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The stability of insulin in solid formulations containing melezitose and starch. Effects of processing and excipients

Mollmann, S. H. ; Bukrinsky, J. T. ; Elofsson, U. ; Elversson, J. ; Frokjaer, S. ; Thalberg, K. LU and Millqvist-Fureby, A. LU (2006) In Drug Development and Industrial Pharmacy 32(6). p.765-778
Abstract

Solid insulin formulations obtained by different methods of preparation were compared with respect to chemical stability and morphology. Spray- and freeze-drying, solution enhanced dispersion by supercritical fluids (SEDS) and precipitation into starch microspheres were the methods used for preparation of solid powders. The excipients applied were melezitose, starch, and sodium taurocholate. The stability of the samples was evaluated after storage in open containers at 25°C and 30% RH for 6 months. All samples were amorphous after processing and storage as detected by XRD, except for the starch microspheres which were semi-crystalline. The spray- and freeze-dried samples containing melezitose and sodium taurocholate experienced a... (More)

Solid insulin formulations obtained by different methods of preparation were compared with respect to chemical stability and morphology. Spray- and freeze-drying, solution enhanced dispersion by supercritical fluids (SEDS) and precipitation into starch microspheres were the methods used for preparation of solid powders. The excipients applied were melezitose, starch, and sodium taurocholate. The stability of the samples was evaluated after storage in open containers at 25°C and 30% RH for 6 months. All samples were amorphous after processing and storage as detected by XRD, except for the starch microspheres which were semi-crystalline. The spray- and freeze-dried samples containing melezitose and sodium taurocholate experienced a significant water uptake during storage, resulting in changes in morphology and disappearance of Tg. However, the chemical stability of these samples did not seem to be affected by the water uptake. Changes in morphology were not observed for the SEDS powders and the starch microspheres. The chemical stability of the samples was assessed by HPLC. In general, conventional spray- and freeze drying resulted in samples with higher chemical stability compared to SEDS powders and starch microspheres. Nevertheless, the excipients applied were observed to be of major importance, and further optimization of the formulation as well as processing conditions may lead to slightly different conclusions.

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author
; ; ; ; ; and
publishing date
type
Contribution to journal
publication status
published
keywords
Chemical stability, Freeze-drying, Insulin, Lyophilization, SEDS, Spray-drying, Starch microspheres
in
Drug Development and Industrial Pharmacy
volume
32
issue
6
pages
14 pages
publisher
Taylor & Francis
external identifiers
  • scopus:33746876037
  • pmid:16885131
ISSN
0363-9045
DOI
10.1080/03639040600712458
language
English
LU publication?
no
id
d4b3d638-5dd7-4d19-94a9-1311d5a86939
date added to LUP
2025-04-14 17:18:11
date last changed
2025-04-30 13:54:30
@article{d4b3d638-5dd7-4d19-94a9-1311d5a86939,
  abstract     = {{<p>Solid insulin formulations obtained by different methods of preparation were compared with respect to chemical stability and morphology. Spray- and freeze-drying, solution enhanced dispersion by supercritical fluids (SEDS) and precipitation into starch microspheres were the methods used for preparation of solid powders. The excipients applied were melezitose, starch, and sodium taurocholate. The stability of the samples was evaluated after storage in open containers at 25°C and 30% RH for 6 months. All samples were amorphous after processing and storage as detected by XRD, except for the starch microspheres which were semi-crystalline. The spray- and freeze-dried samples containing melezitose and sodium taurocholate experienced a significant water uptake during storage, resulting in changes in morphology and disappearance of Tg. However, the chemical stability of these samples did not seem to be affected by the water uptake. Changes in morphology were not observed for the SEDS powders and the starch microspheres. The chemical stability of the samples was assessed by HPLC. In general, conventional spray- and freeze drying resulted in samples with higher chemical stability compared to SEDS powders and starch microspheres. Nevertheless, the excipients applied were observed to be of major importance, and further optimization of the formulation as well as processing conditions may lead to slightly different conclusions.</p>}},
  author       = {{Mollmann, S. H. and Bukrinsky, J. T. and Elofsson, U. and Elversson, J. and Frokjaer, S. and Thalberg, K. and Millqvist-Fureby, A.}},
  issn         = {{0363-9045}},
  keywords     = {{Chemical stability; Freeze-drying; Insulin; Lyophilization; SEDS; Spray-drying; Starch microspheres}},
  language     = {{eng}},
  month        = {{06}},
  number       = {{6}},
  pages        = {{765--778}},
  publisher    = {{Taylor & Francis}},
  series       = {{Drug Development and Industrial Pharmacy}},
  title        = {{The stability of insulin in solid formulations containing melezitose and starch. Effects of processing and excipients}},
  url          = {{http://dx.doi.org/10.1080/03639040600712458}},
  doi          = {{10.1080/03639040600712458}},
  volume       = {{32}},
  year         = {{2006}},
}