Development of a noninvasive electrical impedance probe for minimally invasive tumor localization.
Identifieur interne : 003B31 ( Ncbi/Curation ); précédent : 003B30; suivant : 003B32Development of a noninvasive electrical impedance probe for minimally invasive tumor localization.
Auteurs : Dai Yu [République populaire de Chine] ; Du Jun ; Yang Qing ; Zhang JianxunSource :
- Physiological measurement [ 1361-6579 ] ; 2015.
English descriptors
- KwdEn :
- Carcinoma, Renal Cell (physiopathology), Carcinoma, Renal Cell (surgery), Electric Impedance, Electrodes, Equipment Design, Feasibility Studies, Humans, Kidney (physiopathology), Kidney (surgery), Linear Models, Minimally Invasive Surgical Procedures (instrumentation), Nephrectomy, Physical Stimulation, Robotics.
- MESH :
- instrumentation : Minimally Invasive Surgical Procedures.
- physiopathology : Carcinoma, Renal Cell, Kidney.
- surgery : Carcinoma, Renal Cell, Kidney.
- Electric Impedance, Electrodes, Equipment Design, Feasibility Studies, Humans, Linear Models, Nephrectomy, Physical Stimulation, Robotics.
Abstract
Compared with traditional open surgery, minimally invasive surgery (MIS) improves the accuracy and dexterity of a surgeon and minimizes trauma to the patient. However, the lack of significant haptic feedback in MIS can make tumor localization difficult. A noninvasive electrical impedance probe (NEIP), consisting mainly of two spherical electrodes and a constant force generator, has been developed to gently touch or slide over tissue surface and at the same time record impedance values without prior registration of the surface. We prove that there is a linear relationship between the surgical margin width and the recorded conductance. Ex vivo experiments in ten human kidney specimens were performed to demonstrate the feasibility of NEIP. The experimental results verify the linear relationship and indicate that NEIP can provide accurate tumor location while sliding over the tissue surface.
DOI: 10.1088/0967-3334/36/9/1785
PubMed: 26235651
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pubmed:26235651Le document en format XML
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<author><name sortKey="Yu, Dai" sort="Yu, Dai" uniqKey="Yu D" first="Dai" last="Yu">Dai Yu</name>
<affiliation wicri:level="3"><nlm:affiliation>Institute of Robotics and Automatic Information System, Tianjin Key Laboratory of Intelligent Robotics, College of Computer and Control Engineering, Nankai University, 94 Weijin Road, Nankai district, Tianjin, People's Republic of China.</nlm:affiliation>
<country xml:lang="fr">République populaire de Chine</country>
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<author><name sortKey="Jun, Du" sort="Jun, Du" uniqKey="Jun D" first="Du" last="Jun">Du Jun</name>
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<author><name sortKey="Qing, Yang" sort="Qing, Yang" uniqKey="Qing Y" first="Yang" last="Qing">Yang Qing</name>
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<author><name sortKey="Jianxun, Zhang" sort="Jianxun, Zhang" uniqKey="Jianxun Z" first="Zhang" last="Jianxun">Zhang Jianxun</name>
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<affiliation wicri:level="3"><nlm:affiliation>Institute of Robotics and Automatic Information System, Tianjin Key Laboratory of Intelligent Robotics, College of Computer and Control Engineering, Nankai University, 94 Weijin Road, Nankai district, Tianjin, People's Republic of China.</nlm:affiliation>
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<series><title level="j">Physiological measurement</title>
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<term>Electrodes</term>
<term>Equipment Design</term>
<term>Feasibility Studies</term>
<term>Humans</term>
<term>Kidney (physiopathology)</term>
<term>Kidney (surgery)</term>
<term>Linear Models</term>
<term>Minimally Invasive Surgical Procedures (instrumentation)</term>
<term>Nephrectomy</term>
<term>Physical Stimulation</term>
<term>Robotics</term>
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<keywords scheme="MESH" qualifier="instrumentation" xml:lang="en"><term>Minimally Invasive Surgical Procedures</term>
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<term>Kidney</term>
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<term>Equipment Design</term>
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<front><div type="abstract" xml:lang="en">Compared with traditional open surgery, minimally invasive surgery (MIS) improves the accuracy and dexterity of a surgeon and minimizes trauma to the patient. However, the lack of significant haptic feedback in MIS can make tumor localization difficult. A noninvasive electrical impedance probe (NEIP), consisting mainly of two spherical electrodes and a constant force generator, has been developed to gently touch or slide over tissue surface and at the same time record impedance values without prior registration of the surface. We prove that there is a linear relationship between the surgical margin width and the recorded conductance. Ex vivo experiments in ten human kidney specimens were performed to demonstrate the feasibility of NEIP. The experimental results verify the linear relationship and indicate that NEIP can provide accurate tumor location while sliding over the tissue surface.</div>
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