1) No tention hernia ring
无张力疝环
1.
Conclusion: No tention hernia ring padding neoplasty is a valuable.
目的:探讨无张力疝环填充式修补术在腹股沟疝手术中的应用价值。
2) PerFix
无张力疝片
1.
The using and analysis of the tensionless PerFix plug in inguinal hernia repair operation;
无张力疝片在腹股沟疝修补术中的应用研究
3) Plug Mesh tension-free herniorrhaph
疝环充填式无张力疝修补术
1.
Objective To discuss the clinical experience of preventing hernia relapse after Plug Mesh tension-free herniorrhaphy.
方法回顾分析416例疝环充填式无张力疝修补术中网塞和网片的固定方法:①网塞严密固定于周围有抗张力的组织或采用M illikan网塞修补。
4) Tension-free hernia repair
无张力疝修补术
1.
Tension-free hernia repair in the emergency hernia operation;
疝环充填式无张力疝修补术在急诊疝术中的应用
2.
Treatment of inguinal hernia in adults with tension-free hernia repair;
无张力疝修补术治疗成人腹股沟疝
3.
Tension-free hernia repair has been carried out in China, has gradually promotion, below our hospital in January 2007 to January 2008 has been carried out by the experience of 56 cases of surgical experience carries on the analysis introduction in this article.
无张力疝修补术在我国开展以来,已逐渐推广,下面将我院2007年1月~2008年1月以来所进行的56例手术的经验体会在本文进行分析介绍。
5) tension-free herniorrhaphy
无张力疝修补术
1.
Use of tension-free herniorrhaphy for incarcerated inguinal hernia in elderly patients;
无张力疝修补术在老年腹股沟嵌顿疝中的应用
2.
Methods From January 2007 to July 2007,Eight cases of different types of hernia were applied with the tension-free herniorrhaphy with acellular dermal matrix patch.
方法2007年1月~2007年7月应用脱细胞真皮基质补片对8例不同类型腹部疝进行无张力疝修补术,术后3天常规查彩超,观察其愈合及修补效果。
3.
Objective To summarize the clinical nursing experience of the tension-free herniorrhaphy.
目的总结疝环充填式无张力疝修补术治疗腹股沟疝的护理经验。
6) Tension free hernioplasty
无张力疝修补术
1.
Objective To summarize the recent therapeutic effects and operating method of tension free hernioplasty.
目的 探讨无张力疝修补术的手术方法和近期疗效。
2.
Surgeons performed tension free hernioplasty by the artificial biomaterials and improved the outcome of theatment.
腹股沟疝是临床常见病 ,传统的张力修补术后复发率较高 ,人工生物材料的出现使得外科医生能够利用无张力修补的方法来完成疝修补 ,并因此改善了治疗结果 ,本文比较了常见的几种人工修补材料的性质和优缺点 ,并且简要介绍了使用这些材料完成的开放式无张力疝修补
补充资料:拜耳张力
分子式:
CAS号:
性质:又称拜耳张力。化合物分子内部,由于键角屈挠(偏离正常键角)所产生的张力。键角的屈挠越大,角张力越大,分子内能越高,结构越不稳定。
CAS号:
性质:又称拜耳张力。化合物分子内部,由于键角屈挠(偏离正常键角)所产生的张力。键角的屈挠越大,角张力越大,分子内能越高,结构越不稳定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条