Study on Prediction Model of Soft Tissue Deformation during Needle Insertion_Journal of Biomedical Engineering

Authors：

 GAODedong , ZHAOGuangwei , WANGShan , ZHUTong

School of Mechanical Engineering, Qinghai University, Xining 810016, China;

Corresponding author：

GAODedong, Email: gaodd@qhu.edu.cn

Keywords：

flexible needle insertion; soft tissue deformation; polyvinyl alcohol hydrogel; back propagation neural network

DOI：

10.7507/1001-5515.20160075

Video：

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Abstract Full text Figures/Tables Video References Cited by

Polyvinyl alcohol (PVA) hydrogel was made for simulating human's soft tissue in our experiment. The image acquisition device is composed of an optical platform, a camera and its bracket and a light source. In order to study the law of soft tissue deformation under flexible needle insertion, markers were embedded into the soft tissue and their displacements were recorded. Based on the analysis of displacements of markers in X direction and Y direction, back propagation (BP) neural network was employed to model the displacement of Y direction for the markers. Compared to the experimental data, fitting degree of the neural network model was above 95%, the maximum relative error for valid data was limited to 30%, and the maximum absolute error was 0.8 mm. The BP neural network model was beneficial for predicting soft tissue deformation quantitatively. The results showed that the model could effectively improve the accuracy of flexible needle insertion into soft tissue.

Citation： GAODedong, ZHAOGuangwei, WANGShan, ZHUTong. Study on Prediction Model of Soft Tissue Deformation during Needle Insertion. Journal of Biomedical Engineering, 2016, 33(3): 442-447. doi: 10.7507/1001-5515.20160075 Copy

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1. MISRA S, MACURA K J, RAMESH K T, et al. The importance of organ geometry and boundary constraints for planning of medical interventions[J]. Med Eng Phys, 2009, 31(2) :195-206.
2. FAZAL I,KARSITI M N. Needle insertion simulation forces v/s experimental forces for haptic feedback device[C]//2009 IEEE Student Conference on Research and Development (SCOReD). UPM Serdang, Malaysia:2009:128-131.
3. GLOZMAN D, SHOHAM M. Flexible needle steering for percutaneous therapies[J]. Comput Aided Surg, 2006, 11(4) :194-201.
4. 高德东,高宜朋,郑浩峻.针穿刺软组织变形有限元仿真[J].计算机辅助设计与图形学学报,2009,21(11) :1601-1605.
5. 姜杉,刘晓艳,白松,等.基于势能场的针刺软组织轨迹规划[J].生物医学工程学杂志,2010,27(4) :790-794.
6. 赵新刚,杨唐文,韩建达,等.机器人辅助针穿刺技术[J].科学通报,2013,58(S2) :20-27.
7. 刘晓艳.基于势能场的针刺软组织轨迹规划及实验研究[D].天津:天津大学,2010.
8. 邓新晶,刘峰.关于进口穿刺针"G"单位的讨论[J].医疗设备信息,2006,21(11) :99.
9. DIMAIO S P, SALCUDEAN S E. Interactive simulation of needle insertion models[J]. IEEE Trans Biomed Eng, 2005, 52(7) :1167-1179.
10. CHANTHASOPEEPHAN T,DESAI J P,LAU A C W. Modeling soft-tissue deformation prior to cutting for surgical simulation:finite element analysis and study of cutting parameters.[J]. IEEE Trans Biomed Eng, 2007, 54(3) :349-359.
11. 邹方林,冷晟,廉鹏飞,等.BP神经网络合理隐结点数确定的改进方法[J].系统仿真技术,2014,10(2) :154-158.
12. 沈花玉,王兆霞,高成耀,等.BP神经网络隐含层单元数的确定[J].天津理工大学学报,2008,24(5) :13-15.
13. 曾庆军,赵呈涛,刘海霞.机器人辅助穿刺手术中针与组织形变有限元仿真研究[J].江苏科技大学学报(自然科学版),2012,26(5) :487-493.

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