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Insulin crystallization: The route from hanging-drop vapour diffusion to controlled crystallization in droplet microfluidics

Title
Insulin crystallization: The route from hanging-drop vapour diffusion to controlled crystallization in droplet microfluidics
Type
Article in International Scientific Journal
Year
2022
Authors
Ferreira, J
(Author)
FEUP
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Zsuzsa Sárkány
(Author)
Other
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Filipa Castro
(Author)
FEUP
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Fernando Rocha
(Author)
FEUP
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Simon Kuhn
(Author)
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Journal
Vol. 582
Pages: 1-12
ISSN: 0022-0248
Publisher: Elsevier
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Publicação em ISI Web of Knowledge ISI Web of Knowledge - 0 Citations
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Other information
Authenticus ID: P-00W-05R
Abstract (EN): Although half a century has passed since the mapping of the insulin structure, this globular protein is still currently being investigated. Crystalline drug formulations might replace the subcutaneous injections for diabetes treatment. However, these crystalline forms require carefully tailored properties to sustain controlled release (e.g. longer storage lifetimes and higher purity). Among others, crystal size polydispersity might reduce the speed of insulin release. Here, two distinct crystallization techniques are applied to study insulin crystallization, hanging-drop vapour diffusion and microbatch (droplet microfluidics), and an operating regime map is derived. Rhombohedral insulin crystals with variable size are produced inside the microdroplets for a broad range of insulin concentrations, while aggregate and/or agglomerate formation is observed during the hangingdrop experiments at low protein concentrations. These differences are likely explained by the way acetone evaporation is controlled in each technique. In fact, circular dichroism spectra reveal differences on insulin's secondary structure at variable acetone concentration, including the reduction of alpha-helical content, with no visible beta-sheet-rich structures or random coils. Finally, contrary to what has been reported for other proteins, no temperature effect on insulin crystal size is observed within a range from 10 degrees C to 20 degrees C. This work highlights the formation of insulin crystals in confined microdroplets towards a better control over the insulin crystal size.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 12
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