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Biomedical Engineering and Bioengineering Commons™
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Full-Text Articles in Biomedical Engineering and Bioengineering
The Effect Of Slow Strain Rate Tension And Cyclic Loading On Biodegradable Zn–2%Fe–0.8%Mn Alloy In A Simulated Physiological Environment, Lital Ben Tzion-Mottye, Adi Bahar, Tomer Ron, Galit Katarivas Levy, Jeremy Goldman, Dan Eliezer, Eli Aghion
The Effect Of Slow Strain Rate Tension And Cyclic Loading On Biodegradable Zn–2%Fe–0.8%Mn Alloy In A Simulated Physiological Environment, Lital Ben Tzion-Mottye, Adi Bahar, Tomer Ron, Galit Katarivas Levy, Jeremy Goldman, Dan Eliezer, Eli Aghion
Michigan Tech Publications, Part 2
Zinc-based alloys have gained increased interest as biodegradable structural materials for medical applications due to their adequate biocompatibility, crucial roles in many physiological functions and attractive antibacterial properties. However, the major drawbacks of zinc alloys relate to their inadequate mechanical properties and tendency to provoke fibrous encapsulation due to relatively high standard potential. Based on the promising effect of Mn on properties of Zn-based alloys, the present study aimed at evaluating the suitability of Zn–2%Fe–0.8%Mn alloy as a potential biodegradable implant under in-vitro conditions. This evaluation focused on the passivation characteristics as determined by cyclic potentiodynamic polarization analysis, immersion test, …
Stress Corrosion Analysis And Direct Cell Viability Of Biodegradable Zn-Fe-Ca Alloy In In-Vitro Conditions, Orit Avior, Noa Ben Ghedalia-Peled, Tomer Ron, Jeremy Goldman, Razi Vago, Eli Aghion
Stress Corrosion Analysis And Direct Cell Viability Of Biodegradable Zn-Fe-Ca Alloy In In-Vitro Conditions, Orit Avior, Noa Ben Ghedalia-Peled, Tomer Ron, Jeremy Goldman, Razi Vago, Eli Aghion
Michigan Tech Publications
Due to the excellent biocompatibility of Zn and Zn-based alloys, researchers have shown great interest in developing biodegradable implants based on zinc. Furthermore, zinc is an essential component of many enzymes and proteins. The human body requires ~15 mg of Zn per day, and there is minimal concern for systemic toxicity from a small zinc-based cardiovascular implant, such as an arterial stent. However, biodegradable Zn-based implants have been shown to provoke local fibrous encapsulation reactions that may isolate the implant from its surrounding environment and interfere with implant function. The development of biodegradable implants made from Zn-Fe-Ca alloy was designed …
Biocorrosion Rate And Mechanism Of Metallic Magnesium In Model Arterial Environments, Patrick Bowen
Biocorrosion Rate And Mechanism Of Metallic Magnesium In Model Arterial Environments, Patrick Bowen
Dissertations, Master's Theses and Master's Reports
A new paradigm in biomedical engineering calls for biologically active implants that are absorbed by the body over time. One popular application for this concept is in the engineering of endovascular stents that are delivered concurrently with balloon angioplasty. These devices enable the injured vessels to remain patent during healing, but are not needed for more than a few months after the procedure. Early studies of iron- and magnesium-based stents have concluded that magnesium is a potentially suitable base material for such a device; alloys can achieve acceptable mechanical properties and do not seem to harm the artery during degradation. …