Synthesis and enhanced thermal stability of albumins@alumina: Towards injectable sol-gel materials

Avi Rutenberg; Vladimir V. Vinogradov; David Avnir

doi:10.1039/c3cc41696h

Synthesis and enhanced thermal stability of albumins@alumina: Towards injectable sol-gel materials

Avi Rutenberg
, Vladimir V. Vinogradov
, David Avnir^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

A major obstacle to the introduction of bioactively-doped sol-gel based materials for medical applications has been the fact that silica - the most widely studied sol-gel material - despite being a GRAS GRAS - generally regarded as safe. material, which is widely used as an additive in foods and drug formulations, is still not approved by regulatory agencies for intramuscular injections. Here we point to a potential solution to this problem by shifting the weight to alumina, which is approved for injections as the most common immunization adjuvant. Towards the achievement of this goal we describe the development of protein entrapment methods tailored to alumina, and show high thermal stability of protein-dopants, using a newly developed DSC methodology for this purpose.

Original language	English
Pages (from-to)	5636-5638
Number of pages	3
Journal	Chemical Communications
Volume	49
Issue number	50
DOIs	https://doi.org/10.1039/c3cc41696h
State	Published - 28 May 2013

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title = "Synthesis and enhanced thermal stability of albumins@alumina: Towards injectable sol-gel materials",

abstract = "A major obstacle to the introduction of bioactively-doped sol-gel based materials for medical applications has been the fact that silica - the most widely studied sol-gel material - despite being a GRAS GRAS - generally regarded as safe. material, which is widely used as an additive in foods and drug formulations, is still not approved by regulatory agencies for intramuscular injections. Here we point to a potential solution to this problem by shifting the weight to alumina, which is approved for injections as the most common immunization adjuvant. Towards the achievement of this goal we describe the development of protein entrapment methods tailored to alumina, and show high thermal stability of protein-dopants, using a newly developed DSC methodology for this purpose.",

author = "Avi Rutenberg and Vinogradov, \{Vladimir V.\} and David Avnir",

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AU - Rutenberg, Avi

AU - Vinogradov, Vladimir V.

AU - Avnir, David

PY - 2013/5/28

Y1 - 2013/5/28

N2 - A major obstacle to the introduction of bioactively-doped sol-gel based materials for medical applications has been the fact that silica - the most widely studied sol-gel material - despite being a GRAS GRAS - generally regarded as safe. material, which is widely used as an additive in foods and drug formulations, is still not approved by regulatory agencies for intramuscular injections. Here we point to a potential solution to this problem by shifting the weight to alumina, which is approved for injections as the most common immunization adjuvant. Towards the achievement of this goal we describe the development of protein entrapment methods tailored to alumina, and show high thermal stability of protein-dopants, using a newly developed DSC methodology for this purpose.

AB - A major obstacle to the introduction of bioactively-doped sol-gel based materials for medical applications has been the fact that silica - the most widely studied sol-gel material - despite being a GRAS GRAS - generally regarded as safe. material, which is widely used as an additive in foods and drug formulations, is still not approved by regulatory agencies for intramuscular injections. Here we point to a potential solution to this problem by shifting the weight to alumina, which is approved for injections as the most common immunization adjuvant. Towards the achievement of this goal we describe the development of protein entrapment methods tailored to alumina, and show high thermal stability of protein-dopants, using a newly developed DSC methodology for this purpose.

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Synthesis and enhanced thermal stability of albumins@alumina: Towards injectable sol-gel materials

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