• Title/Summary/Keyword: Phillipsite-Gismondine synthetic zeolite

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Improvement of Porcine Epidemic Diarrhea Disease Vaccine Productivity by Ammonium Ion Removal in a Carberry Type Bioreactor (Carberry Type 생물반응기에서 암모늄 이온 제거에 의한 돼지유행성설사병 바이러스 백신 생산성 증대)

  • Lee, Chang-Jin;Jeong, Yeon-Ho
    • Korean Chemical Engineering Research
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    • v.49 no.5
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    • pp.588-593
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    • 2011

  • The porcine epidemic diarrhea virus(PEDV) production yield in spinner flask cultures using Vero cells immobilized on microcarriers was improved by the selective adsorption of ammonium ions in a Carberry type bioreactor which was equipped with Phillipsite-Gismondine synthetic zeolite. Though the apparent cell growth seemed to be lower than that of control due to the aggregation of microcarriers between impeller shaft and the adsorbent, zeolite was found to not to be toxic to Vero cell, considering estimated glucose and lactate changes. Zeolite was observed to remove ammonium ions effectively in both steps of cell growth and virus production. In virus production, the virus titer with zeolite was two times higher than that without zeolite. Consequently, zeolite was found to be an ideal adsorbent for higher production of virus vaccine with the effective removal of ammonium ions.

  • https://doi.org/10.9713/kcer.2011.49.5.588 인용 PDF KSCI

Development of an Immobilized Adsorbent for in situ Removal of Ammonium Ion from Mammalian Cell Culture Media and its Application to a Mammalian Cell Bioreactor: I. Development of Immobilized Adsorbent System (동물세포 배양액으로부터 암모늄 이온의 동시제거를 위한 고정화 흡착제의 개발과 동물세포 배양 시스템에의 응용: I. 고정화 흡착시스템 개발)

  • 박병곤;민용원;전계택;김익환;정연호
    • KSBB Journal
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    • v.13 no.4
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    • pp.404-410
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    • 1998

  • Three types of adsorbents were developed by immobilizing synthetic zeolite, Philipsite-Gismonine, in alginate, cellulose acetate and dialysis membrane for the in situ removal of ammonium ion which inhibits growth and productivity of animal cells such as CHO cells producing tPA. Ammonium ion removal efficiency and cell growth promoting effect with various immobilized adsorbents were evaluated and the membrane type was selected as an optimal immobilized adsorbent. The experiments were then simulated by adding 8mM ammonium chloride and immobilized adsorbent in order to validate the removal effect under high density cell cultures. The results showed increase in maximum cell density by three times, in cell viability, and in tPA productivity by 40%. And it was found that the promoting effects were more significant in case of high ammonium ion concentration system. It was also found that the optimum addition time for immobilized adsorbents was 48 hr in the absence of ammonium chloride addition and 72 hr in the presence of ammonium chloride addition.

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