In order to create a less thrombogenic heart valve with improved longevity, a prosthetic heart valve was developed using thin film nitinol (NiTi). A “butterfly” valve was constructed using a single, elliptical piece of thin film NiTi and a scaffold made from Teflon tubing and NiTi wire. Flow tests and pressure readings across the valve were performed in vitro in a pulsatile flow loop. Bio-corrosion experiments were conducted on untreated and passivated thin film nitinol. To determine the material’s in vivo biocompatibility, thin film nitinol was implanted in pigs using stents covered with thin film NiTi. Flow rates and pressure tracings across the valve were comparable to those through a commercially available 19 mm Perimount Edwards tissue valve. No signs of corrosion were present on thin film nitinol samples after immersion in Hank’s solution for one month. Finally, organ and tissue samples explanted from four pigs at 2, 3, 4, and 6 weeks after thin film NiTi implantation appeared without disease, and the thin film nitinol itself was without thrombus formation. Although long term testing is still necessary, thin film NiTi may be very well suited for use in artificial heart valves.

1.
Giddens
,
D. P.
,
Yoganathan
,
A. P.
, and
Schoen
,
F. J.
1993, “
Prosthetic Cardiac Valves
,”
Cardiovasc. Pathol.
1054-8807,
2
(
3
Suppl.) pp.
167S
177S
.
2.
Schoen
,
F. J.
and
Levy
,
R. J.
, 1999 “
Tissue Heart Valves: Current Challenges and Future Research Perspectives
,”
J. Biomed. Mater. Res.
0021-9304,
47
(
4
), pp.
439
465
.
3.
Boudjemline
,
Y.
and
Bonhoeffer
,
P.
, 2002, “
Steps Toward Percutaneous Aortic Valve Replacement
,”
Circulation
0009-7322,
105
(
6
), pp.
775
778
.
4.
Bonhoeffer
,
P.
,
Boudjemline
,
Y.
,
Qureshi
,
S. A.
,
Le Bidois
,
J.
,
Iserin
,
L.
,
Acar
,
P.
,
Merckx
,
J.
,
Kachaner
,
J.
, and
Sidi
,
D.
, 2002, “
Percutaneous Insertion of the Pulmonary Valve
,”
J. Am. Coll. Cardiol.
0735-1097,
39
(
10
), pp.
1664
1669
.
5.
Cribier
,
A.
,
Eltchanioff
,
H.
,
Bash
,
A.
,
Borenstein
,
N.
,
Tron
,
C.
,
Bauer
,
F.
,
Derumeaux
,
G.
,
Anselme
,
F.
,
Laborde
,
F
, and
Leon
,
M. B.
, 2002, “
Percutaneous Transcatheter Implantation of an Aortic Valve Prosthesis for Calcific Aortic Stenosis: First Human Case Description
,”
Circulation
0009-7322,
106
(
24
), pp.
3006
3008
.
6.
Duerig
,
T.
,
Pelton
,
A.
, and
Stockel
,
D.
, 1999, “
An Overview of Nitinol Medical Applications
,”
Mater. Sci. Eng., A
0921-5093,
A273-275
, pp.
149
160
.
7.
Sekiguchi
,
Y
,
Funami
,
K
, and
Funakubo
,
H.
, 1983, “
Deposition of TiNi Shape Memory Alloy Thin Film by Vacuum Evaporation
,”
Proc 32nd Meeting of Japan Society of Materials
, pp.
65
67
.
8.
Makino
,
E.
,
Uenoyama
,
M.
, and
Shibata
,
T.
, 1998, “
Flash Evaporation of TiNi Shape Memory Thin Film for Microactuators
,”
Sens. Actuators, A
0924-4247,
A71
(
3
), pp.
187
192
.
9.
Lehnert
,
T.
,
Tixier
,
S.
,
Boni
,
P.
, and
Gotthardt
,
R.
, 1999, “
A New Fabrication Process for Ni-Ti Shape Memory Thin Films
,”
Mater. Sci. Eng., A
0921-5093,
A273-275
, pp.
713
716
.
10.
Ikuta
,
K
,
Hayashi
,
M
,
Matsuura
,
T
, and
Fujishiro
,
H.
, 1994, “
Shape Memory Alloy Thin Film Fabricated by Laser Ablation. An Investigation of Micro Structures, Sensors, Actuators, Machines and Robotic Systems
,”
Proceedings IEEE Micro Electro Mechanical Systems
,
IEEE
, Oiso Japan, pp.
355
360
.
11.
Shabalovskaya
,
S. A.
2002 “
Surface, Corrosion and Biocompatibility Aspects of Nitinol as an Implant
,”
Biomed. Mater. Eng.
0959-2989,
12
(
1
), pp.
69
109
.
12.
Trepanier
,
C.
,
Tabrizian
,
M.
,
Yahia
,
L. H.
,
Bilodeau
,
L.
, and
Piron
,
D. L.
, 1998, “
Effect of modification of oxide layer on NiTi stent corrosion resistance
,”
J. Biomed. Mater. Res.
0021-9304,
43
(
4
), pp.
433
440
.
13.
Tepe
,
G.
,
Wendel
,
H. P.
,
Khorchidi
,
S.
,
Schmehl
,
J.
,
Wiskirchen
,
J.
,
Pusich
,
B.
,
Claussen
,
C. D.
, and
Duda
,
S. H.
, 2002, “
Thrombogenicity of Various Endovascular Stent Types: an In Vitro Evaluation
,”
J. Vasc. Interv Radiol.
1051-0443,
13
(
10
), pp.
1029
1035
.
14.
O’Brien
,
B.
,
Carroll
,
W.
, and
Kelly
,
M.
, 2002, “
Passivation of Nitinol Wire for Vascular Implants–a Demonstration of the Benefits
,”
Biomaterials
0142-9612,
23
(
8
), pp.
1739
1748
.
You do not currently have access to this content.