并讨论了皮肤的主要力学性质,对皮肤力学在医学临床上的应用作了简介。
The mechanical models and the main mechanical properties are discussed. Finally, the application of skin mechanics to clinical practice is briefly reviewed.
在上述研究基础之上,本项研究还拓展了肾脏微循环的研究,进一步开展了皮肤微循环和血管血流循环的生物力学机理研究。
Based on the above studies, we extended our work on microcirculation in the renal medulla to microcirculatory transport in the skin and haemodynamics in arteries.
描述了霍恩·斯泰因研究院开发的一种两阶段检测系统——检测纺织品力学刺激的新颖皮肤测试法。
The two stage detection system-new skin test for testing mechanical irritations though textiles developed by Hohenstein Institutes is described.
这种新方法填补了由力学刺激引起的皮肤刺激领域的空白,进一步回答了纺织品与皮肤之间相容性的问题。
The new test method fills the gap in the area of skin irritations due to mechanical textile influence and lays a further building block towards answering the question of textile skin compatibility.
用改良的扩散装置评价了盐酸尼卡地平(1)通过脱毛大鼠皮肤的渗透动力学以及促渗剂月桂氮酮(2)的作用。
The in vitro permeation kinetics of nicardipine hydrochloride (1) through the depilatory rat skin and the effect of laurocapram (2) using a modified diffusion cell were evaluated.
这种新技术以光力学治疗方法(PDT)为基础,也就是将强光与药膏联合运用于皮肤的方法。
The new technology builds upon an existing method called photodynamic therapy treatment (PDT), which involves intense light combined with a pharmaceutical cream applied to the skin.
目的检验关于胶原蛋白是皮肤黏弹性主要决定因素的假设,重点考察皮肤组织在动态载荷下的热力学性能。
Objective to test the hypothesis that collagen is a significant determinant of skin viscoelasticity, with particular attention paid to the thermomechanical properties of skin under dynamic loading.
ALA联合小剂量hpd的光动力学疗法对于诊断和治疗皮肤恶性肿瘤有较佳的疗效。
ALA and small dosage of HPD-PDT has some advantages in the diagnosis and treatment of skin cancer.
结果膜剂中氨茶碱以零级动力学透过皮肤。
RESULTS The permeation of aminophylline through rat skin followed zero-order kinetic.
采用动态热力学分析仪表征了温度和皮肤胶原质损伤对皮肤黏弹性特性的影响。
The dynamic mechanical analyzer (DMA) was employed to evaluate the changes in skin viscoelastic properties as a function of temperature and collagen damage.
采用动态热力学分析仪表征了温度和皮肤胶原质损伤对皮肤黏弹性特性的影响。
The dynamic mechanical analyzer (DMA) was employed to evaluate the changes in skin viscoelastic properties as a function of temperature and collagen damage.
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