Biomechanical Considerations in Total Elbow Development

“…15 However, during the osteointegration period, excessive loading may lead to excessive micromotion, which can disrupt the stroma and lead to delayed bone healing. [17][18][19] Subsidence has been commonly reported as a short-term complication in clinical studies of cementless implants. 15 To overcome complications associated with a lack of stability during the early postoperative period, manufacturers of cementless implants have designed new types of femoral stems with a lateral interlocking bolt to increase primary stability.…”

Ex vivo postimplantation biomechanical properties of a press-fit cementless femoral stem with transfixation pin for canine total hip replacement

“…15 However, during the osteointegration period, excessive loading may lead to excessive micromotion, which can disrupt the stroma and lead to delayed bone healing. [17][18][19] Subsidence has been commonly reported as a short-term complication in clinical studies of cementless implants. 15 To overcome complications associated with a lack of stability during the early postoperative period, manufacturers of cementless implants have designed new types of femoral stems with a lateral interlocking bolt to increase primary stability.…”

Ex vivo postimplantation biomechanical properties of a press-fit cementless femoral stem with transfixation pin for canine total hip replacement