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.
References
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3. Особенности методики проведения доклинического эксперимента по имплантации окклюдера из β-циркониевого сплава на свиньях как биологической модели / Паничкин Ю. В., Скиба И. А., Захарова В. П. и др. // Серце і судини. – 2015. – № 4 (52). – С. 25–30.
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
Panichkin, Y. V., Skiba, I. O., Zakharova, V. P., Zhuravleva, M. L., Besleaga, V. M., Besleaga, E. V., Ruzhin, Y. A., & Gavrylyshyn, A. Y. (2016). Preliminary Report of Biomechanical and Histological Changes of the Pig Iliac Artery Walls After Experimental Implantation оf β-Zirconium Alloy Spiral Device. Ukrainian Journal of Cardiovascular Surgery, (3 (26), 103-106. Retrieved from http://cvs.org.ua/index.php/ujcvs/article/view/215
Section
GENERAL ISSUES OF TREATMENT OF PATIENTS WITH CARDIOVASCULAR PATHOLOGY