朱永进
1996~2001 Bachelor in Medical Science Department of Preventative medicine,
Medical school, Lan Zhou Uinversity, Lan Zhou, Gansu, China
2001~2006 M.D and Ph.D, Medical school,Xi'an JiaoTong University, Xian,
Shaanxi, China
2008~ Postdoctoral Fellow Ministry Of Education Key Laboratory of Strength
and Vibration, School of Aerospace, Xi'an Jiaotong University, Xian, Shaanxi,
China
Research Interests:
I. The Dental Biothermomechanical Properties And Neurological Mechanisms
Involved In Toothache Starting from an engineering perspective, we aim to
re-cast the biological behaviour of tooth in engineering systems parlance. Then
by coupling the concepts of engineering with the established methods in
neuroscience, we attempt to establish a holistic mathematical model for
quantifying tooth thermal pain. The model takes into account tooth morphological
plausibility, the biothermomechanical response of tooth, and the biophysical and
neurological mechanisms of pain sensation.
II. The Alteration In
Propriception Patterns From Masster To Trigeminal System Associated With
Malocclusion And Orthodontal Treatment .
III. The Central Mechanisms Involved
In Bruxism.
IV. The Differentiation And Proliferation Of Mesenchymal Stem
Cells Derived From Human Umbilical Cordblood.
V. The Mechanism Involved In
Muscle Atrophy Induced By Simulated Weightlessness Obvious amyotrophy in
intrafusal muscle fibers and extrafusal muscle fibers in soleus muscle of
tail-suspended female SD rats had been observed in the research, and the
alterations of muscle spindles anticipated the changes of extrafusal muscle
fibers. the measure increasing afferent impulse of muscle spindles could prevent
or slow down the development of muscle atrophy, such as high frequency
sinusoidal vibration and traditional Chinese medicine. So we presume that the
initiating agent which leaded to amyotrophy under simulated weightlessness is
the decrease of propriceptive afferent impulse of muscle spindles, which could
influence ?? and ?ímotor neurons in anterior horn of spinalcord and some areas
or nucleus in the brain. The mutual effects from different levels (periphery,
spinalcord and brain) contribute to the muscular atrophy under simulated
weightlessness.
Languages: CET BAND 4 & BAND 6 exam with good marks
Email: zhyjin@mail.xjtu.edu.cn
