The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes

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The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes Publisher Pubmed

Zandi A^{1, 2} ; Davari Sh Z¹ ; Shojaeian F^{1, 3} ; Mousavikiasary SMS¹ ; Abbasvandi F^{1, 4} ; Zandi A^{1, 2} ; Gilani A¹ ; Saghafi Z¹ ; Kordehlachin Y¹ ; Mamdouh A¹ ; Miraghaie SH¹ ; Hoseinyazdi M⁶ ; Khayamian MA^{1, 2} ; Anbiaee R⁷ Show All Authors

Zandi A^{1, 2}
Davari Sh Z¹
Shojaeian F^{1, 3}
Mousavikiasary SMS¹
Abbasvandi F^{1, 4}
Zandi A^{1, 2}
Gilani A¹
Saghafi Z¹
Kordehlachin Y¹
Mamdouh A¹
Miraghaie SH¹
Hoseinyazdi M⁶
Khayamian MA^{1, 2}
Anbiaee R⁷
Faranoush M^{8, 9}
Abdolahad M^{1, 2, 10}

Source: Biomaterials Science Published:2021

Abstract

A new biosensor for detecting cancer involved sentinel lymph nodes has been developed via the electrochemical tracing of fatty acid oxidation as a distinct metabolism of malignant cells invading lymph nodes (LNs). The system included integrated platinum needle electrodes that were decorated by carbon nanotubes (as hydrophobic agents) through laser-assisted nanowelding. It was applied to record the dielectric spectroscopy data from LN contents via electrochemical impedance spectroscopy. The system was applied for dielectric spectroscopy of LN contents via electrochemical impedance approach. The reduced lipid content of involved LNs, due to fat metabolism by invasive cancer cells, would decrease the charge transfer resistance (RCT) of the LNs with respect to their normal counterparts. Multi-walled carbon nanotubes (MWCNTs) with superhydrophobic properties were used to enhance the interaction of Pt needle electrodes with the lipidic contents of lymph nodes. This is the first time that a fatty acid metabolism-based sensing approach has been introduced to detect involved LNs. Moreover, a novel electrode decorating method was applied to enhance the interfacial contact of this lipid detection probe (LDP). In order to avoid doubt about the biocompatibility of ferrocyanide, [Fe(CN)6]4- and ferricyanide, [Fe(CN)6]3-, a biocompatible injectable metal ion-based material, ferric carboxymaltose, was selected and applied as the electrolyte for the first time. Rabbit LNs were tested using the LDP in the animal model phase. The system was then used in vitro on 122 dissected human LNs in the operating room. Calibration of the results showed an excellent match between the dielectric response of the LDP (known as charge transfer resistance (RCT)) and the final pathological diagnoses. The LDP may have a promising future after further clinical investigations for intra-operative distinction between normal and cancerous LNs. © 2021 The Royal Society of Chemistry.

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Style	Citing Format
MLA	Zandi A, et al.. "The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes." Biomaterials Science, vol. 9, no. 18, 2021, pp. 6214-6226.
APA	Zandi A, Davari Sh Z, Shojaeian F, Mousavikiasary SMS, Abbasvandi F, Zandi A, Gilani A, Saghafi Z, Kordehlachin Y, Mamdouh A, Miraghaie SH, Hoseinyazdi M, Khayamian MA, Anbiaee R, Faranoush M, Abdolahad M (2021). The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes. Biomaterials Science, 9(18), 6214-6226.
Chicago	Zandi A, Davari Sh Z, Shojaeian F, Mousavikiasary SMS, Abbasvandi F, Zandi A, Gilani A, et al.. "The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes." Biomaterials Science 9, no. 18 (2021): 6214-6226.
Harvard	Zandi A et al. (2021) 'The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes', Biomaterials Science, 9(18), pp. 6214-6226.
Vancouver	Zandi A, Davari Sh Z, Shojaeian F, Mousavikiasary SMS, Abbasvandi F, Zandi A, et al.. The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes. Biomaterials Science. 2021;9(18):6214-6226.
BibTex	@article{ author = {Zandi A and Davari Sh Z and Shojaeian F and Mousavikiasary SMS and Abbasvandi F and Zandi A and Gilani A and Saghafi Z and Kordehlachin Y and Mamdouh A and Miraghaie SH and Hoseinyazdi M and Khayamian MA and Anbiaee R and Faranoush M and Abdolahad M}, title = {The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes}, journal = {Biomaterials Science}, volume = {9}, number = {18}, pages = {6214-6226}, year = {2021} }
RIS	TY - JOUR AU - Zandi A AU - Davari Sh Z AU - Shojaeian F AU - Mousavikiasary SMS AU - Abbasvandi F AU - Zandi A AU - Gilani A AU - Saghafi Z AU - Kordehlachin Y AU - Mamdouh A AU - Miraghaie SH AU - Hoseinyazdi M AU - Khayamian MA AU - Anbiaee R AU - Faranoush M AU - Abdolahad M TI - The Design and Fabrication of Nanoengineered Platinum Needles With Laser Welded Carbon Nanotubes (Cnts) for the Electrochemical Biosensing of Cancer Lymph Nodes JO - Biomaterials Science VL - 9 IS - 18 SP - 6214 EP - 6226 PY - 2021 ER -