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Friday, 13 February 2015

Vacuum Leak Test (VLT), acceptance criteria and its importance in pharmaceuticals.

Vacuum leak test is performed to check any leakage in autoclaves. This test is also called chamber integrity test. In VLT, first vacuum is applied inside the chamber and then wait for the vacuum to reach at set vacuum point then hold the vacuum for required time and when hold time completed vacuum breakage occures. After that check the results whether autoclave leakage is within the limits or not.
As per HTM 2010 guideline VLT should be performed on weekly basis. But it is good to perform VLT on daily basis becasue this is very critical test which define the integrity of the chamber. If there is any leakage in the autoclave chamber or leakage is exceeding the limits it means there might be chance of entering non sterile air inside the chamber. When vacuum break happens, air enter inside the chamber through the 0.22 micron filter which is located on the unloading side of the autoclaves. There is no chance of contamination because sterile air enters inside the chamber after filtering through 0.22 micron filter. But if air enter inside the chamber from any other connectivity of the chamber other than the filter, non sterile air would enter inside the chamber and it could contaminate the sterilized load.
Acceptance criteria for VLT: As per HTM 2010 VLT should be not more than 1.3 mbar per minute. But in printouts of some autocalves the acceptance criteria mentioned is 0.013 bar and not showing whether this vacuum leakage limit is per minute or per 10 minute. That might cause confusion for the operator. To clear this confusion, I am explaining this concept and it would be easy for you to understand.
For example:
Vacuum at hold time start: X
Vacuum at hold time end:  Y
Actual leakage: X-Y=Z per minute and if we check leakage for 10 minutes then Z X 10 gives you the result for vacuum leakage per 10 minutes.
HTM 2010 says that acceptance criteria is NMT 1.3 mbar per minute
Some autoclave print outs give the results as 0.013 bar
1 bar = 1000 mbar = 0.001 bar per minute or 0.010 bar per 10 minutes
so, 1.3 mbar per minute or 0.0013 bar per minute or 0.013 bar per 10 minutes.
It means the acceptance criteria mentioned by some autoclave vendors in their printouts is 0.013 bar per 10 minutes which is having the same meaning of 1.3 mbar per minute as mentioned in HTM 2010 guideline.
Thanks

16 comments:

  1. Correction: It should be "Actual leakage: Y-X=Z", if, as you stated, X is vacuum at hold time start and Y vacuum at hold time end. Otherwise you get a negative result, since Y always is larger or equal to X.

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  2. dear sir,is there any calculation to calculate the leak rate for the larger chamber autoclave. if any please give me? is there any formula to calculate the leakrate?
    wahy we r taking 0.0001 mbar per one min.please explain.

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  3. This comment has been removed by the author.

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  4. I observed pressure 0.294 bar(a) at hold syart and 0.291 bar(a) at end of hold of 10 min. Here pressure goes towards negative side. How it can possible? And autoclave report shows reault 0.000 actual leakage. Is it ok technically?

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  5. HTM 2010 is obsoleted can you confirm or any new version of the guidance available in the market

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  6. This comment has been removed by the author.

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  7. Rationale behind 0.013mbar leakage?

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  8. Hi..
    I appreciate your informative post and thanks for sharing.

    Vacuum Leak Tester

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  9. if the vacuum fail and the load is liquid in closed container , can I operate the autoclave while the pr-vacuum and sterilization set point is achieved successfully ??

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  10. What will be the impact on previous loads on that day if VLT fails.How impact on the loads will be assessed?
    Can anyone pls explain.

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  11. Thanks, this is very Informational Post to Read now I am Waiting for your next post Autoclave Machine

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  12. I enjoy your post, thanks for sharing.
    In the packaging industry, ensuring the quality and integrity of PET bottles is paramount. One essential tool for this task is the vacuum leak tester for bottles. This device helps manufacturers detect leaks or structural weaknesses in bottles, ensuring they meet stringent industry standards. By using a vacuum leak tester for bottles, companies can avoid costly recalls, product damage, or potential health hazards caused by leaks.

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