The Development of Magnesium-Based Resorbable and Iron-Based Biocorrodible Metal Scaffold Technology and Biomedical Applications in Coronary Artery Disease Patients

In the treatment of atherosclerotic disease patients, the adoption of second-generation drug-eluting stents (DES) in percutaneous coronary intervention reduced the occurrence of in-stent restenosis (ISR) and acute stent thrombosis (ST) when compared to bare metal stents and 1st generation DES. Howev...

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Published inApplied sciences Vol. 9; no. 17; p. 3527
Main Authors Hideo-Kajita, Alexandre, Wopperer, Samuel, Seleme, Vinícius Bocchino, Ribeiro, Marcelo Harada, Campos, Carlos M.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2019
Subjects
Aluminum
Animals
Biocompatibility
bioresorbable scaffold
Cardiovascular disease
Clinical outcomes
coronary artery disease
Coronary vessels
Hydroxyapatite
magnesium
Magnesium alloys
resorbable metal scaffold
Steel alloys
Stents
Thrombosis
Switzerland
Online AccessGet full text
ISSN2076-3417
2076-3417
DOI10.3390/app9173527

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Abstract In the treatment of atherosclerotic disease patients, the adoption of second-generation drug-eluting stents (DES) in percutaneous coronary intervention reduced the occurrence of in-stent restenosis (ISR) and acute stent thrombosis (ST) when compared to bare metal stents and 1st generation DES. However, the permanent encaging of the vessel wall by any of the metallic stents perpetuates the inflammation process and prevents vasomotion in the treated segment. Aiming to overcome this issue, the bioresorbable scaffold (BRS) concept was developed by providing transient vascular radial support to the target segment during the necessary time to heal and disappearing after a period of time. Close to 20 years since BRS technology was first reported, the interventional cardiology field saw the rise and fall of several BRS devices. Although iron-based BRS is an emerging technology, currently, magnesium-alloy resorbable scaffolds devices are supported with the most robust data. This manuscript aims to review the concept of magnesium-based BRS devices, as well as their bioresorption mechanisms and the status of this technology, and the clinical outcomes of patients treated with magnesium BRS and to review the available evidence on iron-based BRS technology.
AbstractList In the treatment of atherosclerotic disease patients, the adoption of second-generation drug-eluting stents (DES) in percutaneous coronary intervention reduced the occurrence of in-stent restenosis (ISR) and acute stent thrombosis (ST) when compared to bare metal stents and 1st generation DES. However, the permanent encaging of the vessel wall by any of the metallic stents perpetuates the inflammation process and prevents vasomotion in the treated segment. Aiming to overcome this issue, the bioresorbable scaffold (BRS) concept was developed by providing transient vascular radial support to the target segment during the necessary time to heal and disappearing after a period of time. Close to 20 years since BRS technology was first reported, the interventional cardiology field saw the rise and fall of several BRS devices. Although iron-based BRS is an emerging technology, currently, magnesium-alloy resorbable scaffolds devices are supported with the most robust data. This manuscript aims to review the concept of magnesium-based BRS devices, as well as their bioresorption mechanisms and the status of this technology, and the clinical outcomes of patients treated with magnesium BRS and to review the available evidence on iron-based BRS technology.
Author Seleme, Vinícius Bocchino
Wopperer, Samuel
Campos, Carlos M.
Hideo-Kajita, Alexandre
Ribeiro, Marcelo Harada
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SubjectTerms Aluminum
Animals
Biocompatibility
bioresorbable scaffold
Cardiovascular disease
Clinical outcomes
coronary artery disease
Coronary vessels
Hydroxyapatite
magnesium
Magnesium alloys
resorbable metal scaffold
Steel alloys
Stents
Thrombosis
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Title The Development of Magnesium-Based Resorbable and Iron-Based Biocorrodible Metal Scaffold Technology and Biomedical Applications in Coronary Artery Disease Patients
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