The capital, operating, and overall costs of a dedicated continuous manufacturing process to synthesize an active pharmaceutical ingredient (API) and formulate it into tablets are estimated for a production scale of 2000 t of tablets per year, with raw material cost, production yield, and API loading varied over broad ranges. Costs are compared to batch production in a dedicated facility. Synthesis begins with a key organic intermediate three synthetic steps before the final API; results are given for key intermediate (KI) costs of $100 to $3000/kg, with drug loadings in the tablet of 10 and 50 wt %. The novel continuous process described here is being developed by an interdisciplinary team of 20 researchers. Since yields are not yet well-known, and continuous processes typically have better yields than batch ones, the overall yields of the continuous processes with recycling were set equal to that of the batch process. Without recycling, yields are 10% lower, but less equipment is required. The continuous process has not been built at large scale, so Wroth factors and other assumptions were used to estimate costs. Capital expenditures for continuous production were estimated to be 20 to 76% lower, depending on the drug loading, KI cost, and process chosen; operating expenditures were estimated to be between 40% lower and 9% higher. The novel continuous process with recycling coupled to a novel direct tablet formation process yields the best overall cost savings in each drug loading/KI price scenario: estimated savings range from 9 to 40%. Overall cost savings are also given assuming the yield in the continuous case is 10% above and 10% below that of the batch process. Even when yields in the continuous case are lower than in the batch case, savings can still be achieved because the labor, materials handling, CapEx, and other savings compensate.
Increasing Research and Development (R&D) costs, growing competition from generic manufacturers and dwindling market introduction rates for novel drug products bolster the efforts of pharmaceutical firms to secure competitiveness by investigating Continuous Pharmaceutical Manufacturing (CPM). The present paper explores the CPM of two key Active Pharmaceutical Ingredients (APIs), ibuprofen and artemisinin: cost savings and material efficiency benefits are evaluated for CPM vs. batch processing, with two continuous options for each API. Capital Expenditure (CapEx) savings of up to 57.0% and 19.6% and corresponding Operating Expenditure (OpEx) savings of up to 51.6% and 29.3% have been determined for ibuprofen and artemisinin, respectively. Total projected cost savings for a 20-year plant lifetime can reach 54.5% and 20.1%, respectively. Environmental (E)-factors (mass of waste generated per unit mass of product) of 43.4 (for ibuprofen) and 12.2 (for artemisinin) have been computed, indicating environmental and material efficiency advantages for these conceptual continuous pharmaceutical processes.
Continuous Pharmaceutical Manufacturing (CPM) is a rapidly expanding research field with growing industrial importance: challenging the current batch production paradigm, it has a documented potential to deliver key cost, efficiency and environmental benefits. Ibuprofen, the potent painkiller, and artemisinin, a highly effective anti-malarial drug, have been identified as promising CPM candidates, and steady-state flowsheet models have been developed on the basis of published continuous organic synthesis pathways. Reactor design has been conducted using original kinetic parameter estimation results. A comparative economic analysis via published recoveries has computed performance indices which indicate that both CPM designs exhibit high economic potential, even if conservative profit and climate estimates are used to derive capital and operating costs. More detailed technoeconomic analyses can facilitate quicker CPM implementations.
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