Abstract
The rapid increase in the development of medical devices using nearly equiatomic Ni–Ti alloys (Nitinol) provides evidence of their advantages as biomaterials. Two generic properties of Nitinol, thermally induced shape recovery and superelasticity, are successfully employed for medical uses. However, several aspects of the alloys' short and long term efficacy have yet to be comprehensively determined, especially parameters relating to surface and corrosion performance. The present review surveys studies carried out internationally over about the past 10 years aiming at an improved understanding of Nitinol's surface, corrosion, and biocompatibility features. A critical survey is given of the surface condition of alloys modified using various advanced techniques, oxidised in air–water–steam mixtures, and passivated using chemical–electrochemical procedures. Surface parameters and their importance to the improvement of Nitinol's corrosion resistance and biological performance are discussed on the basis of XPS, Auger, SEM, and BSEM studies. In vivo and in vitro corrosion studies using potentiodynamic, potentiostatic, and scratch tests on as cast alloys, wire, and actual devices are surveyed. The effects of stress, strain, heat treatment, microstructure, precipitates, and alloy composition on corrosion are evaluated and compared with data for stainless steels, cobalt base alloys, and titanium. Release of nickel, observed in vitro and in vivo, is also surveyed. Biocompatibility aspects are briefly discussed with emphasis on their possible correlation with surface condition.
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References
1.
BUECHLER
W.
GILFRICK
J.
WILEY
R.
: J. Appl. Phys ., 1963 , 34 , 1475 –1477 .
2.
MERCIER
O.
MELTON
K.
GREMAUD
G.
H&ÄGE
J.
J. Appl. Phys . , 1980 , 51 , 1833-1834 .
3.
van HUMBEECK
J.
STALMANS
R.
: in ‘Shape memory materials’, (ed.
Otsuka
K.
Wayman
C. M.
, 149 -183; 1998 , Cambridge, Cambridge University Press.
4.
ANDREASEN
G.
HILLEMAN
T.
: J. Am. Dent. Assoc . , 1971 , 82 , 1373 –1375 .
5.
JOHNSON
A.
ALICANDRI
F.
: US Patent 3,786,806, 2 January 1974.
6.
SCHMERLING
M.
MILKOV
M.
SANDERS
A.
WOOSLEY
J.
: J. Biomed. Mater. Res . , 1976 , 10 , 879 –892 .
7.
SIMON
M.
KAPLOV
R.
SALZMAN
E.
FREIMAN
D.
: Radiology , 1977 , 125 , 89 –94 .
8.
POLENICHKIN
V.
PAKHOMENKON
G.
GYUNTER
V.
KHACHIN
V.
ITIN
V.
DUDAREV
E.
: Author's Certificate 850067, Inventions and Discoveries, Nov. 1979 (USSR).
9.
YANG
P.
et al.: Proc. Int. Symp. on ‘Shape memory alloys’: 1986, China, China Academic Publishers.
10.
HAASTERS
J.
SALIS-SOLIO
G.
BENSMANN
G.
: in ‘Engineering aspects of shape memory alloys’, (ed.
Duerig
T.
et al), 426 -445 ; 1990 , Oxford, Butterworth-Heinemann.
11.
Lu
S.
: in ‘Engineering aspects of shape memory alloys’, (ed.
Duerig
T.
et al), 445 -451 ; 1990 , Oxford, Butterworth-Heinemann.
12.
FUNAKUBO
H.
: ‘Shape memory alloys’: 1984, London, Gordon and Breach.
13.
GYUNTER
V.
et al.: in ‘Shape memory effects and their appli-cation in medicine’, (ed.
Monasevich
L.
; 1992 , Novosibirsk, Nauka.
14.
STOECKEL
D.
: Minimally Invasive Therapy Allied Technol. , 2000 , 9 , 81 –89 .
15.
O'BRIEN
B.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Antwerp, Belgium, 1999, 171-180.
16.
SEIGEL
R.
: Surg. Enclose . , 1997 , 11 , 154 –162 .
17.
FRANK
T.
XU
W.
CUSCHIERI
A.
: Minimally Invasive Therapy , 2000 , 9 , 89 –98 .
18.
STAROKHA
A.
GYUNTER
V.
SYSOLYATIN
P.
ITIN
V.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 509-513.
19.
FISHER
H.
HALBGEWACHS
C.
VOGEL
B.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Antwerp, Belgium, 1999, 181-191.
20.
ANGELINI
E.
: Proc. Symp. on Aplicazioni della leghe NiTi in campo medico', Catania, Italy, June 1999, 47-58.
21.
SHABALOVSKAYA
S.
: Biomed. Mater. Eng . , 1996 , 6 , 267 –289 .
22.
GYUNTER
V.
SISOLYATIN
P.
TOMERKHANOVA
P.
: `Superelastic and shape memory implants in maxillofacial surgery, trauma-tology, orthopaedics, and neurosurgery': 1995, Tomsk, Tomsk University Publishing.
23.
SYISOLYATIN
P.
et al.: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 471-475.
24.
SHETH
S.
LITVACK
F.
VISHA
D.
FISHBEIN
M.
FORRESTER
J.
EIGLER
N.
: Circulation , 1996 , 94 , 1733 –1740 .
25.
SIMON
M.
et al.: Radiology , 1989 , 172 , 99 –103 .
26.
ITIN
V.
et al.: Lett. J. Tech. Phys . , 1996 , 22 , 37 –42 .
27.
AYERS
R.
et al.: J. Biomed. Mater. Res . , 1999 , 45 , 42 –47 .
28.
DAMBAEV
G.
et al.: Shape Memorizing Implants, 2000, (1/2), 27-30 (published in Russia).
29.
WILLIAMS
D.
ROAF
R.
: ‘Implants in surgery’: 1973, London, W. B. Saunders.
30.
LACY
S.
MERITT
K.
BROWN
S.
PURYER
A.
: J. Biomed. Mater. Res . , 1996 , 32 , 279 –283 .
31.
GOYER
R.
: Vassarett and Doull's toxicology', (ed.
Klaassen
C.
et al), 582 -635 ; 1986 , New York, Macmillan.
32.
HAYES
R.
: Cancer Causes Control , 1997 , 8 , 321 –327 .
33.
RYHÄNEN
J.
et al.: J. Biomed. Mater. Res . , 1999 , 47 , 472 –480 .
34.
RIEPE
G.
et al.: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
35.
VILLERMAUX
F.
TABRIZIAN
M.
YAHIA
L'H
CZEREMUSZKIN
G.
PIRON
D.
Biomed. Mater. Eng . , 1996 , 6 , 241 –254 .
36.
RONDELLI
G.
VICENTINI
B.
: Biomaterials , 1999 , 20 , 785 –792 .
37.
CARROLL
W
KELLY
M.
BRIEN
B.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’: 1999, Antwerp, Belgium, 240-249.
38.
McGOVERN
T.
BLACK
J.
JACOBS
J.
GRAHAM
R.
LABERGE
M.
: J. Biomed. Mater. Res . , 1996 , 32 , 447 –457 .
39.
RENTLER
R.
GREENE
N.
: J. Biomed. Mater. Res . , 1975 , 9 , 597 –610 .
40.
REVIE
R.
GREENE
N.
: Corros. Sci . , 1969 , 9 , 755 –762 .
41.
WISBEY
A.
GREGSOV
P.
PETER
L.
: Biomaterials , 1991 , 12 , 970 –976 .
42.
YANG
J.
: Proc. 2nd Int. Conf. on ‘Shape memory and super-elastic technologies’, Pacific Grove, CA, USA, March 1997, 479-484.
43.
KIM
Y.
MIYAZAKI
S.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 473-477.
44.
SILBERSTEIN
B.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 617-621.
45.
BO
LI
et al.: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 591-593.
46.
EUM
J.
wu
M.
: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
47.
GLENN
R.
LEE
J.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 585-590.
48.
MELZER
A.
STOECKEL
D.
: Proc. 1st Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1994, 401-409.
49.
LIU
R.
LI
D.
: Mater. Sci. Eng. , 2000, A277, 169-175.
50.
BONDY
K.
WILLIAMS
C.
LUEDEMANN
R.
: Biomaterials , 1991 , 12 , 627 –639 .
51.
RUTNER
B.
: in Tiomaterial science', 21-34; 1996, London, Academic Press.
52.
CHAN
C.
TRIGWELL
C.
DUERIG
T.
: Surf. Interface Anal . , 1990 , 15 , 349 –354 .
53.
CHUPRINA
V.
: Poroshk. Metall . , 1989 , 4 , 310 –313 .
54.
CHUPRINA
V.
: Poroshk. Metall . , 1989 , 6 , 318 , 57 –61 .
55.
SHABALOVSKAYA
S.
ANDEREGG
J.
: J. Vac. Sci. Technol . , 1995 , A13 , 2624 -2632.
56.
SHABALOVSKAYA
S.
RONDELLI
G.
ITIN
V.
ANDEREGG
J.
: Proc. Int. Conf. on ‘Shape memory and superelastic tech-nologies’, Asilomar, 2000, in press.
57.
NAG
K.
CHACRAVORTY
A.
: Coord. Chem. Rev . , 1980 , 33 , 87 –147 .
58.
HIRANO
K.
oucm
K.
: Kinzoku Gakkaishi , 1968 ,32 , 267 –172 .
59.
WILLIAMS
D.
: CRC: Crit. Rev. Biocompat . , 1985 , 1 , 1 –24 .
60.
TREPANIER
C.
TABRIZIAN
M.
YAHIA
CH.
BILODEAU
L.
PIRON
D.
J. Biomed. Mater. Res . , 1998 , 43 , 433 –440 .
61.
USTINSKAYA
T.
TOMASHEV
N.
DUBNIN
E.
: Electrochemiya , 1987 , 23 , 254 –259 .
62.
OLEFJORD
I.
HANSSON
S.
ENG
L.
: Int. J. Oral Maxillofac. Implants , 1993 , 8 , 32 –40 .
63.
OKAMOTO
S.
: Corros. Sci . , 1973 , 13 , 471 –480 .
64.
McINTYRE
N.
coox
M.
: Anal. Chem . , 1975 , 47 , 2208 –2213 .
65.
SHABALOVSKAYA
S.
: Bio-med. Mater. Eng. , 2002, 12, (1), in press.
66.
SHIH
C.
LIN
S.
CHUNG
K.
CHEN
Y.
SU
Y.
: J. Biomed. Mater. Res . , 2000 , 52 , 323 –332 .
67.
SU
Y.
: Wire J. Int . , 1998 , 31 , 106 –112 .
68.
SHIFT
C.
UN
S.
CHUNG
K.
CHEN
Y.
SU
Y.
LAI
S.
WU
G.
KWOK
C.
CHUNG
K.
: J. Biomed. Mater. Res . , 2000 , 52 , 395 –403 .
69.
VILLERMAUX
F.
TABRIZIAN
M.
YAHIA
CH.
MEUNIER
M.
PIRON
D.
Appl. Surf. Sci. , 1997 , 109 -110 , 62-66 .
70.
CASTLEMAN
L. S.
MOTZKIN
S.
: in Tiocompatibility of clinical implant materials' (ed.
Williams
D.
129 -154; 1981 , Boca Raton, FL, CRC Press.
71.
MATSUMOTO
K.
TAJIMA
N.
KUWAHARA
S.
: Nippon Seik. Gak. Zasshi , 1993 , 67 , 267 –274 .
72.
SHABALOVSKAYA
S.
ANDERAGG
J.
SACHDEVA
R.
HARMON
B.
: in ‘Biomaterials for drug and cell delivery’, MRS Symp. Proc. 331, 239-244; 1994, Pittsburgh, PA, MRS.
73.
THIERRY
B.
TABRIZIAN
M.
SAVADOGO
G.
YAHIA
L.
: J. Biomed. Mater. Res . , 2000 , 49 , 88 –98 .
74.
GROTII
B.
: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
75.
SHABALOVSKAYA
S.
CUNNICK
J.
ANDEREGG
J.
HARMON
B.
SACHDEVA
R.
: Proc. 1st Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1994, 209-215.
76.
SHABALOVSKAYA
S.
ANRDEREGG
J.
CUNNICK
J.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 401-406.
77.
ANDERSON
J.
: in Tiomaterial science', 415-425; 1996, New York, Academic Press.
78.
BERGER-GORBET
M.
BROXUP
B.
RIVARD
C.
YAHIA
L'H.
J. Biomed. Mater. Res . , 1996 , 32 , 243 –248 .
79.
KIMURA
H.
SOHMURA
T.
: J. Osaka Univ. Dent. Sch . , 1987 , 27 , 211 –223 .
80.
ITIN
V.
et al.: Proc. Int. Conf. on `Superelastic shape memory implants in medicine', Novosibirsk, Russia, 1995, 234.
81.
FILIP
P.
KNEISSL
A.
MAZANEC
K.
: Mater. Sci. Eng. A, 1997, A234—A236, 422-425.
82.
AVERBACK
R.
KIRK
M.
: in ‘Surface alloying by ion, electron, and laser beams’ , 91 –132 ; 1985 , Metals Park, OH , ASM .
83.
CLAYTON
C.
: in ‘Surface alloying by ion, electron, and laser beams’ , 325 –356 ; 1985 , Metals Park, OH , ASM .
84.
ENDO
K.
: Dent. Mater. J . , 1995 , 14 , 185 –188 .
85.
WEVER
D.
VELDERHUIZEN
A.
DE'TRIES
J.
BUSCSCHER
H.
UGES
D.
van HORN:
J. R.
Biomaterials , 1998 , 19 , 761 –769 .
86.
RONDELLI
G.
VICENTINI
B.
: J. Biomed. Mater. Res . , 2000 , 51 , 47 –54 .
87.
RONDELLI
G.
VICENTINI
B.
CIGADA
A.
: COITOS. Sci . , 1990 , 30 , 805 –812 .
88.
RONDELLI
G.
: Biomaterials , 1996 , 17 , 2003 –2007 .
89.
ASTM F 746-87: ‘Annual book of ASTM standards’, Vol. 13.01, 180-185; 1996, Philadelphia, PA, ASTM.
90.
VENUGOPALAN
R.
TREPANIER
C.
: Minimally Invasive Therapy Allied Technol. , 2000 , 9 , 67 –75 .
91.
VANDENKERCKHOVE
R.
TEMMERMAN
E.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Antwerp, Belgium, 1999, 129-142.
92.
YAHALOM
J.
ZAHAVI
J.
: Electrochim. Acta , 1970 , 15 , 1429 –1435 .
93.
FONTANA
M.
GREENE
N.
: ‘Corrosion engineering’ , 463 ; 1978 , New York , McGraw-Hill .
94.
CRAGG
A.
LUND
G.
SALOMONWITZ
E.
RYSAVY
J.
CASTANEDA-ZUNIGA
F.
AMPLATZ
C.
: Radiology , 1983 , 141 , 601 –604 .
95.
BROWN
S.
MERRITT
K.
: in ‘Clinical applications of biomater-ial’ ,
Lee
A.
Albrektsson
T.
), 195 ; 1982 , New York , John Wiley .
96.
PESSAL
N.
uu
C.
: Electrochitn. Acta , 1971 , 16 , 1987 –2003 .
97.
KRUGER
J.
: in ‘Corrosion and degradation of implant mater-ials’, (ed.
Syrett
B. C.
Acharya
A.
, 5TP684, 107 -127 ; 1979 , Philadelphia, PA , ASTM .
98.
SU
Y.
RAMAN
V.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 389-394.
99.
PLATT
J.
et al.: Am. J. Dentofac. Orthop . , 1977 , 112 , 69 –79 .
100.
BONDY
K.
VOGELBAUM
M.
DESAI
V.
: J. Biomed. Mater. Res . , 1986 , 20 , 493 –505 .
101.
DAUTOVICH
P.
MELKO
Z.
PARDY
G.
STAGER
C.
: J. Appl. Phys . , 1966 , 37 , 2513 –2514 .
102.
DUTTA
R.
MADANGOPAL
K.
GADIYAR
H.
BANERJEE
S.
: Br. Corros. J . , 1993 , 28 , 217 221 .
103.
ITIN
V.
NALESNIK
O.
MAGEL
O.
SHEVCHENKO
B.
SHEMETOV
V.
: Met. Prot . , 1999 , 35 , 373 –375 .
104.
MONTERO-OCAMPO
C.
LOPEZ
H.
RODRIGUEZ
A.
: J. Biomed. Mater. Res . , 1996 , 32 , 583 –591 .
105.
TREPANIER
C.
et al.: J. Biomed. Mater. Res . , 1999 , 48 , 165 –171 .
106.
CRAGG
A.
JONG
C. DE
BARNHART
W.
LANDAS
S.
SMITH
T.
: Radiology , 1993 , 189 , 775 –778 .
107.
TREPANIER
C.
LEUNG
T. K.
TABRIZIAN
M.
YAHIA
L'H.
Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 423-428.
108.
SIMSKE
S.
SACHDEVA
R.
: J. Biomed. Mater. Res . , 1995 , 29 , 527 –533 .
109.
RYHÄNAN
J.
: Dissertation, Oulun Yliopista, Oulu, Finland, 1999.
110.
RYHÄNEN
J.
et al.: J. Biomed. Mater. Res . , 1997 , 35 , 451 –457 .
111.
RYHÄNEN
J.
et al.: J. Biomed. Res . , 1998 , 41 , 481 –488 .
112.
RYHÄNEN
J.
KALLIOINEN
M.
TUUKKANEN
J.
LEBENKARI
P.
: Biomaterials , 1999 , 20 , 1309 –1317 .
113.
GRIMSDOTTIR
M.
HENSTEN-PETTERSON
A.
KULLMANN
A.
: Biomaterials , 1994 , 15 , 1157 –1160 .
114.
BARETT
R.
BISHARA
S.
ORTHO
D.
QUINN
S.
: Am. J. Orthod. Dentofac. Orthop . , 1993 , 103 , 8 –14 .
115.
WATAHA
J.
LOCKWOOD
P.
MAREK
M.
GHAZI
M.
: J. Biomed. Mater. Res . , 1999 , 45 , 252 –257 .
116.
PUTTERS
J.
SUKUL
D.
ZEEUW
G.
BIJMA
A.
BESSELINK
P.
: Eur. Surg. Res . , 1992 , 24 , 378 –382 .
117.
MICHEL
R.
: CRC: Crit. Rev. Biocompatibility , 1987 , 3 , 235 –317 .
118.
HOAR
T.
MEARS
D.
: Proc. R. Soc. A, 1996, A294, 486-510.
119.
WEVER
D.
VELDHUIZEN
A.
SANDERS
M.
SCHAKENRAAD
J.
van HORN
J. R.
: Biomaterials , 1997 , 18 , 1115 –1120 .
120.
VILLERMAUX
F.
et al.: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 417-423.
121.
ARMITAGE
D.
GRANT
D.
PARKER
T.
PARKER
K.
: Proc. 2nd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, March 1997, 411-416.
122.
ASSAD
M.
YAHIA
L'H.
RIVAR
C.
LEMIEUX
N.
J. Biomed. Mater. Res . , 1998 , 41 , 154 –161 .
123.
WATAHA
J.
LOCKWOOD
P.
SCHEDLE
A.
: J. Biomed. Mater. Res . , 2000 , 52 , 360 –364 .
124.
PATTI
A.
et al.: Proc. Symp. on Aplicazioni della leghe NiTi in campo medico', Catania, Italy, June 1999, 33-39.
125.
L'H.
YAHIA
HERNANDEZ
R.
TURENN
S.
: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
126.
CHINJIANG
L.
YONGLIN
H.
HONGWEI
Z.
JIANG
L.
ZHONG
W.
LIANGCHENG
Z.
: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
127.
TIBERRY
B.
et al.: Proc. 3rd Int. Conf. on ‘Shape memory and superelastic technologies’, Pacific Grove, CA, USA, May 2000, in press.
128.
ARMITAGE
D.
PARKER
K.
PARKER
T.
GRANT
D.
: Proc. Int. Conf. on ‘Shape memory and superelastic technologies’, Antwerp, Belgium, September 1999, 226-239.
129.
RYHÄNEN
J.
: Minimally Invasive Therapy Allied Technol. , 2000 , 9 , 99 –107 .
130.
SUNDERMAN
F.
: Proc. Symp. on ‘Nickel in the human environ-ment’, Lyon, France, March 1983, IARC, 127-139.
131.
HANSEN
K.
STERN
R.
: Proc. Symp. 011 ‘Nickel in the human environment’, Lyon, France, March 1983, IARC, 183-120.
132.
SNOW
E.
: Pharmacol. Ther . , 1992 , 53 , 31 –65 .
133.
McKAY
G.
MACNAIR
R.
MacDONALD
C.
GRANT
M.
: Biomaterials , 1997 , 17 , 1339 –1344 .
134.
OKAZAKI
Y.
RAO
S.
ITO
Y.
TATEISHI
T.
: Biomaterials , 1998 , 19 , 1197 –1215 .
135.
WILTSHIRE
W.
FERREIRA
M.
LIGHTELM
J.
: Quintessence Int. , 1996 , 27 , 513 –520 .
136.
BERNSTEIN
A.
BERNAUER
I.
MAX
R.
GEURTSEN
W.
: Biomaterials , 1992 , 13 , 98 –100 .
137.
MERRITT
K.
BROWN
S.
SHARKEY
N.
: J. Biomed. Mater. Res . , 1984 , 18 , 1005 –1015 .
138.
BROWN
S.
FARNSWORTH
L.
MERRITT
K.
CROWE
T.
: J. Biomed. Mater. Res . , 1988 , 22 , 321 –338 .