Effect of Postmortem Time and Preservation Fluid on the Tensile Material Properties of Bovine Liver Parenchyma

The liver is one of the most frequently injured abdominal organs in motor vehicle collisions. Although previous studies have quantified the tensile failure properties of human liver parenchyma at 48hrs postmortem, it is currently unknown how the material properties change between time of death and 48hrs postmortem. Therefore, the purpose of this study was to quantify the effects of postmortem degradation on the tensile material properties of bovine liver parenchyma when stored in DMEM or saline. Fourteen fresh bovine livers were obtained from a local slaughter house and stored in either DMEM or saline as large blocks, small blocks, or slices of tissue. Multiple parenchyma dog-bone samples from each liver were tested once to failure at three time points: ~6hrs, ~24hrs, and ~48hrs postmortem. The data were then analyzed to determine if there were significant changes in the material properties with respect to postmortem time. The results showed that the failure strain decreased significantly between 6hrs and 48hrs after death when stored as large blocks in saline. Conversely, neither the failure stress nor failure strain changed significantly with respect to postmortem time when stored as large blocks in DMEM. The modulus did not significantly change for tissue stored as large blocks in either fluid. Preliminary results indicated that reducing the tissue storage size had a negative effect on the material properties and cellular architecture. Overall, this study illustrated that the effects of postmortem liver degradation varied with respect to the preservation fluid, storage time, and storage block size.

Keywords: Liver; Bovine; Failure; Tension; Stress; Strain; Postmortem

Year	Entry
2000	Yoganandan N, Pintar FA, Gennarelli TA, Maltese MR. Patterns of abdominal injuries in frontal and side impacts. In: 44th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 2-4, 2000; Chicago, IL.
1998	Lizée E, Song E, Robin S, Lecoz J-Y. Finite element model of the human thorax validated in frontal, oblique and lateral impacts: a tool to evaluate new restraint systems. In: Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact. September 16-18, 1998; Göteberg, Sweden.527-543.
2011	Gayzik FS, Moreno DP, Geer CP, Wuertzer SD, Martin RS, Stitzel JD. Development of a full body CAD dataset for computational modeling: a multi-modality approach. Ann Biomed Eng. October 2011;39(10):2568-2583.
1990	Rouhana SW, Jedrzejczak EA, McCleary JD. Assessing submarining and abdominal injury risk in the Hybrid III family of dummies, II: development of the small female frangible abdomen. In: Proceedings of the 34th Stapp Car Crash Conference. November 4-7, 1990; Orlando, FL. Warrendale, PA: Society of Automotive Engineers:145-173. SAE 902317.
1989	Rouhana SW, Viano DC, Jedrzejczak EA, McCleary JD. Assessing submarining and abdominal injury risk in the Hybrid III family of dummies. In: Proceedings of the 33rd Stapp Car Crash Conference. October 4-6, 1989; Washington, DC. Warrendale, PA: Society of Automotive Engineers:257-279. SAE 892440.
2002	Yeh W-C, Li P-C, Jeng Y-M, Hsu H-C, Kuo P-L, Li M-L, Yang P-M, Lee PH. Elastic modulus measurements of human liver and correlation with pathology. Ultrasound Med Biol. April 2002;28(4):467-474.
2013	Lu Y-C, Untaroiu CD. Effect of storage methods on indentation-based material properties of abdominal organs. Proc Inst Mech Eng Part H-J Eng Med. March 2013;227(3):293-301.
2010	Klinich KD, Flannagan CAC, Nicholson K, Schneider LW, Rupp JD. Factors associated with abdominal injury in frontal, farside, and nearside crashes. Stapp Car Crash J. 2010;54:73-91. SAE 2010-22-0005.
1998	Rangarajan N, Shams T, McDonald J, White R, Oster J, Hjerpe E, Haffner M. Response of Thor in frontal sled testing in different restraint conditions. In: Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact. September 16-18, 1998; Göteberg, Sweden.513-525.
2010	Kemper AR, Santago AC, Stitzel JD, Sparks JL, Duma SM. Biomechanical response of human liver in tensile loading. In: 54th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 17-20, 2010; Las Vegas, NV.15-26.
2001	Rouhana SW, Elhagediab AM, Walbridge A, Hardy WN, Schneider LW. Development of a reusable, rate-sensitive abdomen for the Hybrid III family of dummies. Stapp Car Crash J. 2001;45:33-60. SAE 2001-22-0002.
2009	Santago A, Kemper A, McNally C, Sparks J, Duma S. The effect of temperature on the mechanical properties of bovine liver. In: Biomedical Sciences Instrumentation. Vol 45. 2009:376-381.
2006	Kerdok AE, Ottensmeyer MP, Howe RD. Effects of perfusion on the viscoelastic characteristics of liver. J Biomech. 2006;39(12):2221-2231.
2009	Santago A, Kemper A, McNally C, Sparks J, Duma S. Freezing affects the mechanical properties of bovine liver. In: Biomedical Sciences Instrumentation. Vol 45. 2009:24-29.
2007	Sparks JL, Bolte JH IV, Dupaix RB, Jones KH, Steinberg SM, Herriott RG, Stammen JA, Donnelly BR. Using pressure to predict liver injury risk from blunt impact. Stapp Car Crash J. 2007;51:401-432. SAE 2007-22-0017.
2010	Brunon A, Bruyere-Garnier K, Coret M. Mechanical characterization of liver capsule through uniaxial quasi-static tensile tests until failure. J Biomech. August 10, 2010;43(11):2221-2227.
2006	Lamielle S, Cuny S, Foret-Bruno JY, Petit P, Vezin P, Verriest JP, Guillemot H. Abdominal injury patterns in real frontal crashes: influence of crash conditions, occupant seat and restraint systems. In: 50th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 16-18, 2006; Chicago, IL.109-124.
2002	Stingl J, Bácâ V, Ĉech P, Kovanda J, Kovandová H, Mandys V, Rejmontová J, Sosna B. Morphology and some biomechanical properties of human liver and spleen. Surg Radiol Anat. December 2002;24(5):285-289.
2011	Pervin F, Chen WW, Weerasooriya T. Dynamic compressive response of bovine liver tissues. J Mech Behav Biomed Mater. January 2011;4(1):76-84.
1994	Huang Y, King AI, Cavanaugh JM. Finite element modeling of gross motion of human cadavers in side impact. In: Proceedings of the 38th Stapp Car Crash Conference. October 31–November 2, 1994; Fort Lauderdale, FL. Warrendale, PA: Society of Automotive Engineers:35-53. SAE 942207.
2011	Kemper A, Santago A, Sparks J, Thor C, Gabler HC, Stitzel J, Duma S. Multi-scale biomechanical characterization of human liver and spleen. In: Proceedings of the 22nd International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 13-16, 2011; Washington, DC.

Year

Entry

2000

Yoganandan N, Pintar FA, Gennarelli TA, Maltese MR. Patterns of abdominal injuries in frontal and side impacts. In: 44th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 2-4, 2000; Chicago, IL.

1998

Lizée E, Song E, Robin S, Lecoz J-Y. Finite element model of the human thorax validated in frontal, oblique and lateral impacts: a tool to evaluate new restraint systems. In: Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact. September 16-18, 1998; Göteberg, Sweden.527-543.

2011

Gayzik FS, Moreno DP, Geer CP, Wuertzer SD, Martin RS, Stitzel JD. Development of a full body CAD dataset for computational modeling: a multi-modality approach. Ann Biomed Eng. October 2011;39(10):2568-2583.

1990

Rouhana SW, Jedrzejczak EA, McCleary JD. Assessing submarining and abdominal injury risk in the Hybrid III family of dummies, II: development of the small female frangible abdomen. In: Proceedings of the 34th Stapp Car Crash Conference. November 4-7, 1990; Orlando, FL. Warrendale, PA: Society of Automotive Engineers:145-173. SAE 902317.

1989

Rouhana SW, Viano DC, Jedrzejczak EA, McCleary JD. Assessing submarining and abdominal injury risk in the Hybrid III family of dummies. In: Proceedings of the 33rd Stapp Car Crash Conference. October 4-6, 1989; Washington, DC. Warrendale, PA: Society of Automotive Engineers:257-279. SAE 892440.