商业文章代写:种植体对咬合力的影响
要了解咬合力的影响,需要了解真实牙齿的自然系统。这些将在下一节中讨论。在天然牙齿的情况下,PDL可以接受和吸收不同的压缩力和拉伸力。这些是通过加载过程中发生在牙齿上的微移来完成的。在这个模式中,根的长度起着重要的作用。根越长,齿内载荷分布越低(15)。这是基于脊骨。在咀嚼过程中发现的感觉调节是在PDL中发现的机械感受器中。颞下颌关节位于肌肉和肌肉组织中,它是根据最大咬合力的限制和根管治疗后牙齿的不适而产生的。这些被发现是适当设计的研究。从这个过程可以得出牙周组织是主要的限制因素。这些在以前的分析和研究中得到了支持。咀嚼功能在种植体的情况下,已解释如下,以了解其作用的过程。
在种植体加载的情况下,静态加载和动态加载之间存在区别。在静载荷的情况下,会产生一个力。为了说明一个例子,假体上层结构的夹板被发现作用于植入物和超越的骨头。由于没有PDL,这些不能作为补偿。动态种植体加载是指通过咀嚼过程暴露种植体的力。根据弹性变形发现,这是传递到超越键。弹性有轻微的挠度。这并不等同于ODL的情况。在这些情况下,载荷分布不均匀。在牙槽突中发现的脊状区域是最大负荷的因素。这显示在有限元分析和光度测量的情况下。在这个模式中,如果沿着种植体轴加载,在顶端区域可以观察到最大的力。负荷在沿种植体的齿槽骨上。加载的程度取决于沿力矢量的入射角。横向力是磨牙症患者运动最多的力。这些与骨顶直接相关。
商业文章代写:种植体对咬合力的影响
To understand the impact of the occlusal force, there is a need to comprehend the natural systems of the real teeth. These have been discussed in the following section. In the cases of natural teeth, the PDL is found to accept and absorb the different compressive and tensile forces. These are done by the means of the microrotation that occurs in the teeth owing to the process of loading. The length of the root in this schema plays an important role. The longer the root, the lower the load distribution in the teeth (15). This is based on the crestal bone. The sensory regulation that is found in the masticatory process is found to be in the mechanoreceptors that are found in the PDL. The temporomandibular joint that is found in the muscles and the muscosa is based on the limitation of the maximum bite force and the discomfort in the endodontic-treated teeth. These are found to be appropriately designed studies. It can be concluded form this process that the periodontal tissue is major limited factors. These have been supported in the previous analysis and studies that have been made. The masticatory functions in the case of implants have been explained in the following to understand its role in the processes.
In the cases of implant loading, there is a distinction that is found to exist between the static and a dynamic load. In the cases of statis load, there is a force that arises. To elucidate with an example, the splinting of the prosthetic superstructures is found to act on the implant and the surmounting bones. These cannot be compensation owing to the lack of a PDL. The dynamic implant loading is the force where the implant is exposed through the process of mastication. This is found to be transmitted to the surmounting bond based on the elastic deformation. The elasticity shows slight deflection. This is not equivalent to the cases of the ODL. The loads are distributed unevenly in these cases. The crestal region that is found in the alveolar process is the factor where there is maximum loading. This is shown in the cases of finite element analyses and in the cases of photometric measurements. In this schema, if loading is found to take place along the implant axis, there can be highest force that is observed in the apical region. The load is found in the crestal bone along the angulated implants. The degree of the loading is dependent on the angle of incidence along the force vector. The Transverse forces are the force that moves the most with the patients who have bruxism. These are related directly to the crestal bone.
