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Analysis of Bone Drilling Processes: A Review

Ajish T.N.*, Govindan Puthumana**

* M.Tech student, Department of Mechanical Engineering, Government College of Engineering, Kannur, Kerala, India.

** Assistant Professor, Department of Mechanical Engineering, Government College of Engineering, Kannur, Kerala, India.

Periodicity:January - March'2015
DOI : https://doi.org/10.26634/jms.2.4.3123

Abstract

Bones fracture mainly due to an accident or by diseases, when human starts to do work and activity. It is the essential part of orthopaedic, truamatology and bone biopsy. The problem of bone fracture in medicine due to an accident, aging or diseases has existed since humans started to do work and activity. Therefore the process of bone drilling is an essential part of internal immobilization in orthopaedic and trauma surgery. The main concern in bone cutting is the mechanical and thermal damage to the bone tissue induced by high-speed power tools. Recent technological improvements are concerned with the efforts to decrease the force required by the surgeon when cutting the bone as well as to increase the surgery speed. The generated heat by bone drilling process is dissipated by blood flow and tissue fluids and also partially carried away by the chips. However, some heat may be conducted into the work piece (bone) by thermal conductivity. Increasing the temperature in drilling zone results in essence change of bone alkaline phosphatises. This successively causes thermal and cellular necrosis, which subsequently provides osseous necrosis and drop in mechanical strength of the drilling zone. All these factors have forced the researchers to do wide investigations on bone drilling process and the way in which machining parameters influence the level of temperature elevation in drilling zone. Subsequently, this review includes all relevant investigations by means of experimental methods used and methodology, results and conclusion by various researches were also compared.

Keywords

Drilling, Bone Fracture, Temperature Elevation, Experimental Analysis, Simulation of Bone Drilling, Mathematical Modelling.

How to Cite this Article?

Ajish, T.N., and Govindan, P. (2015). Analysis of Bone Drilling Processes: A Review. i-manager’s Journal on Material Science, 2(4), 20-28. https://doi.org/10.26634/jms.2.4.3123

References

[1]. M.T. Hillery, I. Shuaib, '' Temperature effects in the drilling of human and bovine bone'', Journal of Materials Processing Technology, Vol 92-93, pp. 302-308.

[2]. G.J.M. Tuijthof, C. Frühwirtc, C. Kment, ''Influence of tool geometry on drilling performance of cortical and trabecular bone'', Medical Engineering & Physics, Vol 35, pp. 1165– 1172.

[3]. JuEun Lee, O. Burak Ozdoganlar, Yoed Rabin'' “An experimental investigation on thermal exposure during bone drilling'', Medical Engineering & Physics, Vol. 34, pp.1510– 1520.

[4]. Wendong Wang, Yikai Shi, Ning Yang, Xiaoqing Yuan, ''Experimental analysis of drilling process in cortical bone'', Medical Engineering & Physics, Vol. 36(2), pp. 261– 266.

[5]. Inaki Díaz, Jorge Juan Gil, Marcos Louredo. “Bone drilling methodology and tool based on position measurements'', Computer methods and programs in biomedicine, Vol. 112(2), pp.284–292.

[6]. Steven den Dunnen, Lars Mulder, GinoM.M. J.Kerkhoffs, '' Water jet drilling in porcine bone: The effect of the nozzle diameter and bone architecture on the hole dimensions'', Journal of mechanical behavior of biomedical materials, Vol 27, pp.84 – 93.

[7]. Rupesh Kumar Pandey, S.S. Panda, “Optimization of bone drilling parameters using grey-based fuzzy algorithm'', Measurement, Vol. 47, pp.386–392.

[8]. C. Santiuste , M. Rodríguez-Millán, E. Giner ''The influence of anisotropy in numerical modeling of orthogonal cutting of cortical bone'' Computer structure, Vol .116, pp.423–431.

[9]. Rupesh kumar Pandey, S.S.Panda ''Predicting Temperature in Orthopedic Drilling using Back Propagation Neural Network'' Computer Engineering, Vol. 51, pp.676 – 682.

[10]. Jianbo Sui, Naohiko Sugita, Kentaro Ishii ''Mechanistic modeling of bone-drilling process with experimental validation'' Journal of Materials Processing Technology, Vol. 214 (4), pp. 1018– 1026.

[11]. JuEun Lee, B. Arda Gozen ''Modeling and experimentation of bone drilling forces'' Journal of Biomechanics, Vol, 45(6), pp. 1076–1083.

[12]. G.J.M. Tuijthof, C. Frühwirt ''Influence of tool geometry on drilling performance of cortical and trabecular bone'', Medical Engineering & Physics, Vol. 35 (8), pp.1165– 1172.

[13]. JuEun Lee, Yoed Rabin “A new thermal model for bone drilling with applications to orthopedic surgery'', Medical Engineering & Physics, Vol. 33 (10), pp. 1234– 1244.

[14]. A.V. Mitrofanov and V.V. Silberschmidt “Measurements of Surface Roughness in Conventional and Ultrasonically Assisted Bone Drilling” American Journal of Biomedical Sciences, Vol. 1(4), pp.128-132.

[15]. Yael Eshet, Ronit R. Mann, Abby Anaton, Tomer Yacoby (2004) '' Microwave Drilling of Bones'' TBME-00584- 2004. Vol. 53 (6), pp. 1174-1182.

Analysis of Bone Drilling Processes: A Review

Abstract

Keywords

How to Cite this Article?

References

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