CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM

Jonathan Lamb; Oliver Coltart; Isaiah Adekanmbi; Todd Stewart; Hemant Pandit

doi:10.1302/1358-992X.2021.2.019

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CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM

The British Orthopaedic Research Society (BORS) Annual Meeting 2020, held online, 7–8 September 2020.

Jonathan Lamb
Oliver Coltart
Isaiah Adekanmbi
Todd Stewart
Hemant Pandit

CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM

Lamb J, Coltart O, Adekanmbi I, Stewart T, Pandit H. CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM. Orthop Procs. 2021;103-B(SUPP_2):19-19. doi:10.1302/1358-992X.2021.2.019

Lamb, Jonathan, et al. “CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM.” Orthopaedic Proceedings, vol. 103-B, no. SUPP_2, 2021, pp. 19-19., https://doi.org/10.1302/1358-992X.2021.2.019

Lamb, J., Coltart, O., Adekanmbi, I., Stewart, T., & Pandit, H. (2021). CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM. Orthopaedic Proceedings, 103-B(SUPP_2), 19-19. https://doi.org/10.1302/1358-992X.2021.2.019

Lamb, J., Coltart, O., Adekanmbi, I., Stewart, T. and Pandit, H. (2021) “CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM.” Orthopaedic Proceedings, 103-B(SUPP_2), pp. 19-19. Available at: https://doi.org/10.1302/1358-992X.2021.2.019

Lamb, Jonathan, Oliver Coltart, Isaiah Adekanmbi, Todd Stewart, and Hemant Pandit. “CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM.” Orthopaedic Proceedings 103-B, no. SUPP_2 (2021): 19-19. https://doi.org/10.1302/1358-992X.2021.2.019

Lamb J, Coltart O, Adekanmbi I, Stewart T, Pandit H. CALCAR-COLLAR CONTACT INCREASES CONSTRUCT STIFFNESS AND RESISTANCE TO PERIPROSTHETIC FRACTURES OF THE FEMUR IN A COMPOSITE FEMUR MODEL USING A FULLY COATED COLLARED CEMENTLESS STEM. Orthop Procs. 2021 Mar 1;103-B(SUPP_2):19-19. https://doi.org/10.1302/1358-992X.2021.2.019

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Abstract

Objective

To estimate the effect of calcar collar contact on periprosthetic fracture mechanics using a collared fully coated cementless femoral stem.

Methods

Three groups of six composite femurs were implanted with a fully coated collared cementless femoral stem. Neck resection was increased between groups (group 1 = normal, group 2 = 3mm additional, group 3 = 6mm additional), to simulate failure to obtain calcar collar contact. Periprosthetic fractures of the femur were simulated using a previously published technique. Fracture torque and rotational displacement were measured and torsional stiffness and rotational work prior to fracture were estimated. High speed video recording identified if collar to calcar contact (CCC) occurred. Results between trials where calcar contact did and did not occur where compared using Mann-Whitney U tests.

Results

Where CCC occurred versus where no CCC occurred, fracture torque was greater (47.33 [41.03 to 50.45] Nm versus 38.26 [33.70 to 43.60] Nm, p= 0.05), Rotational displacement was less (0.29 [0.27 to 0.39] rad versus 0.37 [0.33 to 0.49] rad, p= 0.07), torsional stiffness was greater (151.38 [123.04 to 160.42] rad. Nm-1 versus 96.86 [84.65 to 112.98] rad.Nm-1, p <0.01) and rotational work was similar (5.88 [4.67, 6.90] J versus 5.31 [4.40, 6.56] J, p= 0.6).

Conclusions

Resistance to fracture and construct stiffness increased when a collared cementless stem made contact with the femoral calcar prior to fracture. These results demonstrate that calcar-collar contact and not a calcar collar per se, is crucial to maximising the protective effect of a medial calcar collar on the risk of post-operative periprosthetic fractures of the femur.