2019
DOI: 10.3390/pr7060318
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Dynamic Modelling and Optimisation of the Batch Enzymatic Synthesis of Amoxicillin

Abstract: Amoxicillin belongs to the β-lactam family of antibiotics, a class of highly consumed pharmaceutical products used for the treatment of respiratory and urinary tract infections, and is listed as a World Health Organisation (WHO) "Essential Medicine". The demonstrated batch enzymatic synthesis of amoxicillin is composed of a desired synthesis and two undesired hydrolysis reactions of the main substrate (6-aminopenicillanic acid (6-APA)) and amoxicillin. Dynamic simulation and optimisation can be used to establi… Show more

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Cited by 10 publications
(5 citation statements)
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References 29 publications
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“…Kuu et al 7 Primary drying of 5% mannitol and 5% povidone Batch Y Sadikoglu and Liapis 8 Drying stages in bulk solution freeze-drying of pharmaceuticals in trays Batch Y Togkalidou et al 9 Cooling crystallization of a drug compound Batch Y Hermanto et al 10 Crystallization of L-glutamic acid polymorphs Batch N Velardi et al 11 Freeze-drying of bovine serum albumin, sucrose, and mannitol Batch Y Mortier et al 12 Drying behavior of single pharmaceutical granules Continuous Y Barrasso et al 13 Manufacturing of microcrystalline cellulose and tablets Continuous N Barrasso et al 14 Twin screw granulation process Continuous Y Selisteanu et al 15 Monoclonal antibody production using mammalian cell culture process Batch Y Gagnon et al 16 Drying of pharmaceutical particles containing calcium carbonate Batch N Garcıa-Munoz et al 17 Direct compression process for pharmaceutical tablets Continuous N Garg et al 18 Antisolvent crystallization for production of dexlansoprazole Batch Y Montes et al 19 Hoescht process for the synthesis of ibuprofen Batch Y Wang et al 20 Chinese hamster ovary cell metabolism to produce antibody Fed-batch N Cuthbertson et al 21 Enzymatic synthesis of amoxicillin Batch Y Lee et al 22 Kinetics, evaporation, and crystallization in the manufacturing of active pharmaceutical ingredients (API) Batch, continuous Y Maloney et al 23 Carfilzomib drug substance intermediate manufacturing Batch, continuous N Schenk et al 24 Multistage solid-liquid pharmaceutical process for urea compound synthesis Fed-batch N Diab et al 25 Flow synthesis kinetics for an anticancer API called Lomustine Continuous Y Grimard et al 26 Hot-melt extrusion process for the manufacturing of itraconazole tablets…”
Section: Number Of Unknown Parametersmentioning
confidence: 99%
“…Kuu et al 7 Primary drying of 5% mannitol and 5% povidone Batch Y Sadikoglu and Liapis 8 Drying stages in bulk solution freeze-drying of pharmaceuticals in trays Batch Y Togkalidou et al 9 Cooling crystallization of a drug compound Batch Y Hermanto et al 10 Crystallization of L-glutamic acid polymorphs Batch N Velardi et al 11 Freeze-drying of bovine serum albumin, sucrose, and mannitol Batch Y Mortier et al 12 Drying behavior of single pharmaceutical granules Continuous Y Barrasso et al 13 Manufacturing of microcrystalline cellulose and tablets Continuous N Barrasso et al 14 Twin screw granulation process Continuous Y Selisteanu et al 15 Monoclonal antibody production using mammalian cell culture process Batch Y Gagnon et al 16 Drying of pharmaceutical particles containing calcium carbonate Batch N Garcıa-Munoz et al 17 Direct compression process for pharmaceutical tablets Continuous N Garg et al 18 Antisolvent crystallization for production of dexlansoprazole Batch Y Montes et al 19 Hoescht process for the synthesis of ibuprofen Batch Y Wang et al 20 Chinese hamster ovary cell metabolism to produce antibody Fed-batch N Cuthbertson et al 21 Enzymatic synthesis of amoxicillin Batch Y Lee et al 22 Kinetics, evaporation, and crystallization in the manufacturing of active pharmaceutical ingredients (API) Batch, continuous Y Maloney et al 23 Carfilzomib drug substance intermediate manufacturing Batch, continuous N Schenk et al 24 Multistage solid-liquid pharmaceutical process for urea compound synthesis Fed-batch N Diab et al 25 Flow synthesis kinetics for an anticancer API called Lomustine Continuous Y Grimard et al 26 Hot-melt extrusion process for the manufacturing of itraconazole tablets…”
Section: Number Of Unknown Parametersmentioning
confidence: 99%
“…The development of state estimators for bioprocesses is a challenging task owing to the increased complexity of such systems, mainly associated with their highly nonlinear and time-varying dynamics. Consequently, the adequate description of the dynamics of the enzyme kinetics, or the cells' growth and production rates, usually involves nonlinear process models with a large number of parameters (that may be time-dependent or not) [105,106]. Moreover, single models are often valid only in a limited period of time or range of operating conditions [13,52,107,108].…”
Section: Bioprocess Monitoringmentioning
confidence: 99%
“…Human antibiotic production, particularly β-lactams (whose broad applications and importance in global healthcare make them high priority), has received a lot of attention in process systems engineering in the past decade; a summary of pertinent literature examples on modeling and optimization of antibiotic production is provided in Table 1. Application of artificial neural networks (ANNs) to model complex reaction scheme for penicillin G acylase (PGA)-catalyzed synthesis [12] Inclusion of additional experimental data to improve ANN in reference [12] [13] Maximization of API formation vs. different operating conditions in either methanol/ethylene glycol as reaction solvents [14] Sensitivity analysis on previous ANN study [12] [15] Modeling and simulation of continuous reactive crystallization in presence of substrates and impurities [16,17] Dynamic optimization of non-isothermal batch reactor [18] Ampicillin UTIs Pneumonia Gonorrhea Meningitis Abdominal infections Regression of nucleation and growth kinetics for pH crystallization model [19] Modeling and simulation of reactive crystallization in presence of substrates and impurities [20] Modeling and simulation of continuous reactive crystallization in presence of substrates and impurities [16,17] Multi-objective dynamic optimization of pH crystallization [21] Cephalexin UTIs…”
Section: Process Modeling and Optimization Studiesmentioning
confidence: 99%