Viral Clearance Using Traditional, Well-Understood Unit Operations (Session I): Anion Exchange Chromatography (AEX)

David Roush

doi:10.5731/pdajpst.2014.00963

References

1.↵
1. Follman D. K.,
2. Fahrner R. L.
Factorial screening of antibody purification processes using three chromatography steps without protein A. J. Chromatogr., A 2004, 1024 (1), 79–85.
OpenUrl PubMed
2.↵
1. Ishihara T.,
2. Kadoya T.
Accelerated purification process development of monoclonal antibodies for shortening time to clinic. Design and case study of chromatography processes. J. Chromatogr., A 2007, 1176 (1), 149–156.
OpenUrl PubMed
3.↵
1. Norling L.,
2. Lute S.,
3. Emery R.,
4. Khuu W.,
5. Voisard M.,
6. Xu Y.,
7. Chen Q.,
8. Blank G.,
9. Brorson K.
Impact of multiple re-use of anion-exchange chromatography media on virus removal. J. Chromatogr., A 2005, 1069 (1), 79–89.
OpenUrl PubMed
4.↵
1. Miesegaes G.,
2. Bailey M.,
3. Willkommen H.,
4. Chen Q.,
5. Roush D.,
6. Blümel J.,
7. Brorson K.
Proceedings of the 2009 Viral Clearance Symposium. Dev. Biol. (Basel) 2010, 133, 3–101.
OpenUrl PubMed
5.↵
1. Knudsen H. L.,
2. Fahrner R. L.,
3. Xu Y.,
4. Norling L. A.,
5. Blank G. S.
Membrane ion-exchange chromatography for process-scale antibody purification. J. Chromatogr., A 2001, 907 (1), 145–154.
OpenUrl PubMed
6.↵
1. Rathore A.,
2. Velayudhan A.
1. Sagar S. L.,
2. Chau T. G.,
3. Watson M. P.,
4. Lee A. L.
Chapter 8. Case Study: Capacity Challenges in Chromotography-Based Purification of Plasmid DNA. In Scale-Up and Optimization in Preparative Chromatography: Principles and Biopharmaceutical Applications, Rathore A., Velayudhan A. , Eds.; Marcel Dekker, Inc.: New York, 2003.
7.↵
1. Ferreira G. N.,
2. Cabral J. M.,
3. Prazeres D. M.
Studies on the batch adsorption of plasmid DNA onto anion-exchange chromatographic supports. Biotechnol. Prog. 2000, 16 (3), 416–424.
OpenUrl PubMed
8.↵
1. Iyer G.,
2. Ramaswamy S.,
3. Asher D.,
4. Mehta U.,
5. Leahy A.,
6. Chung F.,
7. Cheng K. S.
Reduced surface area chromatography for flow-through purification of viruses and virus like particles. J. Chromatogr., A 2011, 1218 (26), 3973–3981.
OpenUrl PubMed
9.↵
1. Teeters M. A.,
2. Conrardy S. E.,
3. Thomas B. L.,
4. Root T. W.,
5. Lightfoot E. N.
Adsorptive membrane chromatography for purification of plasmid DNA. J. Chromatogr., A 2003, 989 (1), 165–173.
OpenUrl PubMed
10.↵
1. Phillips M.,
2. Cormier J.,
3. Ferrence J.,
4. Dowd C.,
5. Kiss R.,
6. Lutz H.,
7. Carter J.
Performance of a membrane adsorber for trace impurity removal in biotechnology manufacturing. J. Chromatogr., A 2005, 1078 (1), 74–82.
OpenUrl PubMed
11.↵
1. Zhou J. X.,
2. Tressel T.
Basic concepts in Q membrane chromatography for large-scale antibody production. Biotechnol. Prog. 2006, 22 (2), 341–349.
OpenUrl PubMed
12.↵
1. Zhou J. X.,
2. Tressel T.,
3. Gottschalk U.,
4. Solamo F.,
5. Pastor A.,
6. Dermawan S.,
7. Hong T.,
8. Reif O.,
9. Mora J.,
10. Hutchison F.,
11. Murphy M.
New Q membrane scale-down model for process-scale antibody purification. J. Chromatogr., A 2006, 1134 (1), 66–73.
OpenUrl PubMed
13.↵
1. Gagnon P.,
2. Hensel F.,
3. Lee S.,
4. Zaidi S.
Chromatographic behavior of IgM:DNA complexes. J. Chromatogr., A 2011, 1218 (1), 2405–2412.
OpenUrl PubMed
14.↵
1. Luhrs K. A.,
2. Harris D. A.,
3. Summers S.,
4. Parseghian M. H.
Evicting hitchhiker antigens from purified antibodies. J. Chromatogr., B 2009, 877 (14), 1543–1552.
OpenUrl
15.↵
1. Strauss D. M.,
2. Cano T.,
3. Cai N.,
4. Delucchi H.,
5. Plancarte M.,
6. Coleman D.,
7. Blank G. S.,
8. Chen Q.,
9. Yang B.
Strategies for developing design spaces for viral clearance by anion exchange chromatography during monoclonal antibody production. Biotechnol. Prog. 2010, 26 (3), 750–755.
OpenUrl PubMed
16.↵
1. Kelley B. D.,
2. Switzer M.,
3. Bastek P.,
4. Kramarczyk J. F.,
5. Molnar K.,
6. Yu T.,
7. Coffman J.
High-throughput screening of chromatographic separations: IV. Ion-exchange. Biotechnol. Bioeng. 2008, 100 (5), 950–963.
OpenUrl CrossRef PubMed Web of Science

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[1] 1.↵
Follman D. K.,
Fahrner R. L.
Factorial screening of antibody purification processes using three chromatography steps without protein A. J. Chromatogr., A 2004, 1024 (1), 79–85.
OpenUrl PubMed

[2] Follman D. K.,

[3] Fahrner R. L.

[4] 2.↵
Ishihara T.,
Kadoya T.
Accelerated purification process development of monoclonal antibodies for shortening time to clinic. Design and case study of chromatography processes. J. Chromatogr., A 2007, 1176 (1), 149–156.
OpenUrl PubMed

[5] Ishihara T.,

[6] Kadoya T.

[7] 3.↵
Norling L.,
Lute S.,
Emery R.,
Khuu W.,
Voisard M.,
Xu Y.,
Chen Q.,
Blank G.,
Brorson K.
Impact of multiple re-use of anion-exchange chromatography media on virus removal. J. Chromatogr., A 2005, 1069 (1), 79–89.
OpenUrl PubMed

[8] Norling L.,

[9] Lute S.,

[10] Emery R.,

[11] Khuu W.,

[12] Voisard M.,

[13] Xu Y.,

[14] Chen Q.,

[15] Blank G.,

[16] Brorson K.

[17] 4.↵
Miesegaes G.,
Bailey M.,
Willkommen H.,
Chen Q.,
Roush D.,
Blümel J.,
Brorson K.
Proceedings of the 2009 Viral Clearance Symposium. Dev. Biol. (Basel) 2010, 133, 3–101.
OpenUrl PubMed

[18] Miesegaes G.,

[19] Bailey M.,

[20] Willkommen H.,

[21] Chen Q.,

[22] Roush D.,

[23] Blümel J.,

[24] Brorson K.

[25] 5.↵
Knudsen H. L.,
Fahrner R. L.,
Xu Y.,
Norling L. A.,
Blank G. S.
Membrane ion-exchange chromatography for process-scale antibody purification. J. Chromatogr., A 2001, 907 (1), 145–154.
OpenUrl PubMed

[26] Knudsen H. L.,

[27] Fahrner R. L.,

[28] Xu Y.,

[29] Norling L. A.,

[30] Blank G. S.

[31] 6.↵
Rathore A.,
Velayudhan A.
Sagar S. L.,
Chau T. G.,
Watson M. P.,
Lee A. L.
Chapter 8. Case Study: Capacity Challenges in Chromotography-Based Purification of Plasmid DNA. In Scale-Up and Optimization in Preparative Chromatography: Principles and Biopharmaceutical Applications, Rathore A., Velayudhan A. , Eds.; Marcel Dekker, Inc.: New York, 2003.

[32] Rathore A.,

[33] Velayudhan A.

[34] Sagar S. L.,

[35] Chau T. G.,

[36] Watson M. P.,

[37] Lee A. L.

[38] 7.↵
Ferreira G. N.,
Cabral J. M.,
Prazeres D. M.
Studies on the batch adsorption of plasmid DNA onto anion-exchange chromatographic supports. Biotechnol. Prog. 2000, 16 (3), 416–424.
OpenUrl PubMed

[39] Ferreira G. N.,

[40] Cabral J. M.,

[41] Prazeres D. M.

[42] 8.↵
Iyer G.,
Ramaswamy S.,
Asher D.,
Mehta U.,
Leahy A.,
Chung F.,
Cheng K. S.
Reduced surface area chromatography for flow-through purification of viruses and virus like particles. J. Chromatogr., A 2011, 1218 (26), 3973–3981.
OpenUrl PubMed

[43] Iyer G.,

[44] Ramaswamy S.,

[45] Asher D.,

[46] Mehta U.,

[47] Leahy A.,

[48] Chung F.,

[49] Cheng K. S.

[50] 9.↵
Teeters M. A.,
Conrardy S. E.,
Thomas B. L.,
Root T. W.,
Lightfoot E. N.
Adsorptive membrane chromatography for purification of plasmid DNA. J. Chromatogr., A 2003, 989 (1), 165–173.
OpenUrl PubMed

[51] Teeters M. A.,

[52] Conrardy S. E.,

[53] Thomas B. L.,

[54] Root T. W.,

[55] Lightfoot E. N.

[56] 10.↵
Phillips M.,
Cormier J.,
Ferrence J.,
Dowd C.,
Kiss R.,
Lutz H.,
Carter J.
Performance of a membrane adsorber for trace impurity removal in biotechnology manufacturing. J. Chromatogr., A 2005, 1078 (1), 74–82.
OpenUrl PubMed

[57] Phillips M.,

[58] Cormier J.,

[59] Ferrence J.,

[60] Dowd C.,

[61] Kiss R.,

[62] Lutz H.,

[63] Carter J.

[64] 11.↵
Zhou J. X.,
Tressel T.
Basic concepts in Q membrane chromatography for large-scale antibody production. Biotechnol. Prog. 2006, 22 (2), 341–349.
OpenUrl PubMed

[65] Zhou J. X.,

[66] Tressel T.

[67] 12.↵
Zhou J. X.,
Tressel T.,
Gottschalk U.,
Solamo F.,
Pastor A.,
Dermawan S.,
Hong T.,
Reif O.,
Mora J.,
Hutchison F.,
Murphy M.
New Q membrane scale-down model for process-scale antibody purification. J. Chromatogr., A 2006, 1134 (1), 66–73.
OpenUrl PubMed

[68] Zhou J. X.,

[69] Tressel T.,

[70] Gottschalk U.,

[71] Solamo F.,

[72] Pastor A.,

[73] Dermawan S.,

[74] Hong T.,

[75] Reif O.,

[76] Mora J.,

[77] Hutchison F.,

[78] Murphy M.

[79] 13.↵
Gagnon P.,
Hensel F.,
Lee S.,
Zaidi S.
Chromatographic behavior of IgM:DNA complexes. J. Chromatogr., A 2011, 1218 (1), 2405–2412.
OpenUrl PubMed

[80] Gagnon P.,

[81] Hensel F.,

[82] Lee S.,

[83] Zaidi S.

[84] 14.↵
Luhrs K. A.,
Harris D. A.,
Summers S.,
Parseghian M. H.
Evicting hitchhiker antigens from purified antibodies. J. Chromatogr., B 2009, 877 (14), 1543–1552.
OpenUrl

[85] Luhrs K. A.,

[86] Harris D. A.,

[87] Summers S.,

[88] Parseghian M. H.

[89] 15.↵
Strauss D. M.,
Cano T.,
Cai N.,
Delucchi H.,
Plancarte M.,
Coleman D.,
Blank G. S.,
Chen Q.,
Yang B.
Strategies for developing design spaces for viral clearance by anion exchange chromatography during monoclonal antibody production. Biotechnol. Prog. 2010, 26 (3), 750–755.
OpenUrl PubMed

[90] Strauss D. M.,

[91] Cano T.,

[92] Cai N.,

[93] Delucchi H.,

[94] Plancarte M.,

[95] Coleman D.,

[96] Blank G. S.,

[97] Chen Q.,

[98] Yang B.

[99] 16.↵
Kelley B. D.,
Switzer M.,
Bastek P.,
Kramarczyk J. F.,
Molnar K.,
Yu T.,
Coffman J.
High-throughput screening of chromatographic separations: IV. Ion-exchange. Biotechnol. Bioeng. 2008, 100 (5), 950–963.
OpenUrl CrossRef PubMed Web of Science

[100] Kelley B. D.,

[101] Switzer M.,

[102] Bastek P.,

[103] Kramarczyk J. F.,

[104] Molnar K.,

[105] Yu T.,

[106] Coffman J.

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References

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