Potential risk of sternal wires

C. C. Shih, C. M. Shih, Y. Y. Su, S. J. Lin

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Objective: To understand the potential fracture mechanism of sternal wires, we collected extracted stainless steel sternal wires from patients with sternal dehiscence or chronic persistent postoperative sternal pain syndrome following open-heart operations. Surface alterations and fractured ends of sternal wires were inspected and analyzed. Methods: In sternal dehiscence group, twelve fractured and 18 non-fractured wires were extracted from 7 patients with mean implantation interval of 13.2±4.2 days (range 8-20 days). In chronic pain syndrome group, twenty-eight sternal wires with mean implantation period of 84±32 (range 26-312) months were retrieved from 10 patients. Extracted wires were cleaned and fibrotic tissues were removed. Irregularities and surface alternation were assayed by scanning electron microscopy (SEM) and energy dispersive X-ray analysis (EDAX). Propagation of crack was also examined at the cross section. Results: In the sternal dehiscence group, all examined wires showed the presence of severe transversal cracks and crevice corrosion. In chronic pain syndrome group, all examined explants showed external and internal damages. Larger and irregularly shaped surfaces pits were observed in 70% of the explants. Vast regions of decay and cracks were found in several areas. EDAX examination revealed the deterioration and diminished nickel concentration in the corroded regions. Conclusions: The synergic effect of stress, poor wire quality, and hostile environment of body fluid could be the precursor of material failure for the sternal dehiscence. Severity of progressive corrosion of stainless steel sternal wires is a function of the implantation time. The adjacent tissue reaction and inflammation due to the released nickel would induce chronic persistent postoperative sternal pain syndrome after implantation. Cell-induced electrochemical corrosion and active cellular destruction of surfaces are well-known mechanisms and must be investigated for their roles in the corrosion of suture wires.

Original languageEnglish
Title of host publicationTransactions - 7th World Biomaterials Congress
Pages1870
Number of pages1
Publication statusPublished - 2004
EventTransactions - 7th World Biomaterials Congress - Sydney, Australia
Duration: May 17 2004May 21 2004

Other

OtherTransactions - 7th World Biomaterials Congress
CountryAustralia
CitySydney
Period5/17/045/21/04

Fingerprint

Wire
Corrosion
Cracks
Energy dispersive spectroscopy
Stainless steel
Nickel
Tissue
Electrochemical corrosion
Energy dispersive X ray analysis
Body fluids
Deterioration
Scanning electron microscopy

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Shih, C. C., Shih, C. M., Su, Y. Y., & Lin, S. J. (2004). Potential risk of sternal wires. In Transactions - 7th World Biomaterials Congress (pp. 1870)

Potential risk of sternal wires. / Shih, C. C.; Shih, C. M.; Su, Y. Y.; Lin, S. J.

Transactions - 7th World Biomaterials Congress. 2004. p. 1870.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Shih, CC, Shih, CM, Su, YY & Lin, SJ 2004, Potential risk of sternal wires. in Transactions - 7th World Biomaterials Congress. pp. 1870, Transactions - 7th World Biomaterials Congress, Sydney, Australia, 5/17/04.
Shih CC, Shih CM, Su YY, Lin SJ. Potential risk of sternal wires. In Transactions - 7th World Biomaterials Congress. 2004. p. 1870
Shih, C. C. ; Shih, C. M. ; Su, Y. Y. ; Lin, S. J. / Potential risk of sternal wires. Transactions - 7th World Biomaterials Congress. 2004. pp. 1870
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abstract = "Objective: To understand the potential fracture mechanism of sternal wires, we collected extracted stainless steel sternal wires from patients with sternal dehiscence or chronic persistent postoperative sternal pain syndrome following open-heart operations. Surface alterations and fractured ends of sternal wires were inspected and analyzed. Methods: In sternal dehiscence group, twelve fractured and 18 non-fractured wires were extracted from 7 patients with mean implantation interval of 13.2±4.2 days (range 8-20 days). In chronic pain syndrome group, twenty-eight sternal wires with mean implantation period of 84±32 (range 26-312) months were retrieved from 10 patients. Extracted wires were cleaned and fibrotic tissues were removed. Irregularities and surface alternation were assayed by scanning electron microscopy (SEM) and energy dispersive X-ray analysis (EDAX). Propagation of crack was also examined at the cross section. Results: In the sternal dehiscence group, all examined wires showed the presence of severe transversal cracks and crevice corrosion. In chronic pain syndrome group, all examined explants showed external and internal damages. Larger and irregularly shaped surfaces pits were observed in 70{\%} of the explants. Vast regions of decay and cracks were found in several areas. EDAX examination revealed the deterioration and diminished nickel concentration in the corroded regions. Conclusions: The synergic effect of stress, poor wire quality, and hostile environment of body fluid could be the precursor of material failure for the sternal dehiscence. Severity of progressive corrosion of stainless steel sternal wires is a function of the implantation time. The adjacent tissue reaction and inflammation due to the released nickel would induce chronic persistent postoperative sternal pain syndrome after implantation. Cell-induced electrochemical corrosion and active cellular destruction of surfaces are well-known mechanisms and must be investigated for their roles in the corrosion of suture wires.",
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N2 - Objective: To understand the potential fracture mechanism of sternal wires, we collected extracted stainless steel sternal wires from patients with sternal dehiscence or chronic persistent postoperative sternal pain syndrome following open-heart operations. Surface alterations and fractured ends of sternal wires were inspected and analyzed. Methods: In sternal dehiscence group, twelve fractured and 18 non-fractured wires were extracted from 7 patients with mean implantation interval of 13.2±4.2 days (range 8-20 days). In chronic pain syndrome group, twenty-eight sternal wires with mean implantation period of 84±32 (range 26-312) months were retrieved from 10 patients. Extracted wires were cleaned and fibrotic tissues were removed. Irregularities and surface alternation were assayed by scanning electron microscopy (SEM) and energy dispersive X-ray analysis (EDAX). Propagation of crack was also examined at the cross section. Results: In the sternal dehiscence group, all examined wires showed the presence of severe transversal cracks and crevice corrosion. In chronic pain syndrome group, all examined explants showed external and internal damages. Larger and irregularly shaped surfaces pits were observed in 70% of the explants. Vast regions of decay and cracks were found in several areas. EDAX examination revealed the deterioration and diminished nickel concentration in the corroded regions. Conclusions: The synergic effect of stress, poor wire quality, and hostile environment of body fluid could be the precursor of material failure for the sternal dehiscence. Severity of progressive corrosion of stainless steel sternal wires is a function of the implantation time. The adjacent tissue reaction and inflammation due to the released nickel would induce chronic persistent postoperative sternal pain syndrome after implantation. Cell-induced electrochemical corrosion and active cellular destruction of surfaces are well-known mechanisms and must be investigated for their roles in the corrosion of suture wires.

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