Martin J. Whitaker scite author profile

Synthetic scaffold materials are used in tissue engineering for a variety of applications, including physical supports for the creation of functional tissues, protective gels to aid in wound healing and to encapsulate cells for localized hormone-delivery therapies. In order to encourage successful tissue growth, these scaffold materials must incorporate vital growth factors that are released to control their development. A major challenge lies in the requirement for these growth factor delivery mechanisms to mimic the in-vivo release profiles of factors produced during natural tissue morphogenesis or repair. This review highlights some of the major strategies for creating scaffold constructs reported thus far, along with the approaches taken to incorporate growth factors within the materials and the benefits of combining tissue engineering and drug delivery expertise.

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Applications of supercritical CO2 in the fabrication of polymer systems for drug delivery and tissue engineering

Davies

Lewis

Whitaker

et al. 2008

Advanced Drug Delivery Reviews

263

159

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Supercritical fluid mixing: preparation of thermally sensitive polymer composites containing bioactive materials

et al. 2001

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We report the use of supercritical carbon dioxide (scCO 2 ) to create a diverse range of polymeric composites incorporating thermal and solvent labile guest materials such as proteins; no additional co-solvents are required; the entire process can be carried out at near ambient conditions; polymer morphology is controllable; high loadings of guest species can be achieved and the protein function is retained.

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Salivary Cortisone Reflects Cortisol Exposure Under Physiological Conditions and After Hydrocortisone

et al. 2016

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A Phase 2 Study of Chronocort, a Modified-Release Formulation of Hydrocortisone, in the Treatment of Adults With Classic Congenital Adrenal Hyperplasia

Mallappa

Sinaii

Kumar

et al. 2015

The Journal of Clinical Endocrinology & Metabolism

136

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