Preliminary Report of Biomechanical and Histological Changes of the Pig Iliac Artery Walls After Experimental Implantation оf β-Zirconium Alloy Spiral Device
Keywords:
patent ductus arteriosus, heart occlude, biological model, β-zirconium alloy
Abstract
The aim of this work is to study biomechanical compatibility and histological response of the walls of pigs’ iliac arteries due to experimental low-modulus β-zirconium alloy occluder implantation. Demonstrated the ability, safety and efficacy of device implantation for PDA closure (occluder) of β-zirconium alloy on pigs as a biological model. Presented preliminary results of macroscopic and histological examination. The necessity further study of this device on animals.
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4. Angiograph classification of the isolated persistently patent ductus arteriosus and implications for percutaneous catheter occlusion / Krichenko A., Benson L. N., Burrows P., Moes C. A. F., McLaughlin P., Freedom R. M. // American Journal Cardiology. – 1989. – Vol. 623. – P. 877–880.
5. Bass John L., Wikson Neil. Transcatheter Occkusion of the Patent Ductus Arteriosus in Infants. Experimental Testing of a New Amplatzer Levice // Catheter Cardiovasc. Intervtnt. – 2014. – Vol. 83. – P. 250–255.
6. Biocompatibility of nickel-titanium shape memory metal and its corrosion behavior in human cell cultures / Ryhanen J., Niemi E., Serlo W., Niemela E., Sandvik P., Pernu H., et al. // J. Biomed Mater. Res. – 1997. – Vol. 35:45. – P. 1–7.
7. Effect of Passivation treatments on nickel release from nitinol / Trepanier C., Venugopalan R., Messer R. Z. J., Pelton A. R. // Society for Biomaterial. – 6th World Biomaterials Congress. – 2000. – P. 1043.
8. Gruenstein D. H., Bass J. L. Experimental tvaluation of a new articulated Amplatzer ductal occlude device without fabric // Catheter Cardiovascular Interventional. – 2009. – Vol. 74. – P. 482–487.
9. Nickel release, a possible indicator for the duration of antiplatelet treatment, from a nickel cardiac device in vivo: a study in patients with atrial septal defects implanted with an Amplatzer occlude / Burian M., Neumann T., Weber M., Brandt R., Geisslinger G., MitrovicV., et al. // Int. J. Clin. Pharmacol. Ther. – 2006. – Vol. 44. – P. 107–112.
10. Niinomi M. Mechanical biocompatibilities of titanium alloys for biomedical applications // Journal of the Mechanical Behavior of Biomedical Materials. – 2008. – Vol. 1. – P. 30–42.
11. Portsmann W., Wierny L., Warnke H. Catheter closure of patent ductus arteriesus: 62 cases treated without thoracotomy // Radiol. Clin. North Am. – 1971. – Vol. 9. – P. 203–218.
12. Sigler M., Jux C. Biocompatibility of septal defect closure devices // Heart. – 2007. – Vol. 93. – P. 444–449.
13. Transcatheter closure of patent ductus arteriosus with Nit-Occlud coils / Celiker A., Aypar E., Karagoz T., Dilber E., Ceviz N. // Catheter Cardiovascular Interventional. – 2005. – Vol. 65. – P. 569–76.
Published
2016-12-02
How to Cite
1.
Panichkin YV, Skiba IO, Zakharova VP, Zhuravleva ML, Besleaga VM, Besleaga EV, Ruzhin YA, Gavrylyshyn AY. Preliminary Report of Biomechanical and Histological Changes of the Pig Iliac Artery Walls After Experimental Implantation оf β-Zirconium Alloy Spiral Device. ujcvs [Internet]. 2016Dec.2 [cited 2024Dec.26];(3 (26):103-6. Available from: https://cvs.org.ua/index.php/ujcvs/article/view/215
Section
GENERAL ISSUES OF TREATMENT OF PATIENTS WITH CARDIOVASCULAR PATHOLOGY
