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.

• Arora, D., Khurana, B., Narang, R. K., & Nanda, S. (2016). Quality by design (QbD) approach for optimization and development of nano drug delivery systems. Trends Drug Deliv, 3, 23-32. View at Publisher | View at Google Scholar | View at Indexing
• N. Politis, S., Colombo, P., Colombo, G., & M. Rekkas, D. (2017). Design of experiments (DoE) in pharmaceutical development. Drug development and industrial pharmacy, 43(6), 889-901. View at Publisher | View at Google Scholar | View at Indexing
• Bastogne, T. (2017). Quality-by-design of nanopharmaceuticals–a state of the art. Nanomedicine: Nanotechnology, Biology and Medicine, 13(7), 2151-2157. View at Publisher | View at Google Scholar | View at Indexing
• Pacholarz, K. J., Porrini, M., Garlish, R. A., Burnley, R. J., Taylor, R. J., Henry, A. J., & Barran, P. E. (2014). Dynamics of intact immunoglobulin G explored by drift?tube ion?mobility mass spectrometry and molecular modeling. Angewandte Chemie International Edition, 53(30), 7765-7769. View at Publisher | View at Google Scholar | View at Indexing
• Liu, X., Yang, Y., Zhang, W., Sun, Y., Peng, F., Jeffrey, L., ... & Bai, Z. (2016). Expression of recombinant protein using Corynebacterium glutamicum: progress, challenges and applications. Critical reviews in biotechnology, 36(4), 652-664. View at Publisher | View at Google Scholar | View at Indexing
• Kyriakopoulos, S., Ang, K. S., Lakshmanan, M., Huang, Z., Yoon, S., Gunawan, R., & Lee, D. Y. (2018). Kinetic modeling of mammalian cell culture bioprocessing: the quest to advance biomanufacturing. Biotechnology journal, 13(3), 1700229. View at Publisher | View at Google Scholar | View at Indexing
• McGillicuddy, N., Floris, P., Albrecht, S., & Bones, J. (2018). Examining the sources of variability in cell culture media used for biopharmaceutical production. Biotechnology letters, 40(1), 5-21. View at Publisher | View at Google Scholar | View at Indexing
• Salazar-Fontana, L. I., Desai, D. D., Khan, T. A., Pillutla, R. C., Prior, S., Ramakrishnan, R., ... & Joseph, A. (2017). Approaches to mitigate the unwanted immunogenicity of therapeutic proteins during drug development. The AAPS journal, 19(2), 377-385. View at Publisher | View at Google Scholar | View at Indexing
• Spearman, M., Chan, S., Jung, V., Kowbel, V., Mendoza, M., Miranda, V., & Butler, M. (2016). Components of yeast (Sacchromyces cervisiae) extract as defined media additives that support the growth and productivity of CHO cells. Journal of biotechnology, 233, 129-142. View at Publisher | View at Google Scholar | View at Indexing
• Kornecki, M., Mestmäcker, F., Zobel-Roos, S., Heikaus de Figueiredo, L., Schlüter, H., & Strube, J. (2017). Host cell proteins in biologics manufacturing: the good, the bad, and the ugly. Antibodies, 6(3), 13. View at Publisher | View at Google Scholar | View at Indexing
• Kornecki, M., Mestmäcker, F., Zobel-Roos, S., Heikaus de Figueiredo, L., Schlüter, H., & Strube, J. (2017). Host cell proteins in biologics manufacturing: the good, the bad, and the ugly. Antibodies, 6(3), 13. View at Publisher | View at Google Scholar | View at Indexing
• Akhunzada, Z., Wu, Y., Haby, T., Jayawickrama, D., McGeorge, G., La Colla, M., ... & Abraham, A. (2021). Analysis of biopharmaceutical formulations by Time Domain Nuclear Magnetic Resonance (TD-NMR) spectroscopy: A potential method for detection of counterfeit biologic pharmaceuticals. Journal of Pharmaceutical Sciences. View at Publisher | View at Google Scholar | View at Indexing
• Aguiar-Ricardo, A. (2017). Building dry powder formulations using supercritical CO2 spray drying. Current Opinion in Green and Sustainable Chemistry, 5, 12-16. View at Publisher | View at Google Scholar | View at Indexing
• Baradez, M. O., Biziato, D., Hassan, E., & Marshall, D. (2018). Application of Raman spectroscopy and univariate modelling as a process analytical technology for cell therapy bioprocessing. Frontiers in medicine, 5, 47. View at Publisher | View at Google Scholar | View at Indexing
• Schinn, S. M., Morrison, C., Wei, W., Zhang, L., & Lewis, N. E. (2021). Systematic evaluation of parameters for genome-scale metabolic models of cultured mammalian cells. Metabolic Engineering, 66, 21-30. View at Publisher | View at Google Scholar | View at Indexing
• Gandhi, A., & Roy, C. (2016). Quality by Design (QbD) in pharmaceutical industry: tools, perspectives and challenges. PharmaTutor, 4(11), 12-20. View at Publisher | View at Google Scholar | View at Indexing
• Toprani, V. M., Hickey, J. M., Sahni, N., Toth IV, R. T., Robertson, G. A., Middaugh, C. R., ... & Volkin, D. B. (2017). Structural characterization and physicochemical stability profile of a double mutant heat labile toxin protein based adjuvant. Journal of pharmaceutical sciences, 106(12), 3474-3485. View at Publisher | View at Google Scholar | View at Indexing
• Kalbfleisch, K., Deshmukh, S., Mei, C., Ore, M., Williams, W., Durowoju, I., ... & Kirkitadze, M. (2019). Identity, structure and compositional analysis of aluminum phosphate adsorbed pediatric quadrivalent and pentavalent vaccines. Computational and structural biotechnology journal, 17, 14-20. View at Publisher | View at Google Scholar | View at Indexing
• Kirkitadze, M., Remi, E., Bhandal, K., & Carpick, B. (2016). Visible and subvisible particles in the BCG immunotherapeutic product ImmuCyst®. Computational and structural biotechnology journal, 14, 154-160. View at Publisher | View at Google Scholar | View at Indexing
• Duprez, J., Kalbfleisch, K., Deshmukh, S., Payne, J., Haer, M., Williams, W., ... & Kirkitadze, M. (2021). Structure and compositional analysis of aluminum oxyhydroxide adsorbed pertussis vaccine. Computational and structural biotechnology journal, 19, 439-447. View at Publisher | View at Google Scholar | View at Indexing
• Kirkitadze, M., Hu, J., Tang, M., & Carpick, B. (2014). Qualification of a differential scanning calorimetry method for biophysical characterization of monoclonal antibodies and protein vaccine antigens. Pharmaceutical Bioprocessing, 2(6), 491-498. View at Publisher | View at Google Scholar | View at Indexing
• Sávoly, Z., Szilágyi, E., Bihari, Z., & Szabados, H. (2021). Method development for the clearance study of the Pluronic F-68 nonionic surfactant used in the upstream process of monoclonal antibody production. Journal of Pharmaceutical and Biomedical Analysis, 204, 114249. View at Publisher | View at Google Scholar | View at Indexing
• Zhao, C., Han, S., Yang, S., & Xin, W. (2019). Validation and application of a novel LC/MS/MS method for the determination of isoginkgetin in rat plasma. Biomedical Chromatography, 33(11), e4667. View at Publisher | View at Google Scholar | View at Indexing
• Yu, J. J., Zhang, C. S., Zhang, A. L., May, B., Xue, C. C., & Lu, C. (2013). Add-on effect of Chinese herbal medicine bath to phototherapy for psoriasis vulgaris: a systematic review. Evidence-Based Complementary and Alternative Medicine, 2013. View at Publisher | View at Google Scholar | View at Indexing
• Bertrand, V., Karst, D. J., Bachmann, A., Cantalupo, K., Soos, M., & Morbidelli, M. (2019). Transcriptome and proteome analysis of steady?state in a perfusion CHO cell culture process. Biotechnology and bioengineering, 116(8), 1959-1972. View at Publisher | View at Google Scholar | View at Indexing
• Godambe, R. D., Disouza, J. I., Jamkhandi, C. M., & Kumbhar, P. S. (2018). Development of spectrophotometric and fluorometric methods for estimation of darunavir using Qbd approach. Int J Curr Pharm Res, 10(1), 13-19. View at Publisher | View at Google Scholar | View at Indexing
• Lanati, A., Poli, C., Imberti, M., Menegon, A., & Grohovaz, F. (2015). A design of experiment approach to optimize an image analysis protocol for drug screening. In Mathematical Models in Biology (pp. 65-84). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
• Vinod Kumar, P. Vedolizumab in Ulcerative Colitis and Crohn’s Disease-A Systematic Review. Int Pharm Sci 2021; 12: 112. doi: 10.31531/2231-5896.1000112 2 (RB) and record stomach pain (AP) in CD (Figure 1)[1, 2]. In human beings with IBD, GI errors food or microorganism for overseas materials ensuing in continual irritation because the lining of the bowel is with the aid of using activating the immune device (Figure 1). Inflammation process in IBD. View at Publisher | View at Google Scholar | View at Indexing
• Marshall, D., Ward, S., & Baradez, M. O. (2016). Requirement for smart in-process control systems to deliver cell therapy processes fit for the 21st century. Cell Gene Ther Insights, 2(6), 683-9. View at Publisher | View at Google Scholar | View at Indexing
• Ramu, G., Bhavya, C. H., Vamshi, K. D., & Manisha, S. (2020). Effect of Pravastatin on Development of Diabetes Mellitus-A Statement of Review. International Journal of Pharmaceutics & Pharmacology, 4(2), 1-4. View at Publisher | View at Google Scholar | View at Indexing
• Gerstweiler, L., Bi, J., & Middelberg, A. P. (2021). Continuous downstream bioprocessing for intensified manufacture of biopharmaceuticals and antibodies. Chemical Engineering Science, 231, 116272. View at Publisher | View at Google Scholar | View at Indexing
• Bhusari, S., Gotmare, B., & Wakte, P. (2019). Development and validation of UV-spectrophotometric method for estimation of Baicalein in Oroxylum indicum leaf extract. View at Publisher | View at Google Scholar | View at Indexing
• Brown, Adam J., Devika Kalsi, Alejandro Fernandez?Martell, Joe Cartwright, Nicholas OW Barber, Yash D. Patel, Richard Turner, Claire L. Bryant, Yusuf B. Johari, and David C. James. "Expression Systems for Recombinant Biopharmaceutical Production by Mammalian Cells in Culture." Protein Therapeutics 2 (2017): 423-467. View at Publisher | View at Google Scholar | View at Indexing
• Choi, G., Le, T. H., & Shin, S. (2016). A new multidimensional design space identification method for a quality-oriented drug development process. Total Quality Management & Business Excellence, 27(7-8), 804-817. View at Publisher | View at Google Scholar | View at Indexing
• Goey, C. H. (2016). Cascading effects in bioprocessing: the impact of cell culture environment on CHO cell behaviour and host cell protein species. View at Publisher | View at Google Scholar | View at Indexing
• Isah, T., Umar, S., Mujib, A., Sharma, M. P., Rajasekharan, P. E., Zafar, N., & Frukh, A. (2018). Secondary metabolism of pharmaceuticals in the plant in vitro cultures: strategies, approaches, and limitations to achieving higher yield. Plant Cell, Tissue and Organ Culture (PCTOC), 132(2), 239-265. View at Publisher | View at Google Scholar | View at Indexing
• Taticek, R., & Liu, J. (2015). Definitions and scope of key elements of QbD. In Quality by Design for Biopharmaceutical Drug Product Development (pp. 31-46). Springer, New York, NY. View at Publisher | View at Google Scholar | View at Indexing
• Owczarek, B., Gerszberg, A., & Hnatuszko-Konka, K. (2019). A brief reminder of systems of production and chromatography-based recovery of recombinant protein biopharmaceuticals. BioMed research international, 2019. View at Publisher | View at Google Scholar | View at Indexing
• Patel, S. R., & Dasgupta, D. (1970). Quality by design approach to protein PEGylation: a review. Journal of Applied Biology and Biotechnology, 5(4), 085-089. View at Publisher | View at Google Scholar | View at Indexing
• Donini, M., & Marusic, C. (2019). Current state-of-the-art in plant-based antibody production systems. Biotechnology letters, 41(3), 335-346. View at Publisher | View at Google Scholar | View at Indexing
• Georgiev, V., Slavov, A., Vasileva, I., & Pavlov, A. (2018). Plant cell culture as emerging technology for production of active cosmetic ingredients. Engineering in Life Sciences, 18(11), 779-798. View at Publisher | View at Google Scholar | View at Indexing
• Werner, S., Maschke, R. W., Eibl, D., & Eibl, R. (2018). Bioreactor technology for sustainable production of plant cell-derived products. Bioprocessing of plant in vitro systems, 413-432. View at Publisher | View at Google Scholar | View at Indexing
• Shanmugaraj, B., I Bulaon, C. J., & Phoolcharoen, W. (2020). Plant molecular farming: a viable platform for recombinant biopharmaceutical production. Plants, 9(7), 842. View at Publisher | View at Google Scholar | View at Indexing
• Xu, J., Towler, M., & Weathers, P. J. (2018). Platforms for plant-based protein production. Bioprocessing of plant in vitro systems, 509. View at Publisher | View at Google Scholar | View at Indexing
• Park, J., Yan, G., Kwon, K. C., Liu, M., Gonnella, P. A., Yang, S., & Daniell, H. (2020). Oral delivery of novel human IGF-1 bioencapsulated in lettuce cells promotes musculoskeletal cell proliferation, differentiation and diabetic fracture healing. Biomaterials, 233, 119591. View at Publisher | View at Google Scholar | View at Indexing
• Kytidou, K., Beenakker, T. J., Westerhof, L. B., Hokke, C. H., Moolenaar, G. F., Goosen, N., ... & Aerts, J. M. (2017). Human alpha galactosidases transiently produced in nicotiana benthamiana leaves: new insights in substrate specificities with relevance for Fabry disease. Frontiers in plant science, 8, 1026. View at Publisher | View at Google Scholar | View at Indexing
• Jung, J. W., Huy, N. X., Kim, H. B., Kim, N. S., & Yang, M. S. (2017). Production of recombinant human acid α-glucosidase with high-mannose glycans in gnt1 rice for the treatment of Pompe disease. Journal of biotechnology, 249, 42-50. View at Publisher | View at Google Scholar | View at Indexing
• Zhang, N., Gonzalez, M., Savary, B., & Xu, J. (2016). High?yield secretion of recombinant proteins expressed in tobacco cell culture with a designer glycopeptide tag: process development. Biotechnology journal, 11(4), 497-506. View at Publisher | View at Google Scholar | View at Indexing
• Georgiev, V. (2015). Mass propagation of plant cells–an emerging technology platform for sustainable production of biopharmaceuticals. Biochem. Pharmacol.(Los Angel), 4, e180. View at Publisher | View at Google Scholar | View at Indexing
• Islam, M. R., Kim, N. S., Jung, J. W., Kim, H. B., Han, S. C., & Yang, M. S. (2018). Spontaneous pepsin C-catalyzed activation of human pepsinogen C in transgenic rice cell suspension culture: Production and characterization of human pepsin C. Enzyme and microbial technology, 108, 66-73. View at Publisher | View at Google Scholar | View at Indexing

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