Objectives: the aim of this study is to evaluate the therapeutic effectiveness of plasma adsorption with ha microporous resin in patients of severe hepatitis with hepatic encephalopathy.
目的观察HA中性大孔树脂血浆吸附治疗重型肝炎肝性脑病的治疗效果,探讨肝性脑病新的治疗方法。
Technical conditions for adsorption and separation of prothrombin complex concentrates from human plasma with CG-6 macroporous anion-exchange resin were optimized.
优化了CG - 6型大孔阴离子交换树脂从人血浆中吸附和分离凝血酶原复合物的工艺条件。
Conclusion It is demonstrated that resin plasma perfusion adsorption is an effective and safe approach in the treatment of hepatic hyperbilirubinemia.
结论树脂血浆灌流吸附治疗肝病性高胆红素血症是一种安全有效的方法。
Objective To observe the clinical efficacy of resin plasma perfusion adsorption in the treatment of 13 patients with hepatic hyperbilirubinemia.
目的观察树脂血浆灌流吸附治疗13例肝病性高胆红素血症患者的疗效。
After plasma treated, the fabric surface had many small pits and fine cracks which could increase the rate of dye adsorption.
等离子体处理后织物的表面形成许多微小凹坑和微细裂纹,增加染料的吸附率。
In vitro adsorption of plasma protein on five polymer surfaces was studied by electrophoresis. Adhesion of platelet on these polymer surfaces was observed by scanning electron microscopy.
本文通过电泳法研究了五种高分子材料表面对血浆蛋白的吸附,使用扫描电镜观察了材料表面的血小板粘附状况。
TPD of NO and O2 indicate that it is certain the discharge plasma alters some properties of a catalyst such as adsorption, desorption, and induces surface reaction on catalyst.
TPD实验表明等离子体不仅可以脱附吸附在催化剂上的反应物而且能引发吸附物发生表面化学反应。
The PLA-heparin surface showed the improved hydrophilicity, decreased plasma protein adsorption, decreased platelet adhesion and subsequently enhanced blood compatibility and cell compatibility.
pla肝素表面显示出亲水性的改善,降低了血浆蛋白质吸收性,减少了血小板的粘连性,提高了和血液的相容性以及与细胞的相容性。
The effects of the time of adsorption, the amount of adsorbent on the LDL-C adsorption from plasma were investigated.
考察了吸附时间、吸附剂用量对血浆LDL - C吸附效果的影响。
The effects of the time of adsorption, the amount of adsorbent on the LDL-C adsorption from plasma were investigated.
考察了吸附时间、吸附剂用量对血浆LDL - C吸附效果的影响。
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