References
- CharpailE, TrosseilleX, PetitP, LaporteS, LavasteF, VallancienG. 2005. Characterization of PHMS ribs: a new test methodology. Stapp Car Crash J. 49:1–16.
- Deng Y-C, Kong W, Ho H. 1999. Development of a finite element human thorax model for impact injury studies. Society of Automotive Engineers, Warrendale, PA, Paper Number 1999-01-1975.
- DupreyS, BruyereK, VerriestJ-P. 2008. Influence of geometrical personalization on the simulation of clavicle fractures. J Biomech. 41:200–207.
- DupreyS, SubitD, GuillemotH, KentR. 2010. Biomechanical properties of the costovertebral joint. Med Eng Phys. 32(2):222–227.
- FarkasG. 1991. Mechanical properties of respiratory muscles in primates. Respir Physiol. 86(1):41–50.
- FormanJL, KentRW. 2012. The effect of calcification on the structural mechanics of the costal cartilage. Comput Methods Biomech Biomed Eng [Epub ahead of print].
- GuoBY, LiaoDH, LiXY, ZengYJ, YangQH. 2007. Age and gender related changes in biomechanical properties of healthy human costal cartilage. Clin Biomech. 22(3):292–297.
- GreerJ, MartinT. 1990. Distribution of muscle fibre types, EMG activity in cat intercostal muscles. J Appl Physiol. 69(4):1208–1211.
- HaugE, ChoiH-Y, RobinS, BeaugoninM. 2004. Human models for crash, impact simulation. In: Handbook of numerical analysis. Amsterdam: Elsevier. p. 297–361.
- IbebunjoC. 1993. Type, diameter, distribution of fibres in some respiratory and abdominal muscles of the goat. Vet Res Commun. 17(3):171–182.
- Iwamoto M, Kisanuki Y, Watanabe I, Furusu K, Miki K. 2002. Development of a finite element model of the total human model for safety (THUMS), application to injury reconstruction. Paper presented at: International Research Council on the Biomechanics of Impact. 2002; Munich.
- KellyN, McCarterR, BarnwellG. 1993. Respiratory muscle stiffness is age- and muscle-specific. Aging (Milano). 5(3):229–238.
- KemperA, StitzelJ, GablerC, DumaS, MatsuokaF. 2006. Biomechanical response of the human clavicle subjected to dynamic bending. Biomed Sci Instrume. 42:231–236.
- KimparaH, LeeJ, YangK, KingA, IwamotoM, WatanabeI, MikiK. 2005. Development of a three-dimensional finite element chest model for the 5th percentile female. Stapp Car Crash J. 49:251–269.
- KindigM, LauA, FormanJ, KentR. 2010. Structural response of cadaveric ribcages under a localized loading: stiffness and kinematic trends. Stapp Car Crash J. 54:337–380.
- KindigM, LauA, KentR. 2011. Biomechanical response of ribs under quasistatic frontal loading. Traffic Inj Prevent. 12(4):377–387.
- LauA, OyenML, KentRW, MurakamiD, TorigakiT. 2008. Indentation stiffness of aging human costal cartilage. Acta Biomater. 4:97–103.
- LiZ, KindigMW, KerriganJR, KentRW, CrandallJR. 2012. Development and validation of a subject-specific finite element model of a human clavicle. Comput Methods Biomech Biomed Eng [Epub ahead of print].
- LiZ, KindigMW, KerriganJR, UntaroiuCD, SubitD, CrandallJR, KentRW. 2010b. Rib fractures under anterior–posterior dynamic loads: experimental and finite-element study. J Biomech. 43(2):228–234.
- Li Z, Kindig M, Subit D, Kent R. 2010a. Development of finite element model of 50th percentile male using multiblock hex meshing approach. Presented at: 6th Annual World Congress on Biomechanics; August 2010, Singapore.
- Lizee E, Robin S, Song E, Bertholon N, Le Coz J-Y, Besnault B, Lavaste F. 1998. Development of a 3D finite element model of the human body. Paper presented at: 42nd Stapp Car Crash Conference.
- MohrM, AbramsE, EngelC, LongWB, BottlangM. 2007. Geometry of human ribs pertinent to orthopedic chest-wall reconstruction. J Biomech. 40:1310–1317.
- PanjabiMM, BrandRA, WhiteAA. 1976. Mechanical properties of the human thoracic spine as shown by three-dimensional load–displacement curves. J Bone Joint Surg. 58(5):642–652.
- Plank G, Eppinger R. 1991. An improved finite element model of the human thorax. Paper presented at: 13th International Technical Conference on Experimental Safety Vehicles, 902–907, Paper Number S8-O-09.
- Robin S. 2001. HUMOS: human model for safety – a joint effort towards the development of refined human-like car occupant models. Paper presented at: 17th Enhanced Safety of Vehicles Conference, Paper 297.
- RoyR, KohlesSS, ZaporojanV, PerettiGM, RandolphMA, XuJ, BonassarLJ. 2004. Analysis of bending behaviour of native, engineered auricular, costal cartilage. J Biomed Mater Res Part A.68(4):597–602.
- RuanJ, El-JawahriR, ChaiL, BarbatS, PrasadP. 2003. Prediction, analysis of human thoracic impact responses, injuries in cadaver impacts using a full human body finite element model. Stapp Car Crash J. 47:299–321.
- SaumarezR. 1986. An analysis of action of intercostal muscles in human upper rib cage. J Appl Physiol. 60(2):690–701.
- SchultzAB, BensonDR, HirshC. 1974. Force-deformation properties of human ribs. J Biomech. 7:303–309.
- ShahCS, YangKH, HardyWN, WangK, KingAI. 2001. Development of a computer model to predict aortic rupture due to impact loading. Stapp Car Crash J.45:161–182.
- SteinID, GranikG. 1976. Rib structure and bending strength: an autopsy study. Calcified Tissues Res. 20:61–73.
- Untariou C, Kerrigan J, Crandall J. 2006. Material identification using successive response surface methodology, with application to a human femur subjected to three-point bending loading. Society of Automotive Engineers, Warrendale, PA, Paper Number 2006-01-0063.
- VezinP, BerthetF. 2009. Structural characterization of human rib cage behaviour under dynamic loading. Stapp Car Crash J.53:93–125.
- WangH-CK. 1995. Development of a side-impact finite element human thoracic model [Ph.D. dissertation]. [Detroit, (MI)]: Wayne State University.
- WuW. 1998. An analysis and comparison of convergence and uniqueness of time-independent bone adaptation models. Comput Methods Biomech Biomed Eng. 1(3):223–232.
- YamadaH. 1970. Strength of biological materials. Baltimore, (MD): Williams & Wilkins Co.
- Zhao J, Narwani G. 2005. Development of a human body finite element model for restraint system R & D applications. Paper presented at: 19th International Technical Conference on Experimental Safety of Vehicles.