Magnesium alloys as bioresorbable biomaterials with drug delivery capabilities

LYNDON, JESSICA ANNE

doi:10.4225/03/594086c24245a

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Reason: Under embargo until June 2020. After this date a copy can be supplied under Section 51 (2) of the Australian Copyright Act 1968 by submitting a document delivery request through your library

Magnesium alloys as bioresorbable biomaterials with drug delivery capabilities

thesis

posted on 2017-06-14, 00:43 authored by JESSICA ANNE LYNDON

Magnesium is one of the most active metals and is prone to corrosion. In construction, automotive and aerospace industries this is seen as a detrimental property. However, coupling corrosion with magnesiums’s favourable strength, weight and density a new type of temporary implants are being developed to rehabilitate damaged bone, without the need for surgery to remove the implant. Taking this concept further, this thesis uses the corrosion mechanism to deliver drugs from the implant as it is degrading.

History

Campus location

Australia

Principal supervisor

Nick Birbilis

Additional supervisor 1

Ben Boyd

Year of Award

2017

Department, School or Centre

Materials Science and Engineering

Course

Doctor of Philosophy

Degree Type

Doctorate

Faculty

Faculty of Engineering

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Keywords

Orthopaedics Corrosion Biomedical Engineering Magnesium Drug Delivery Pharmaceutical Sciences Biomaterials

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Embargoed and Restricted Access

Magnesium alloys as bioresorbable biomaterials with drug delivery capabilities

History

Campus location

Principal supervisor

Additional supervisor 1

Year of Award

Department, School or Centre

Course

Degree Type

Faculty

Usage metrics

Categories

Keywords

Licence

Exports