Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment
Pharmaceutical tablet productions by direct compaction (DC) are more environmentally sustainable than wet granulation (WG) owed to DC's lower energy consumption. For drug particles with poor flowability, however, the environmental benefits of DC become questionable because DC of such drugs requ...
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sg-ntu-dr.10356-1619202022-09-26T06:01:42Z Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment Hadinoto, Kunn Tran, The-Thien Chua, Angeline Cheow, Wean Sin School of Chemical and Biomedical Engineering Engineering::Chemical engineering Life Cycle Analysis Sustainable Production Pharmaceutical tablet productions by direct compaction (DC) are more environmentally sustainable than wet granulation (WG) owed to DC's lower energy consumption. For drug particles with poor flowability, however, the environmental benefits of DC become questionable because DC of such drugs requires either pre-compaction treatment, increased excipients’ proportion in the tablets, or using excipients with unfavorable sustainability profiles. Using ibuprofen (IBU) as the model drug with poor flowability, we performed cradle-to-gate life cycle assessment (LCA) using ReCiPe 2016 method to characterize the environmental impacts of DC and WG tablet productions. Material and energy flow data from laboratory-scale (1 and 2.2 kg IBU) and simulated pilot-scale (25 kg IBU) productions were utilized in the LCA. Despite the increased proportion of excipients with less-than-ideal sustainability profile in DC tablets, the environmental impacts of DC tablet production remained smaller than WG tablet production across different production scales, as the impacts were governed by process-level energy consumption. The impacts of DC and WG tablet productions, nevertheless, became closer in magnitude with increasing production scale attributed to superior improvements in the energy requirement and yield of WG tablets. Thus, the environmental beneftis of DC tablets over WG tablets was diminished for drugs with poor flowability. We acknowledge the research funding from GlaxoSmithKline Singapore under its Green and Sustainable Pharmaceutical Manufacturing Trust Fund (2017, PI: Kunn Hadinoto Ong). 2022-09-26T06:01:42Z 2022-09-26T06:01:42Z 2022 Journal Article Hadinoto, K., Tran, T., Chua, A. & Cheow, W. S. (2022). Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment. Chemical Engineering Research and Design, 183, 439-451. https://dx.doi.org/10.1016/j.cherd.2022.05.029 0263-8762 https://hdl.handle.net/10356/161920 10.1016/j.cherd.2022.05.029 2-s2.0-85131562537 183 439 451 en Chemical Engineering Research and Design © 2022 Institution of Chemical Engineers. Published by Elsevier Ltd. All rights reserved. |
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Engineering::Chemical engineering Life Cycle Analysis Sustainable Production Hadinoto, Kunn Tran, The-Thien Chua, Angeline Cheow, Wean Sin Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| description |
Pharmaceutical tablet productions by direct compaction (DC) are more environmentally sustainable than wet granulation (WG) owed to DC's lower energy consumption. For drug particles with poor flowability, however, the environmental benefits of DC become questionable because DC of such drugs requires either pre-compaction treatment, increased excipients’ proportion in the tablets, or using excipients with unfavorable sustainability profiles. Using ibuprofen (IBU) as the model drug with poor flowability, we performed cradle-to-gate life cycle assessment (LCA) using ReCiPe 2016 method to characterize the environmental impacts of DC and WG tablet productions. Material and energy flow data from laboratory-scale (1 and 2.2 kg IBU) and simulated pilot-scale (25 kg IBU) productions were utilized in the LCA. Despite the increased proportion of excipients with less-than-ideal sustainability profile in DC tablets, the environmental impacts of DC tablet production remained smaller than WG tablet production across different production scales, as the impacts were governed by process-level energy consumption. The impacts of DC and WG tablet productions, nevertheless, became closer in magnitude with increasing production scale attributed to superior improvements in the energy requirement and yield of WG tablets. Thus, the environmental beneftis of DC tablets over WG tablets was diminished for drugs with poor flowability. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Hadinoto, Kunn Tran, The-Thien Chua, Angeline Cheow, Wean Sin |
| format |
Article |
| author |
Hadinoto, Kunn Tran, The-Thien Chua, Angeline Cheow, Wean Sin |
| author_sort |
Hadinoto, Kunn |
| title |
Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| title_short |
Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| title_full |
Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| title_fullStr |
Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| title_full_unstemmed |
Comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| title_sort |
comparing environmental impacts of direct compaction versus wet granulation tableting methods for drugs with poor flowability by life cycle assessment |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161920 |
| _version_ |
1745574621512466432 |