Protein loaded mesoporous silica spheres as a controlled delivery platform


Autoria(s): Ho, Jenny; Danquah, Michael K.; Wang, Huanting; Forde, Gareth M.
Data(s)

2008

Resumo

Background The adsorption of bovine serum albumin (BSA) onto mesoporous silica spheres (MPS) synthesized from silica colloids was studied employing real time in situ measurements. The stabilities of the BSA at different pH values, their isoelectric points and zeta potentials were determined in order to probe the interactions between the protein and the mesoporous silica. Results The pore size of MPS was designed for protein, and this, coupled with an in depth understanding of the physico-chemical characteristics of the protein and MPS has yielded a better binding capacity and delivery profile. The adsorption isotherm at pH 4.2 fitted the Langmuir model and displayed the highest adsorption capacity (71.43 mg mL-1 MPS). Furthermore, the delivery rates of BSA from the MPS under physiological conditions were shown to be dependent on the ionic strength of the buffer and protein loading concentration. Conclusion Economics and scale-up considerations of mesoporous material synthesized via destabilization of colloids by electrolyte indicate the scaleability and commercial viability of this technology as a delivery platform for biopharmaceutical applications.

Identificador

http://eprints.qut.edu.au/81546/

Publicador

John Wiley & Sons Ltd.

Relação

DOI:10.1002/jctb.1818

Ho, Jenny, Danquah, Michael K., Wang, Huanting, & Forde, Gareth M. (2008) Protein loaded mesoporous silica spheres as a controlled delivery platform. Journal of Chemcial Technology and Biotechnology, 83(3), pp. 351-358.

Fonte

School of Chemistry, Physics & Mechanical Engineering; Science & Engineering Faculty

Palavras-Chave #Colloidal silica #In vitro delivery studies #Mesoporous silica sphere #Protein adsorption #Protein delivery platform #Adsorption isotherms #Colloids #Drug products #Electrolytes #Mesoporous materials #pH #Proteins #Silica #Zeta potential #Biopharmaceutical application #Delivery platform #Isoelectric points #Controlled drug delivery #bovine serum albumin #drug #silicon dioxide #adsorption kinetics #article #drug delivery system #in vitro study #isoelectric point #physical chemistry #porosity #protein binding #protein expression #protein interaction #protein stability #protein synthesis #surface property #Bovinae
Tipo

Journal Article