Effect of vibration frequency on biopsy needle insertion force

Tan, Lei; Qin, Xuemei; Zhang, Qinhe; Zhang, Hongcai; Dong, Hongjian; Guo, Tong; Liu, Guowei

doi:10.1016/j.medengphy.2017.02.011

Cited by 22 publications

(8 citation statements)

References 11 publications

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“…1,2,13 Furthermore, it was conjectured that the same influence of vibration could be seen on the typical needle. 25 To apply the vibration to the mosquito-inspired needle during insertion into tissue, the needle was fixed to the actuator, so that the needle can be vibrated in the longitudinal direction. Also, different frequency ranging from 0 to 500 Hz were applied to determine the desired vibrational frequency.…”

Section: Mosquito-inspired Needle Designmentioning

confidence: 99%

“…22 There have been also some efforts to mimic the vibration of a mosquito proboscis in soft tissues to minimize the needle insertion force. [25][26][27][28] Bi and Lin, 28 investigated the vibration effect during insertion to reduce needle deflection. Li et al 17 have concluded that the mosquito-proboscis inspired needle, where the needle and the bioinspired cannula move in the reciprocating motion so that the needle advances incrementally and can significantly reduce the tissue deformation during insertion.…”

Section: Introductionmentioning

confidence: 99%

“…Since studies have also concluded that that increasing the needle insertion velocity will increase the insertion force 1,11,25,34,35 , two dynamic insertion parameters, insertion velocity, and frequency will be carefully considered for evaluating the proposed mosquito-inspired needle for reduction of insertion force and tissue deformation. The major contribution of this work is the study of the effect of geometrical features such as maxilla structure and thickness on the insertion force and the tissue deformation.…”

Section: Introductionmentioning

confidence: 99%

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Experimental study of mosquito-inspired needle to minimize insertion force and tissue deformation

Gidde

Islam

Kim

et al. 2022

Proc Inst Mech Eng H

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The aim of this work is to propose a mosquito-inspired (bioinspired) design of a surgical needle that can decrease the insertion force and the tissue deformation, which are the main causes of target inaccuracy during percutaneous procedures. The bioinspired needle was developed by mimicking the geometrical shapes of mosquito proboscis. Needle prototypes were manufactured and tested to determine optimized needle shapes and geometries. Needle insertion tests on a tissue-mimicking polyvinylchloride (PVC) gel were then performed to emulate the mosquito-proboscis stinging dynamics by applying vibration and insertion velocity during the insertion. An insertion test setup equipped with a sensing system was constructed to measure the insertion force and to assess the deformation of the tissue. It was discovered that using the proposed bioinspired design, the needle insertion force was decreased by 60% and the tissue deformation was reduced by 48%. This finding is significant for improving needle-based medical procedures.

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Section: Mosquito-inspired Needle Designmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Experimental study of mosquito-inspired needle to minimize insertion force and tissue deformation

Gidde

Islam

Kim

et al. 2022

Proc Inst Mech Eng H

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show abstract

“…The classical puncture theoretical model was proposed by Okamura in 2004, and then gradually became mature after a series of development and improvement [15]. Tan et al [16] studied the effect of vibration frequency on biopsy needle insertion force. Yu et al [17] established a needle-shaped ultrathin piezoelectric microsystem to inject onto ventional biopsy needles and real-time measurements of variation in tissue modulus.…”

Section: Introductionmentioning

confidence: 99%

3D Cohesive Finite Element Minimum Invasive Surgery Simulation Based on Kelvin Voigt Model

Jiang

Song

Luo

2021

Preprint

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Minimum Invasive Surgery is an important means of cytopathological examination. At present, there are few researches on three dimensional (3D) puncture simulation model base on suitable constitutive model, so a reasonable three dimensional puncture simulation model can reveal the internal deformation state of the tissue at the micro level. In this paper, a new viscoelastic constitutive equation suitable for muscle tissue and a method to define the fracture characteristics of muscle tissue material in the simulation process are proposed. The fracture of muscle tissue in contact with puncture needle is simulated by using the cohesive zone model, and a 3D puncture finite element model is established to analyze the deformation of muscle tissue. The stress nephogram and reaction force under different parameters were compared and analyzed to study the deformation of biological soft tissue, so as to guide the actual operation process and reduce pain.

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“…Tan et al also used gelatine phantoms and investigated the additional force generated by a vibration. They claimed that a vibration with 500 Hz creates a 17.9 % higher additional force compared to a vibration with 50 Hz [7]. Barnett investigated the puncture force when piercing into porcine skin.…”

Section: Introductionmentioning

confidence: 99%

Investigation of vibration parameters for needle insertion force reduction

Rehling

Liu²,

Stewart³

et al. 2020

Current Directions in Biomedical Engineering

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Many medical interventions in therapy and diagnostics require needle insertion into tissue. Common complications such as increased pain and formation of haematoma are caused by wrong needle positioning. It has been shown that pain experience and needle positioning can be improved by a reduction of insertion force, which can be achieved by vibrating the needle axially. An experimental setup has been designed to investigate the influences of different combinations of vibration frequencies (10, 100, and 200 Hz) and vibration amplitudes (20, 100, and 500 μm) during needle insertion into thin sheets of polyethylene terephthalate (PET). A customary 20 W loudspeaker was used to generate the vibration. The results indicate a maximum reduction of 73 % in puncture force and up to a 100 % reduction in shaft friction force. However, the additional vibration force generated by the vibration movement has to be high enough to generate positive effects in terms of force reduction.

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Effect of vibration frequency on biopsy needle insertion force

Cited by 22 publications

References 11 publications

Experimental study of mosquito-inspired needle to minimize insertion force and tissue deformation

Experimental study of mosquito-inspired needle to minimize insertion force and tissue deformation

3D Cohesive Finite Element Minimum Invasive Surgery Simulation Based on Kelvin Voigt Model

Investigation of vibration parameters for needle insertion force reduction

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