【摘 要】
:
口腔牙齿与牙槽骨和颌骨的吸收是口腔临床医学中的一个极其重要的问题.骨的修复、改建和形态学发生是一个生理学控制过程,它包括由成骨细胞作用的骨基质的合成和由破骨细胞作
论文部分内容阅读
口腔牙齿与牙槽骨和颌骨的吸收是口腔临床医学中的一个极其重要的问题.骨的修复、改建和形态学发生是一个生理学控制过程,它包括由成骨细胞作用的骨基质的合成和由破骨细胞作用下的骨的协同吸收.破骨细胞(osteoclast)与成骨细胞(osteoblast)是骨组织形成和吸收的关键性生物活性细胞,在骨组织再生与修复方面,也是矛盾与对立的统一体.近十年来,在破骨细胞与骨吸收机理的分子生物学领域研究方面,已有着长足的进展.在此重点讨论骨吸收机理与破骨细胞分子生物学研究的进展.
其他文献
FLUSH+RELOAD attack is recently proposed as a new type of Cache timing attacks.There are three essential factors in this attack,which are monitored instructions
Content-centric networking(CCN) is rising to solve the problems suffered by traditional networks,especially in terms of content delivery.One of the critical iss
With great increase of mobile service in recent years,high quality of experience(QoE) is becoming a comprehensive and major goal for service provider.To unify e
汽车发动机故障诊断通常以故障诊断仪判读故障代码为主要的维修手段,通过读取储存于ECU内各系统之传感器得检测故障码,然而现在大多数汽车并未在油路中装置燃油压力传感器,以
A low-power 14-bit 150MS/s analog-to-digital converter(ADC) is presented for communication applications.Range scaling enables a maximal 2-Vp-p input with a sing
<正>5G is the hottest topic in telecommunication area in recent years.ITU has defined 5G as IMT-2020,and presented the scenarios of IMT-2020.These scenarios for
In the cloud data centers,how to map virtual machines(VMs) on physical machines(PMs) to reduce the energy consumption is becoming one of the major issues,and th
支气管哮喘是由多种细胞(如嗜酸性粒细胞、肥大细胞、T淋巴细胞、中性粒细胞及气道上皮细胞等)和细胞组分参与的气道慢性炎症性疾患,其特征是突发而可逆的气道高反应性.促发
Signal-to-noise ratio(SNR) and channel estimations are critical for 60-GHz communications to track the optimal transmission and reception beam pairs.However,the
Network forensics is a security infrastructure,and becomes the research focus of forensic investigation.However many challenges still exist in conducting networ