phenomena occurring during a moist heat sterilization process at a high level of temporal and spatial resolution. The developed CFD model was used to simulate the distribution of, for example, pressure, temperature, and residual air within a large-scale industrial steam autoclave (multiphase flow models), which was not published until now. Moreover, the thermodynamic behavior and distribution of fluids and temperatures inside the sterilization load were simulated and were verified with measurements. Based on the obtained sterilization temperature profiles in connection with the sterilization environment (e.g., non-condensable gases, natural convection), bacterial inactivation could be simulated. A complete moist heat sterilization process was simulated, including all relevant phenomena inside an autoclave chamber and a Peritoneal Dialysis Bag System (PDBS), which represents a complex sterilization item. To verify the simulation results, simulated pressures and temperatures were compared with measurement data for both the autoclave chamber and the PDBS. The results show that the simulated and measured values were in excellent accordance. By using the novel CFD model, the distribution of steam and residual air inside the autoclave chamber, as well as the natural convection inside the sterilization load, could be precisely predicted. To predict the inactivation of inside different moist heat environments, the CFD model was extended with bacterial inactivation kinetics based on measurement data. The simulation results clearly indicate that our developed CFD model can be used to predict the inactivation kinetics of bacteria, depending on the sterilization temperature profile of the sterilization process as well as the moist heat sterilization environment, and to resolve the kinetics in time and space. Therefore, the developed CFD model represents a powerful tool that might be used in the future to predict, for example, "worst case" locations for any given autoclave and sterilization load or any other relevant process parameter, enabling the operator to develop an effective sterilization process.

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Source
http://dx.doi.org/10.5731/pdajpst.2022.012771DOI Listing

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