ISSN: 2048-9145

Pharmaceutical Bioprocessing

Citations Report

Pharmaceutical Bioprocessing : Citations & Metrics Report

Articles published in Pharmaceutical Bioprocessing have been cited by esteemed scholars and scientists all around the world.

Pharmaceutical Bioprocessing has got h-index 25, which means every article in Pharmaceutical Bioprocessing has got 25 average citations.

Following are the list of articles that have cited the articles published in Pharmaceutical Bioprocessing.

  2021 2020 2019 2018 2017 2016

Total published articles

 31 7 5 23 10 17

Citations received as per Google Scholar, other indexing platforms and portals

 271 188 163 177 175 146
Journal total citations count 1649
Journal impact factor 9.31372549
Journal 5 years impact factor 11.9418604
Journal cite score 13.3492063
Journal h-index 25
Journal h-index since 2019 20
Journal Impact Factor 2020 formula
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year
Journal 5-year Impact Factor 2020 formula
Citations(2016 + 2017 + 2018 + 2019 + 2020)/
{Published articles(2016 + 2017 + 2018 + 2019 + 2020)}
Journal citescore
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3
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  • Rodríguez, LV, Hernández, AGR, & Torres, IC A QUALITY APPROACH WITH RESILIENCE IN CUBAN BIOPHARMACEUTICAL PRODUCTIONS. View at Publisher | View at Google Scholar | View at Indexing
  • Rodríguez, LV, Hernández, AGR, & Torres, IC A QUALITY APPROACH WITH RESILIENCE IN CUBAN BIOPHARMACEUTICAL PRODUCTIONS. View at Publisher | View at Google Scholar | View at Indexing
  • Beneš, MICHAL (2017). "Quality by Design" - planned quality management in the pharmaceutical industry. Chemical Sheets , 111 (9), 559-566. View at Publisher | View at Google Scholar | View at Indexing
  • Kempken, R., Walz, F., & Howaldt, M. (2018). Cultivation of Mammalian Cells. In bioprocess engineering (pp. 489-544). Springer Spectrum, Berlin, Heidelberg. View at Publisher | View at Google Scholar | View at Indexing
  • Lalonde, M. E., & Durocher, Y. (2017). Therapeutic glycoprotein production in mammalian cells. Journal of biotechnology, 251, 128-140. View at Publisher | View at Google Scholar | View at Indexing
  • Bielser, J. M., Wolf, M., Souquet, J., Broly, H., & Morbidelli, M. (2018). Perfusion mammalian cell culture for recombinant protein manufacturing–A critical review. Biotechnology advances, 36(4), 1328-1340. View at Publisher | View at Google Scholar | View at Indexing
  • Pereira, S., Kildegaard, H. F., & Andersen, M. R. (2018). Impact of CHO metabolism on cell growth and protein production: an overview of toxic and inhibiting metabolites and nutrients. Biotechnology journal, 13(3), 1700499. View at Publisher | View at Google Scholar | View at Indexing
  • Frye, C., Deshpande, R., Estes, S., Francissen, K., Joly, J., Lubiniecki, A., ... & Anderson, K. (2016). Industry view on the relative importance of “clonality” of biopharmaceutical-producing cell lines. Biologicals, 44(2), 117-122. View at Publisher | View at Google Scholar | View at Indexing
  • Fan, L., Rizzi, G., Bierilo, K., Tian, J., Yee, J. C., Russell, R., & Das, T. K. (2017). Comparative study of therapeutic antibody candidates derived from mini?pool and clonal cell lines. Biotechnology progress, 33(6), 1456-1462. View at Publisher | View at Google Scholar | View at Indexing
  • Feary, M., Racher, A. J., Young, R. J., & Smales, C. M. (2017). Methionine sulfoximine supplementation enhances productivity in GS–CHOK1SV cell lines through glutathione biosynthesis. Biotechnology progress, 33(1), 17-25. View at Publisher | View at Google Scholar | View at Indexing
  • Bielser, J. M., Chappuis, L., Xiao, Y., Souquet, J., Broly, H., & Morbidelli, M. (2019). Perfusion cell culture for the production of conjugated recombinant fusion proteins reduces clipping and quality heterogeneity compared to batch-mode processes. Journal of biotechnology, 302, 26-31. View at Publisher | View at Google Scholar | View at Indexing
  • Schelletter, L., Albaum, S., Walter, S., Noll, T., & Hoffrogge, R. (2019). Clonal variations in CHO IGF signaling investigated by SILAC-based phosphoproteomics and LFQ-MS. Applied microbiology and biotechnology, 103(19), 8127-8143. View at Publisher | View at Google Scholar | View at Indexing
  • Del Angel, G., Hutchinson, A. T., Jain, N. K., Forbes, C. D., & Reynders, J. (2019). Large?scale functional LIPA variant characterization to improve birth prevalence estimates of lysosomal acid lipase deficiency. Human mutation, 40(11), 2007-2020. View at Publisher | View at Google Scholar | View at Indexing
  • O’Callaghan, P. M., & Racher, A. J. (2015). Building a cell culture process with stable foundations: Searching for certainty in an uncertain world. In Animal Cell Culture (pp. 373-406). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
  • Gupta, K., Parasnis, M., Jain, R., & Dandekar, P. (2019). Vector-related stratagems for enhanced monoclonal antibody production in mammalian cells. Biotechnology advances, 37(8), 107415. View at Publisher | View at Google Scholar | View at Indexing
  • Brown, A. J., Kalsi, D., Fernandez?Martell, A., Cartwright, J., Barber, N. O., Patel, Y. D., ... & James, D. C. (2017). Expression Systems for Recombinant Biopharmaceutical Production by Mammalian Cells in Culture. Protein Therapeutics, 2, 423-467. View at Publisher | View at Google Scholar | View at Indexing
  • Zacchi, L. F., Recinos, D. R., Otte, E., Aitken, C., Hunt, T., Sandford, V., ... & Howard, C. B. (2020). S-Trap eliminates cell culture media polymeric surfactants for effective proteomic analysis of mammalian cell bioreactor supernatants. Journal of proteome research, 19(5), 2149-2158. View at Publisher | View at Google Scholar | View at Indexing
  • Bielser, J. M., Kraus, L., Burgos?Morales, O., Broly, H., & Souquet, J. (2020). Reduction of medium consumption in perfusion mammalian cell cultures using a perfusion rate equivalent concentrated nutrient feed. Biotechnology progress, 36(5), e3026. View at Publisher | View at Google Scholar | View at Indexing
  • Morris, C., Polanco, A., Yongky, A., Xu, J., Huang, Z., Zhao, J., ... & Yoon, S. (2020). Bigdata analytics identifies metabolic inhibitors and promoters for productivity improvement and optimization of monoclonal antibody (mAb) production process. Bioresources and Bioprocessing, 7, 1-13. View at Publisher | View at Google Scholar | View at Indexing
  • Tian, J., He, Q., Oliveira, C., Qian, Y., Egan, S., Xu, J., ... & Li, Z. J. (2020). Increased MSX level improves biological productivity and production stability in multiple recombinant GS CHO cell lines. Engineering in Life Sciences, 20(3-4), 112-125. View at Publisher | View at Google Scholar | View at Indexing
  • Zhang, L. (2020). Development of mathematical modelling for the glycosylation of IgG in CHO cell cultures (Doctoral dissertation, KTH Royal Institute of Technology). View at Publisher | View at Google Scholar | View at Indexing
  • Zacchi, L. F., Roche-Recinos, D., Pegg, C. L., Phung, T. K., Napoli, M., Aitken, C., ... & Howard, C. B. (2021). Coagulation factor IX analysis in bioreactor cell culture supernatant predicts quality of the purified product. Communications biology, 4(1), 1-19. View at Publisher | View at Google Scholar | View at Indexing
  • Recinos, D. R., Zacchi, L. F., Pegg, C., Phung, T. K., Aitken, C., Napoli, M., ... & Howard, C. B. Investigation of recombinant human factor IX posttranslational modification differences in fed-batch processes of Chinese Hamster Ovary cells against plasma-derived factor IX. View at Publisher | View at Google Scholar | View at Indexing
  • Zacchi, L. F., Recinos, D. R., Pegg, C. L., Phung, T. K., Napoli, M., Aitken, C., ... & Howard, C. B. (2020). Analysis of coagulation factor IX in bioreactor cell culture medium predicts yield and quality of the purified product. bioRxiv. View at Publisher | View at Google Scholar | View at Indexing
  • Huhn, S. C., Ou, Y., Tang, X., Jiang, B., Liu, R., Lin, H., & Du, Z. (2021). Improvement of the efficiency and quality in generating a new CHO Host Cell Line through Zinc Finger Nuclease (ZFN). Biotechnology Progress, e3185. View at Publisher | View at Google Scholar | View at Indexing
  • Bielser, J. M., Aeby, M., Caso, S., Roulet, A., Broly, H., & Souquet, J. (2021). Continuous bleed recycling significantly increases recombinant protein production yield in perfusion cell cultures. Biochemical Engineering Journal, 169, 107966. View at Publisher | View at Google Scholar | View at Indexing
  • Nestola, P., Peixoto, C., Silva, R. R. S., Alves, P. M., Mota, J. P., & Carrondo, M. J. (2015). Improved virus purification processes for vaccines and gene therapy. Biotechnology and bioengineering, 112(5), 843-857. View at Publisher | View at Google Scholar | View at Indexing
  • Kiss, A. A., Grievink, J., & Rito?Palomares, M. (2015). A systems engineering perspective on process integration in industrial biotechnology. Journal of Chemical Technology & Biotechnology, 90(3), 349-355. View at Publisher | View at Google Scholar | View at Indexing
  • Yu, M., Li, Y., Zhang, S., Li, X., Yang, Y., Chen, Y., ... & Su, Z. (2014). Improving stability of virus-like particles by ion-exchange chromatographic supports with large pore size: advantages of gigaporous media beyond enhanced binding capacity. Journal of Chromatography A, 1331, 69-79. View at Publisher | View at Google Scholar | View at Indexing
  • Schwienheer, C., Prinz, A., Zeiner, T., & Merz, J. (2015). Separation of active laccases from Pleurotus sapidus culture supernatant using aqueous two-phase systems in centrifugal partition chromatography. Journal of Chromatography B, 1002, 1-7. View at Publisher | View at Google Scholar | View at Indexing
  • Milne, J. J. (2017). Scale-up of protein purification: downstream processing issues. Protein Chromatography, 71-84. View at Publisher | View at Google Scholar | View at Indexing
  • Gavara, P. R., Bibi, N. S., Sanchez, M. L., Grasselli, M., & Fernandez-Lahore, M. (2015). Chromatographic characterization and process performance of column-packed anion exchange fibrous adsorbents for high throughput and high capacity bioseparations. Processes, 3(1), 204-221. View at Publisher | View at Google Scholar | View at Indexing
  • Kress, C., Sadowski, G., & Brandenbusch, C. (2017). Solubilization of proteins in aqueous two-phase extraction through combinations of phase-formers and displacement agents. European Journal of Pharmaceutics and Biopharmaceutics, 112, 38-44. View at Publisher | View at Google Scholar | View at Indexing
  • Singh, N. K., Dsouza, R. N., Sánchez, M. L., Verma, S., Achilli, E., Vennapusa, R. R., ... & Fernández-Lahore, M. (2015). Preparation and characterization of grafted cellulosic fibers and their applications in protein purification. Separation and Purification Technology, 143, 177-183. View at Publisher | View at Google Scholar | View at Indexing
  • Martínez, L. J., Sánchez, M. L., Kikot, P., Candal, R., & Grasselli, M. (2014). Preparation of functional currant-bun-like fumed silica/polymethacrylate nanoparticles by radiation-induced polymerization. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 463, 110-117. View at Publisher | View at Google Scholar | View at Indexing
  • Staubach, S., Bauer, F. N., Tertel, T., Börger, V., Stambouli, O., Salzig, D., & Giebel, B. (2021). Scaled preparation of extracellular vesicles from conditioned media. Advanced Drug Delivery Reviews, 177, 113940. View at Publisher | View at Google Scholar | View at Indexing
  • Kress, C., Sadowski, G., & Brandenbusch, C. (2016). Novel displacement agents for aqueous 2-phase extraction can be estimated based on hybrid shortcut calculations. Journal of pharmaceutical sciences, 105(10), 3030-3038. View at Publisher | View at Google Scholar | View at Indexing
  • Špec, T., Peljhan, S., Vidi?, J., Krajnc, N. L., Fonovi?, M., Tavzes, ?., & Ropret, P. (2016). CIM® monolith chromatography-enhanced ELISA detection of proteins in artists' paints: Ovalbumin as a case study. Microchemical Journal, 127, 102-112. View at Publisher | View at Google Scholar | View at Indexing
  • D'Souza, R. N., Kakarla, P. B., Yelemane, V., Meyer, R., den Boer, P., & Fernández-Lahore, M. (2017). Controlling cell adhesion in antibody purification by expanded bed adsorption chromatography. Separation and Purification Technology, 183, 270-278. View at Publisher | View at Google Scholar | View at Indexing
  • Kangwa, M., Yelemane, V., Ponnurangam, A., & Fernández-Lahore, M. (2019). An engineered Staphylococcal Protein A based ligand: Production, characterization and potential application for the capture of Immunoglobulin and Fc-fusion proteins. Protein expression and purification, 155, 27-34. View at Publisher | View at Google Scholar | View at Indexing
  • Carvalho, R. J., & Castilho, L. R. (2017). Tools enabling continuous and integrated upstream and downstream processes in the manufacturing of biologicals. Continuous Biomanufacturing: Innovative Technologies and Methods, 31-61. View at Publisher | View at Google Scholar | View at Indexing
  • Naz, N., Dsouza, R. N., Yelemane, V., Vennapusa, R. R., Kangwa, M., & Fernández-Lahore, M. (2015). Growth-dependent surface characteristics of Hansenula Polymorpha: implications for expanded bed adsorption chromatography. Biotechnology and bioprocess engineering, 20(3), 576-584. View at Publisher | View at Google Scholar | View at Indexing
  • Wessner, M., Nowaczyk, M., & Brandenbusch, C. (2020). Rapid identification of tailor-made aqueous two-phase systems for the extractive purification of high-value biomolecules. Journal of Molecular Liquids, 314, 113655. View at Publisher | View at Google Scholar | View at Indexing
  • Yelemane, V., Kangwa, M., & Fernández-Lahore, M. (2016). High-Throughput Screening of Cell Repellent Substrate Chemistry for Application in Expanded Bed Adsorption Chromatography. In Biotechnology and Biochemical Engineering (pp. 145-152). Springer, Singapore. View at Publisher | View at Google Scholar | View at Indexing
  • Dryden, W. A., Larsen, L. M., Britt, D. W., & Smith, M. T. (2021). Technical and economic considerations of cell culture harvest and clarification technologies. Biochemical Engineering Journal, 167, 107892. View at Publisher | View at Google Scholar | View at Indexing
  • de Araújo Padilha, C. E., de Araújo, N. K., de Santana Souza, D. F., de Oliveira, J. A., de Macedo, G. R., & dos Santos, E. S. (2016). Modeling and simulation of Bacillus cereus chitosanase activity during purification using expanded bed chromatography. Korean Journal of Chemical Engineering, 33(9), 2650-2658. View at Publisher | View at Google Scholar | View at Indexing
  • Wessner, M., Diederich, K., & Brandenbusch, C. (2020). Influence of Sodium Chloride and Lithium Bromide on the Phase Behavior of a Citrate–Polyethylene Glycol 2000 Aqueous Two-Phase System. Journal of Chemical & Engineering Data, 65(8), 4009-4017. View at Publisher | View at Google Scholar | View at Indexing
  • Silva, R. J., Moleirinho, M. G., Moreira, A. S., Xenopoulos, A., Alves, P. M., Carrondo, M. J., & Peixoto, C. (2020). A Flow-Through Chromatographic Strategy for Hepatitis C Virus-Like Particles Purification. Processes, 8(1), 85. View at Publisher | View at Google Scholar | View at Indexing
  • González?Mora, A., Ruiz?Ruiz, F., Benavides, J., & Rito?Palomares, M. (2018). Improved recovery of bacteriophage M13 using an ATPS?based bioprocess. Biotechnology progress, 34(5), 1177-1184. View at Publisher | View at Google Scholar | View at Indexing
  • Kisuule, N., Kiggundu, N., & Banadda, N. (2021). A Review of Bio-Processing of Market Crop Waste to Poultry Feed in Uganda. Journal of Sustainable Development, 14(1). View at Publisher | View at Google Scholar | View at Indexing