RESPONSE OF BONE ON STATIONARY LOAD FROM THE INPLANT

Masaki Nakao, K. Uchida, R. Sakai, Kouji Naruse, M. Takaso, K. Mabuchi
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Abstract

Background Residual stress remains in bone tissues after press-fit-fixation of a joint prosthesis, recently employed for joint arthroplasty. The response of bone tissues to the residual stress is, however, unknown because it is not physiological. This unnatural stimulus may have adverse effects on bone tissues, including causing thigh pain or bone resorption. In the present study, we designed an experimental method to apply a stationary load from inside an animal femur using a loop spring of titanium alloy with super elasticity. The femoral response was assessed based on the migration of the wire into bone twelve weeks after implantation. As the results, wire migration was noted in 10 of 11 cases. Methods We developed a method using a loop spring made of super elastic titanium alloy, which can maintain sufficient stress in a rat femur for a prolonged period. This titanium alloy, which contains 43.94% titanium and 56.06% nickel, was supplied as a wire (WDL1, Actment Co., Ltd., Kasukabe, Japan). In the present study, an experimental method was designed to apply a stationary load from inside a rat femur by inserting a loop spring made of super elastic wire. Results Ten weeks after implantation, migration of the spring wire into the cortical bone was noted in 10 of 11 cases. To assess spring migration in cortical bone, we measured the distance from the endocortical surface to the tip of springs on micro-CT images. The line of the endocortical surface was extrapolated from the adjacent to the wire contact area. The estimated load was distributed from 1.19 to 3.28 N. The migration depth on anterior and posterior sides was not associated with the estimated load. Discussion In the present study, we developed a method of generating a stationary stress field in a rat femur using a loop spring made from Ni-Ti alloy with super ermore, implantation of the pin was presumed to be able to interpretation by the thelasticity. The load that originated from elastic deformation was large enough to apply mechanical stimulation to bone tissue. The estimated load was distributed from 1.19 to 3.28 N. Migration of the implanted loop spring in the femur was observed in ten of the eleven. The migration depth apparently did not increase with the increase in estimated load. Therefore, regardless of the load, that is stationary load is applied has been suggested to be involved in the migration of the pin. Furtheory of bone remodeling. n a state where the pin load of is applied, the bone implanted pin to which was destroyed by osteoclasts, was presumed to occur is bone formation in the implanted state. Interpretation The present findings suggest that an excessive stationary load at the implant surface induces endosteal bone resorption together with the migration or protrusion of a prosthesis.
骨对植体固定载荷的响应
背景:最近用于关节置换术的关节假体加压固定后,骨组织中仍存在残余应力。然而,骨组织对残余应力的反应是未知的,因为它不是生理的。这种非自然的刺激可能对骨组织产生不良影响,包括引起大腿疼痛或骨吸收。在本研究中,我们设计了一种实验方法,使用具有超弹性的钛合金环形弹簧从动物股骨内部施加固定载荷。根据植入12周后金属丝向骨内的迁移情况评估股骨反应。结果显示,11例中有10例出现了钢丝迁移。方法采用超弹性钛合金制成的环形弹簧,在大鼠股骨内长时间保持足够的应力。这种钛合金含有43.94%的钛和56.06%的镍,作为线材供应(WDL1, acment Co., Ltd, Kasukabe, Japan)。在本研究中,设计了一种实验方法,通过插入由超弹性丝制成的环形弹簧,从大鼠股骨内部施加固定载荷。结果植入10周后,11例患者中有10例出现弹簧丝向皮质骨内迁移。为了评估弹簧在皮质骨中的迁移,我们测量了显微ct图像上从皮质内表面到弹簧尖端的距离。皮层内表面的线由相邻的线接触区域外推。预估载荷分布在1.19 ~ 3.28 n之间,前后两侧的迁移深度与预估载荷无关。在本研究中,我们开发了一种在大鼠股骨中产生固定应力场的方法,该方法使用由Ni-Ti合金制成的环形弹簧,具有超强的弹性,假设针的植入可以通过弹性来解释。由弹性变形产生的载荷大到足以对骨组织施加机械刺激。估计载荷分布在1.19到3.28 n之间,11例中有10例观察到植入的环形弹簧在股骨内的迁移。迁移深度明显不随估计荷载的增加而增加。因此,无论载荷是什么,即施加的固定载荷都被认为涉及到销钉的迁移。骨重塑的进一步理论。在植入状态下,在施加针载荷的状态下,被破骨细胞破坏的骨植入针被认为是在植入状态下形成的骨。目前的研究结果表明,种植体表面过度的固定负荷会诱导骨内吸收,同时假体也会发生迁移或突出。
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