A Design Concept of an Orthopedic Bone Drilling Mechatronics System

Vladimir Kotev; George Boiadjiev; Tetsuya Mouri; Kamen Delchev; Haruhisa Kawasaki; Tony Boiadjiev

doi:10.4028/www.scientific.net/AMM.302.248

Paper Titles

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Temperature Analysis for Circumferential Electric Discharge Milling and Mechanical Grinding Compound Machining of SiC Ceramic
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Effect of Fast Prototyping Means on the Fatigue Strength of High Carbon Steels
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A Design Concept of an Orthopedic Bone Drilling Mechatronics System
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Numerical Simulation on Temperature and Stress Field of Multi-Pass Welding of Thin Stainless Steel Plate
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 302A Design Concept of an Orthopedic Bone Drilling...

A Design Concept of an Orthopedic Bone Drilling Mechatronics System

Abstract:

Bone drilling manipulationstake placevery ofteninthe orthopedic surgery. The successful execution of bone drilling requires a high level of dexterity and experience. The patient’s recovering depends on the operation performance. This paper presents a design concept of a bone drilling hand-hold mechatronic system. It is based on the modified structure of the previous our robot ODRO. It isable to detect the bone breakthrough and the stops. It is intended to perform drilling a preliminary set depth. Resistantforce is measured and experimental results are shown.

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Periodical:

Applied Mechanics and Materials (Volume 302)

Pages:

248-251

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.302.248

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Online since:

February 2013

Authors:

Vladimir Kotev, George Boiadjiev, Tetsuya Mouri, Kamen Delchev, Haruhisa Kawasaki, Tony Boiadjiev

Keywords:

Design, Mechatronic System, Orthopedic Surgery

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References

[1] Sugano N. Computer-assisted orthopedic surgery, J. of Orthopedic Science (2003) 8: 442–448.

Google Scholar

[2] Rosen J, HannafordB, SatavaR. SurgicalRobotics. SpringerScience+BusinessMedia, LLC (2011).

Google Scholar

[3] Gomes P. Surgical robotics: Reviewing the past, analysing the present, imagining the future, Robotics and Computer-Integrating Manufacturing, 27 (2011), 261-266.

DOI: 10.1016/j.rcim.2010.06.009

Google Scholar

[4] Shoham M., Burman M., Zehavi E., Joskowicz L., Batkilin E. and Y. Kunicher. Bone-Mounted Miniature Robot for Surgical Procedures: Concept and Clinical Applications, IEEE Transactions on Robotics and Automation, 19, (5), pp: 893-901, (2003).

DOI: 10.1109/tra.2003.817075

Google Scholar

[5] M.T. Hillery, I. Shuaib, Temperature effects in the drilling of human and bovine bone, Journal of Materials Processing Technology 92-93 (1999) 302-308.

DOI: 10.1016/s0924-0136(99)00155-7

Google Scholar

[6] C. Plaskos, P. Cinquin, S. Lavalle´e, A. Hodgson, Praxiteles: a miniature bone- mounted robot for minimal access to talk neearthroplasty. Internat. Jour. Of Medical Robotics 2005; 1(4): 67–79.

DOI: 10.1002/rcs.59

Google Scholar

[7] W. Saensupho, J. Suthakorn, A Novel Conceptual Design on Robotic Bone-Cutting Device Based on Kinematic Analysis: Toward Development of A Novel Robot-Assisted Total Knee Replacement Surgical System, 2011 Int. Conf. on Computer Control and Automation (ICCCA 2011).

Google Scholar

[8] Boiadjiev T, Zagurski K, Boiadjiev G, Delchev K, Vitkov V, Veneva I, Kastelov R. Identification of the Bone Structure during the Automatic Drilling in the Orthopedic surgery. (2011).

DOI: 10.1080/15397734.2011.550863

Google Scholar

[9] Patent No 66136 / 17. 08. 2011, BG.

Google Scholar

[10] G. Boiadjiev, K. Zagurski, T. Boiadjiev, K. Delchev, R. Kastelov, Vl. Kotev, Robot application in orthopedic surgery: drilling control, J. of Engineering Technology, No1, (2012), pp: 125-130.

DOI: 10.5176/2251-3701_1.1.21

Google Scholar

[11] Maxon motor catalogue 2012/13, pp: 177.

Google Scholar

[12] Maxon motor catalogue 2012/13, pp: 239.

Google Scholar

[13] Information on thehttp: /www. kssballscrew. com/us/pdf/catalog/vol. 25. 0_MoBo_MB_A3. pdf.

Google Scholar

[14] Information on thehttp: /www. kyowa-ei. co. jp/eng/product/sensors/loadcell/lmb_a. html.

Google Scholar