Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose
Amorphous curcumin-albumin nanoplex (size ≈ 100 nm, 55 wt% curcumin content) is a highly promising nanoscale delivery system of curcumin attributed to its high curcumin's payload and kinetic solubility. Its storage stability, however, has not been established. Previously, freeze-dried nanoplex...
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sg-ntu-dr.10356-1703092023-09-06T04:36:44Z Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose Tran, The-Thien Chua, Angeline Pu, Siyu Park, Jin-Won Hadinoto, Kunn School of Chemistry, Chemical Engineering and Biotechnology Engineering::Bioengineering Curcumin Nanoparticles Bovine Serum Albumin Amorphous curcumin-albumin nanoplex (size ≈ 100 nm, 55 wt% curcumin content) is a highly promising nanoscale delivery system of curcumin attributed to its high curcumin's payload and kinetic solubility. Its storage stability, however, has not been established. Previously, freeze-dried nanoplex with sucrose as stabilizer was found to lose its curcumin solubility enhancement capability after storage. The present work investigated trehalose as the freeze-dried nanoplex's stabilizer during one-month accelerated storage at 40 °C and 75% relative humidity. The investigation was performed at trehalose mass fractions between 0 and 66.66%. The storage stability was evaluated in terms of the (1) curcumin and albumin payloads, (2) albumin's structural integrity, (3) nanoplex's aggregation tendency, (4) amorphous curcumin's devitrification tendency, and (5) curcumin's dissolution profile and supersaturation generation. The results showed that amorphous curcumin in the freeze-dried nanoplex was minimally affected by storage and its fast dissolution from the nanoplex was preserved after storage. On the other hand, trehalose inclusion at > 50 wt% was needed to minimize albumin aggregation and to prevent nanoplex aggregation as evidenced by poor aqueous reconstitution after storage. At trehalose mass fraction >50%, curcumin supersaturation generation was preserved after storage owed to albumin's crystallization-inhibiting activity. Nanyang Technological University The authors would like to acknowledge Nanyang Research Program (2022) for the consumable supports. 2023-09-06T04:36:43Z 2023-09-06T04:36:43Z 2023 Journal Article Tran, T., Chua, A., Pu, S., Park, J. & Hadinoto, K. (2023). Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose. Journal of Drug Delivery Science and Technology, 83, 104425-. https://dx.doi.org/10.1016/j.jddst.2023.104425 1773-2247 https://hdl.handle.net/10356/170309 10.1016/j.jddst.2023.104425 2-s2.0-85151748945 83 104425 en Journal of Drug Delivery Science and Technology © 2023 Elsevier B.V. All rights reserved. |
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Engineering::Bioengineering Curcumin Nanoparticles Bovine Serum Albumin |
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Engineering::Bioengineering Curcumin Nanoparticles Bovine Serum Albumin Tran, The-Thien Chua, Angeline Pu, Siyu Park, Jin-Won Hadinoto, Kunn Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| description |
Amorphous curcumin-albumin nanoplex (size ≈ 100 nm, 55 wt% curcumin content) is a highly promising nanoscale delivery system of curcumin attributed to its high curcumin's payload and kinetic solubility. Its storage stability, however, has not been established. Previously, freeze-dried nanoplex with sucrose as stabilizer was found to lose its curcumin solubility enhancement capability after storage. The present work investigated trehalose as the freeze-dried nanoplex's stabilizer during one-month accelerated storage at 40 °C and 75% relative humidity. The investigation was performed at trehalose mass fractions between 0 and 66.66%. The storage stability was evaluated in terms of the (1) curcumin and albumin payloads, (2) albumin's structural integrity, (3) nanoplex's aggregation tendency, (4) amorphous curcumin's devitrification tendency, and (5) curcumin's dissolution profile and supersaturation generation. The results showed that amorphous curcumin in the freeze-dried nanoplex was minimally affected by storage and its fast dissolution from the nanoplex was preserved after storage. On the other hand, trehalose inclusion at > 50 wt% was needed to minimize albumin aggregation and to prevent nanoplex aggregation as evidenced by poor aqueous reconstitution after storage. At trehalose mass fraction >50%, curcumin supersaturation generation was preserved after storage owed to albumin's crystallization-inhibiting activity. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Tran, The-Thien Chua, Angeline Pu, Siyu Park, Jin-Won Hadinoto, Kunn |
| format |
Article |
| author |
Tran, The-Thien Chua, Angeline Pu, Siyu Park, Jin-Won Hadinoto, Kunn |
| author_sort |
Tran, The-Thien |
| title |
Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| title_short |
Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| title_full |
Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| title_fullStr |
Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| title_full_unstemmed |
Maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| title_sort |
maintaining supersaturation generation and protein integrity of amorphous curcumin-albumin nanoplex during storage by freeze drying with trehalose |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170309 |
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1779156576031997952 |