A Murine Model of Arterial Restenosis: Technical Aspects of Femoral Wire Injury
Autor: | Joshua Zent, Alycia Kent, Toshio Takayama, Daniel DiRenzo, Yifan Zhou, Lian-Wang Guo, Sarah Franco, Bowen Wang, Peter Hartig, Xudong Shi |
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Jazyk: | angličtina |
Rok vydání: | 2015 |
Předmět: |
Neointima
Male medicine.medical_specialty Endothelium General Chemical Engineering medicine.medical_treatment Lumen (anatomy) Femoral artery General Biochemistry Genetics and Molecular Biology Coronary Restenosis Mice Restenosis Angioplasty medicine.artery Internal medicine medicine Animals Myocardial infarction Neointimal hyperplasia General Immunology and Microbiology business.industry General Neuroscience medicine.disease Atherosclerosis Surgery Femoral Artery Mice Inbred C57BL Disease Models Animal medicine.anatomical_structure Cardiology Medicine Endothelium Vascular business |
Popis: | Cardiovascular disease caused by atherosclerosis is the leading cause of death in the developed world. Narrowing of the vessel lumen, due to atherosclerotic plaque development or the rupturing of established plaques, interrupts normal blood flow leading to various morbidities such as myocardial infarction and stroke. In the clinic endovascular procedures such as angioplasty are commonly performed to reopen the lumen. However, these treatments inevitably damage the vessel wall as well as the vascular endothelium, triggering an excessive healing response and the development of a neointimal plaque that extends into the lumen causing vessel restenosis (re-narrowing). Restenosis remains a major cause of failure of endovascular treatments for atherosclerosis. Thus, preclinical animal models of restenosis are vitally important for investigating the pathophysiological mechanisms as well as translational approaches to vascular interventions. Among several murine experimental models, femoral artery wire injury is widely accepted as the most suitable for studies of post-angioplasty restenosis because it closely resembles the angioplasty procedure that injures both endothelium and vessel wall. However, many researchers have difficulty utilizing this model due to its high degree of technical difficulty. This is primarily because a metal wire needs to be inserted into the femoral artery, which is approximately three times thinner than the wire, to generate sufficient injury to induce prominent neointima. Here, we describe the essential surgical details to effectively overcome the major technical difficulties of this model. By following the presented procedures, performing the mouse femoral artery wire injury becomes easier. Once familiarized, the whole procedure can be completed within 20 min. |
Databáze: | OpenAIRE |
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