Abstract |
The present work consists of studies of saturated and supersaturated solutions of diazepam (DZP) in [glycofurol (GF)/water] cosolvent systems, which are a potential dosage form for intranasal administration of DZP in rapid response to epileptic seizure emergencies. Equilibrium solubility of DZP increased in a convex manner with GF content, and also increased with temperature. Rapidly mixed supersaturated 40 mg/mL solutions displayed temporal stability, with long periods before onset of crystallization. Permeation of supersaturated DZP across polydimethylsiloxane (PDMS) membranes, chosen as an in vitro model for nasal mucosa, was shown to be well described by Theeuwes's transference equation, when DZP was formulated up to three times its solubility in a particular cosolvent vehicle. Transference and time lag were independent of vehicle composition, indicating that permeation enhancement was due virtually exclusively to enhanced driving force due to supersaturation. Implications of these results on potential intranasal DZP delivery systems based on supersaturation are discussed.
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Authors | Hao Hou, Ronald A Siegel |
Journal | Journal of pharmaceutical sciences
(J Pharm Sci)
Vol. 95
Issue 4
Pg. 896-905
(Apr 2006)
ISSN: 0022-3549 [Print] United States |
PMID | 16493587
(Publication Type: Journal Article, Research Support, N.I.H., Extramural)
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Chemical References |
- Anticonvulsants
- Dimethylpolysiloxanes
- Membranes, Artificial
- Silicones
- Solutions
- Solvents
- Water
- Polyethylene Glycols
- baysilon
- Diazepam
- glycofurol
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Topics |
- Administration, Intranasal
- Anticonvulsants
(administration & dosage, chemistry, metabolism)
- Chemistry, Pharmaceutical
- Diazepam
(administration & dosage, chemistry, metabolism)
- Diffusion
- Dimethylpolysiloxanes
(chemistry)
- Drug Stability
- Humans
- Membranes, Artificial
- Models, Biological
- Nasal Mucosa
(chemistry, metabolism)
- Permeability
- Polyethylene Glycols
(chemistry)
- Silicones
(chemistry)
- Solubility
- Solutions
- Solvents
(chemistry)
- Time Factors
- Water
(chemistry)
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