Retracted: Study on tensile, bending, fatigue, and in vivo behavior of porous SHS–TiNi alloy used as a bone substitute

Yasenchuk, Yu. F.; Марченко, Екатерина; Baigonakova, Gulsharat; Gunther, S.; Kokorev, O. V.; Gunter, Victor; Chekalkin, Timofey; Topolnitskiy, E. B.; Obrosov, Aleksei; Kang, Ji-Hoon

doi:10.1088/1748-605x/aba327

Cited by 14 publications

(7 citation statements)

References 42 publications

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“…The distinctive feature of porous TiNi is conditioned by the lowest elastic modulus similar to that demonstrated by the bone tissue. Additionally, the rheological resemblance in terms of stress-strain allows the artificial rib to be congruentially deformed without failure and delamination, passing through a million cycles, as recently assessed by Yasenchuk et al [ 23 ]. The rough, hydrophilic surface of porous SHS-TiNi was reported to sustain cell adhesion, growth, and proliferation via a system of interconnected macro-/micropores and grooves [ [24] , [25] , [26] ].…”

Section: Discussionmentioning

confidence: 99%

Repair of huge thoracic defect combined with hernia after multimodality treatment of breast cancer

Topolnitskiy

Chekalkin²,

Марченко³

et al. 2021

Respiratory Medicine Case Reports

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A case of the successful reconstruction of an extensive chest wall defect combined with a ventral hernia in a patient after multimodality treatment of breast cancer complicated by sternal and costal osteomyelitis is presented. To recover the chest mechanics, with emphasis on the supporting function, and to repair the hernial defect, customized reinforced “sandwich” TiNi rib endografts and knitted TiNi surgical mesh were used. A five-year follow-up indicated no recurrence of osteomyelitis or ventral hernia, and no failure/migration of the implants or instability of the thorax. Excellent clinical and functional outcomes were achieved pursuant to the Enneking score.

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Section: Discussionmentioning

confidence: 99%

Repair of huge thoracic defect combined with hernia after multimodality treatment of breast cancer

Topolnitskiy

Chekalkin²,

Марченко³

et al. 2021

Respiratory Medicine Case Reports

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“…At present, there are three categories of the SMA that have been put into application [1], the Ni based, the Copper based and the stainless steel based. The Nibased SMA, especially the NiTi SMA shows excellent properties such as Shape Memory Effect and superelastic [2,3], damping characteristics [4,5], corrosion resistance [6][7][8] and biocompatibility [9,10]. Based on these characteristics, Ni-based SMA has been widely used in aerospace, machinery, chemical, electronics and medical fields [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Study on the Mechanical Properties of Ni-Ti-Cu Shape Memory Alloy Considering Different Cu Contents

Liu¹,

Hao²

2022

Computer Modeling in Engineering &Amp; Sciences

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By adding copper to increase the performance, the Ni-Ti-Cu Shape Memory Alloy (SMA), has been widely used in the field of engineering in recent years. A thermodynamic constitutive model for Ni-Ti-Cu SMA considering different copper contents is established in this work. Numerical results for two different copper contents, as examples, are compared with the experimental results to verify the accuracy of the theoretical work. Based on the verified constitutive model, the effects of different copper content on the mechanical properties of Ni-Ti-Cu SMA and the tensile and compressive asymmetric properties of Ni-Ti-Cu SMA are finally discussed, respectively.

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“…Porous and solid TiNi-based implants and their successful deployment in surgical treatments have encouraged insights for immediate and delayed rib-plasty in cancer patients. Experimental and clinical studies with promising results have demonstrated successful integration of TiNi implants with the formation of regenerated tissues, which anatomically and physiologically restore the injured area [ 24 , 25 , 26 , 27 , 28 , 29 , 30 ]. Recently, porous SHS-TiNi alloys have been reported [ 31 ] to have some features that significantly distinguish them from those manufactured by other methods of powder metallurgy.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, the rheological similarity between the viscoelastic artificial TiNi sandwich and the rib imparts additional working benefits to this biomaterial. The distinctive feature of porous TiNi is conditioned by the lowest elastic modulus similar to that demonstrated by the bone tissue, whereas a rheological resemblance in terms of stress-strain allows the artificial rib to be congruentially deformed without rupture and delamination, passing through a million cycles, as studied in [ 30 ]. The rough hydrophilic surface of porous SHS-TiNi was reported to sustain cell adhesion, growth, and proliferation via a system of interconnected macro-/micropores and grooves [ 33 , 34 , 35 ].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Clinical Performance of TiNi-Based Implants Used in Chest Wall Repair after Resection for Malignant Tumors

Topolnitskiy

Chekalkin

Марченко

et al. 2021

JFB

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In this study, we assessed the outcomes after surgical treatment of thoracic post-excision defects in 15 patients, using TiNi knitted surgical meshes and customized artificial TiNi-based ribs. Methods: Eight patients were diagnosed with advanced non-small cell lung cancer (NSCLC) invading the chest wall, of which five patients were T3N0M0, two were T3N1M0, and one was T3N2M0. Squamous cell carcinoma was identified in three of these patients and adenocarcinoma in five. In two cases, chest wall resection and repair were performed for metastases of kidney cancer after radical nephrectomy. Three-dimensional CT reconstruction and X-ray scans were used to plan the surgery and customize the reinforcing TiNi-based implants. All patients received TiNi-based devices and were prospectively followed for a few years. Results: So far, there have been no lethal outcomes, and all implanted devices were consistent in follow-up examinations. Immediate complications were noted in three cases (ejection of air through the pleural drains, paroxysm of atrial fibrillation, and pleuritis), which were conservatively managed. In the long term, no complications, aftereffects, or instability of the thoracic cage were observed. Conclusion: TiNi-based devices used for extensive thoracic lesion repair in this context are promising and reliable biomaterials that demonstrate good functional, clinical, and cosmetic outcomes.

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Retracted: Study on tensile, bending, fatigue, and in vivo behavior of porous SHS–TiNi alloy used as a bone substitute

Cited by 14 publications

References 42 publications

Repair of huge thoracic defect combined with hernia after multimodality treatment of breast cancer

Repair of huge thoracic defect combined with hernia after multimodality treatment of breast cancer

Study on the Mechanical Properties of Ni-Ti-Cu Shape Memory Alloy Considering Different Cu Contents

Evaluation of Clinical Performance of TiNi-Based Implants Used in Chest Wall Repair after Resection for Malignant Tumors

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