Oral Implant Center, The Hebrew University-Hadassah School of Dental Medicine, Jerusalem, Israel.
Clin Oral Implants Res. 2013 Sep;24(9):1002-8. doi: 10.1111/j.1600-0501.2012.02508.x. Epub 2012 Jun 15.
Although the enhancement of plasma protein adsorption to titanium ( Ti ) following wetting has been recognized, the relationship between wettability and electrostatic forces has remained unclear. Thus, we have carried out a series of studies to determine the role of wettability and electrostatic forces on protein adsorption.
Titanium disks with different surfaces were wetted with a range of solutions, two of which contained divalent positive ions ( Ca and Mg ). Unwetted disks served as a control. Subsequently, the wetted disks were subjected to three treatment regimes: (1) incubation in human serum albumin (HSA) or human serum fibronectin (HSF); (2) drying the wetted disks, followed by incubation in HSA or HSF; and (3) following protein adsorption, the Ca originating in the wetting solutions was removed by divalent positive ions chelator treatment (EGTA), and the remaining quantities were assessed. The quantity of the adsorbed proteins was determined by ELISA.
It was found that in the case of HSA, adsorption was enhanced by the wettability, the presence of Ca and Mg in the wetting solution, and the existence of rough surfaces. For HSF, the wettability and rough surfaces enhanced adsorption.
The results demonstrate that in addition to wettability, the composition of the wetting solution affects the protein adsorption. While wetting reduces the time for the HSA and HSF adsorption to reach saturation, the electrostatic forces enhance the amount of HSA adsorption. Thus, the protein adsorption capacity of titanium rough surfaces can be selectively manipulated by changing of the wetting solution.
尽管润湿后钛(Ti)表面的血浆蛋白吸附增强已得到公认,但润湿性与静电力之间的关系仍不清楚。因此,我们进行了一系列研究,以确定润湿性和静电力在蛋白质吸附中的作用。
用一系列溶液润湿具有不同表面的钛盘,其中两种溶液含有二价正离子(Ca 和 Mg)。未润湿的磁盘作为对照。随后,将润湿的磁盘进行三种处理:(1)在人血清白蛋白(HSA)或人血清纤维连接蛋白(HSF)中孵育;(2)干燥润湿的磁盘,然后在 HSA 或 HSF 中孵育;(3)在蛋白质吸附后,用二价正离子螯合剂(EGTA)去除润湿溶液中产生的 Ca,然后评估剩余量。通过 ELISA 测定吸附的蛋白质量。
发现对于 HSA,润湿性、润湿溶液中 Ca 和 Mg 的存在以及粗糙表面增强了吸附。对于 HSF,润湿性和粗糙表面增强了吸附。
结果表明,除润湿性外,润湿溶液的组成也会影响蛋白质吸附。虽然润湿会缩短 HSA 和 HSF 吸附达到饱和的时间,但静电力会增强 HSA 的吸附量。因此,通过改变润湿溶液,可以有选择性地操纵钛粗糙表面的蛋白质吸附能力。
