A newly-designed myocardial assist device using a sophisticated shape memory alloy fibre

Shiraishi, Y.; Yambe, T.; Sekine, K.; Ogawa, D.; Nagatoshi, J.; Itoh, S.; Park, Y.; Uematsu, M.; Sakata, R.; Wada, Y.; Saijo, Y.; Higa, M.; Hori, Y.; Liu, H.; Wang, Q.; Konno, S.; Kuwayama, T.; Olegario, P.; Tanaka, A.; Masumoto, N.; Ibuki, R.; Maruyama, S.; Okamoto, E.; Fujimoto, T.; Yoshizawa, M.; Umezu, M.; Imachi, K.; Nitta, S.-I.; Sasada, H.; Tabayashi, K.; Homma, D.

Powiadomienia systemowe

Sesja wygasła!
Sesja wygasła!

Artykuł - szczegóły

Tytuł artykułu

A newly-designed myocardial assist device using a sophisticated shape memory alloy fibre

Autorzy

Shiraishi Y. , Yambe T. , Sekine K. , Ogawa D. , Nagatoshi J. , Itoh S. , Park Y. , Uematsu M. , Sakata R. , Wada Y. , Saijo Y. , Higa M. , Hori Y. , Liu H. , Wang Q. , Konno S. , Kuwayama T. , Olegario P. , Tanaka A. , Masumoto N. , Ibuki R. , Maruyama S. , Okamoto E. , Fujimoto T. , Yoshizawa M. , Umezu M. , Imachi K. , Nitta S.-I. , Sasada H. , Tabayashi K. , Homma D.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Recently, the ventricular assist devices are widely applied for a surgical treatment of the final stage of severe heart failure as the bridge to heart transplantation or the destination therapy. However, it was anticipated that the artificial components in the ventricular assist devices might cause the problems concerning thrombosis and infection. As heart failure involves the decrease in myocardial contractile function, the mechanical assistance by using an artificial myocardium might be effective. In this study, the authors developed a mechano-electric artificial myocardial assist system (artificial myocardium), which is capable of supporting natural contractile function from the outside of the ventricle.

Słowa kluczowe

shape memory alloy fibre heart failure cardiac assist device hemodynamics

włókno z pamięcią stopową niewydolność serca hemodynamika

Wydawca

Nałęcz Institute of Biocybernetics and Biomedical Engineering of the Polish Academy of Sciences
Elsevier

Czasopismo

Biocybernetics and Biomedical Engineering

Rocznik

2007

Tom

Vol. 27, no. 1-2

Strony

147--154

Opis fizyczny

Bibliogr. 17 poz., fot., rys., wykr.

Twórcy

autor

Shiraishi Y.

autor

Yambe T.

autor

Sekine K.

autor

Ogawa D.

autor

Nagatoshi J.

autor

Itoh S.

autor

Park Y.

autor

Uematsu M.

autor

Sakata R.

autor

Wada Y.

autor

Saijo Y.

autor

Higa M.

autor

Hori Y.

autor

Liu H.

autor

Wang Q.

autor

Konno S.

autor

Kuwayama T.

autor

Olegario P.

autor

Tanaka A.

autor

Masumoto N.

autor

Ibuki R.

autor

Maruyama S.

autor

Okamoto E.

autor

Fujimoto T.

autor

Yoshizawa M.

autor

Umezu M.

autor

Imachi K.

autor

Nitta S.-I.

autor

Sasada H.

autor

Tabayashi K.

autor

Homma D.

Institute of Development, Aging and Cancer, Tohoku University, Sendai 980-8575, Japan, shiraishi@idac.tohoku.ac.jp

Bibliografia

1. Hosenpud J.D., et al.: The registry of the international society for heart and lung transplantation: fifteenth official report-1998, J. Heart Lung Transplant., 1998, 17, 656-668.
2. Shimizu T., et al.: Fabrication of pulsatile cardiac tissue grafts using a novel 3-dimensional cell sheet manipulation technique and temperature-responsive cell culture surfaces, Circ. Res., 2002, 90(3), e40.
3. Nitta S., et al.: Application of shape memory alloy for an artificial heart driving system, MBE 1983, 83^9, 45-51 (in Japanese).
4. Yambe T, et al.: Addition of rhythm to non-pulsatile circulation, Biomed. Pharmacother., 2004, 58, Suppl. 1,8145-9.
5. Yambe T., et al.: Artificial myocardium with an artificial baroreflex system using nano technology, Biomed. Pharmacother., 2004, 57 Suppl. 1, 122-125.
6. Wang Q., et al.: An artificial myocardium assist system: electrohydraulic ventricular actuation improves myocardial tissue perfusion in goats, Artif. Organs, 2004, 28(9), 853-857.
7. Andtadt G.L., et al.: A new instrument for prolonged mechanical massage, Circulation, 1965, 31 (Suppl. II), 43.
8. Anstadt M., et al.: Direct mechanical ventricular actruator, Resuscitation, 1991, 21, 7-23.
9. Kawaguchi O., et al.: Dynamic cardiac compression improves contractile efficiency of the heart, J. Thorac. Cardiovasc. Surg., 1997, 113, 923-931.
10. Buehler W.J., Gilfrich J., Wiley K.C.: Effect of low-temperature phase changes on the mechanical properties of alloys near composition TiNi, J. Appl. Phys., 1963, 34, 1465.
11. Homma D., Miwa Y, Iguchi N., et al.: Shape memory effect in Ti-Ni alloy during rapid heating, Proc. of 25th Japan Congress on Materials Research, 1982.
12. Sawyer P.N., et al.: Further study of NITINOL wire as contrctile artificial muscle for an artificial heart, Carrdiovasc. Diseases Bull. Texas Heart Inst, 1976, 3, 65.
13. Westerby S.: Non-transplant surgery for heart failure, Heart, 83, 2000, 603-610.
14. Suma H., et al.: Non transplant cardiac surgery for end-stage cardiomyopathy, J. Thorac. Cardiovasc. Surg., 2000, 119,1233-1244.
15. Raman J.S., et al.: The mid-term results of ventricular containment (Acorn Wrap) for end-stage ischemic cardiomyopathy, 2005.
16. Pilla J.J., et al.: Ventricular constraint using the cardiac support device reduces myocardial akinetic area in an ovine model of acute infarction, Circulation, 2002,106 [Suppl 1], 1207-1211.
17. Uematsu M., Shiraishi Y, et al. Proc. IEEE-EMBS, 2005.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BPZ1-0043-0017