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General Orthopaedics

MECHANICAL TISSUE PROPERTIES OF THE ILIOPSOAS TENDON: A TENSILE TEST

The International Society for Technology in Arthroplasty (ISTA), 28th Annual Congress, 2015. PART 4.



Abstract

INTRODUCTION

Mechanical tissue properties of some ligaments and tendons have been described in the literature. However, to our knowledge no data exists describing the tensile properties of the Iliopsoas tendon. The iliopsoas complex is in very close proximity to the hip joint running through the psoas notch from the inner side of the pelvis to the lesser trochanter on the posterior aspect of the proximal femur. The tendon muscle complex wraps around the anterior aspect of the femoral head. Hip joint intervention such as total hip arthroplasty (THA) can interfere with iliopsoas function and contact mechanics, and thereby play a major role in the clinically known condition of anterior hip pain. For computer simulations such as finite element analysis (FEA) precise knowledge of soft-tissue mechanical properties is crucial for accurate models and therefore, the goal of this study was to describe the iliopsoas tensile properties using uniaxial testing equipment.

METHODS

Ten iliopsoas tendons were harvested from five specimens (2 male, 3 female; 82.4 yrs ±7.4 yrs) and then carefully cleaned from any fat and muscle tissue. Two freeze clamps were fixed to each end of the tendon sample. The clamps were submerged in liquid nitrogen for 30 seconds to prevent tendon slip and attached to the test frame and load cell via carabiners allowing the tendon to rotate around its long axis. Width, thickness and initial gauge length of each tendon were measured before testing. The test protocol included 10 cycles of preconditioning between 6 N and 60 N at 0.4 mm/s, followed by continuous distraction at 0.4 mm/s until failure. For each tendon the linear stiffness was determined by fitting a straight line to the liner region on the force-displacement curve (Fig. 1).

RESULTS

The average linear stiffness of the ten iliopsoas tendons was measured to be 339 N/mm ±81 N/mm and the average failure load resulted in 2154 N ±418 N (Fig. 2). Average width and thickness were determined to be 13.9 mm ±3.2 mm and 3.8 mm ±0.5 mm respectively. The initial gauge length of the ten tendons revealed an average of 56.5 mm ±10.5 mm.

CONCLUSION

An average stiffness of 339 N/mm and average failure load of 2154 N was found in our experiments. A trend of increased stiffness and reduced failure load with higher age could be observed. Soft-tissue mechanical properties are dependent on tissue geometry such as cross-sectional area and length and therefore can be variable in comparison with other anatomical structures (e.g. patella tendon). To our knowledge no data has been published on the mechanical properties of iliopsoas tendons and therefore results from this research could be used for future simulation models involving the iliopsoas tendon such as FEA analysis to evaluate the effect of anterior hip pain due to soft-tissue impingement.


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