Quantifying the force transmission through the pelvic joints during total hip arthroplasty: A pilot cadaveric study

“…This displacement is caused by the bone being supported by the non-rigid soft tissues and body segments of the musculoskeletal system. This boundary condition may influence the force experienced by the acetabulum during implant seating (Bullock et al, 2018;Maharaj and Jamison, 1993). Our paper presents a method to replicate these boundary conditions using a spring and dashpot system.…”

“…For example, the cushioning effect of the trochanteric tissues influence hip fracture risk during a fall, because they attenuate the impact force experienced by the bone (Bouxsein et al, 2007;Laing and Robinovitch, 2010). The relative movement between body segments also influences the peak forcerecent studies have found the force transmission during acetabular impact is different for patients of varying body weights (Bullock et al, 2018).…”

An in vitro model of impaction during hip arthroplasty

“…This displacement is caused by the bone being supported by the non-rigid soft tissues and body segments of the musculoskeletal system. This boundary condition may influence the force experienced by the acetabulum during implant seating (Bullock et al, 2018;Maharaj and Jamison, 1993). Our paper presents a method to replicate these boundary conditions using a spring and dashpot system.…”

“…For example, the cushioning effect of the trochanteric tissues influence hip fracture risk during a fall, because they attenuate the impact force experienced by the bone (Bouxsein et al, 2007;Laing and Robinovitch, 2010). The relative movement between body segments also influences the peak forcerecent studies have found the force transmission during acetabular impact is different for patients of varying body weights (Bullock et al, 2018).…”

An in vitro model of impaction during hip arthroplasty

Optimising surgery using bone quality metrics