Objective To design a modular two-direction scalpel handle with easy assembly and disassembly to solve the problems of common handle in function singleness,directivity,assembling and disassembling,pick-up and etc.Methods A scalpel handle module involving in a single-groove two-direction tailstock,multifunctional handle and etc was designed according to international standards,which consisted of more than 10 kinds of instruments for orthopedic surgery and etc such as two-direction scalpel handle with easy assembly and disassembly,bent wrench,probe introducer,needle-knife remover and measuring tools.Simulation experiment,clinical trial and control test were carried out to verify the efficacy of the handle module.Results It's proved that the handle module gained advantages in safety,convenience,prevention of sharp instrument injury,decrease of human errors and etc.Conclusion The handle module behaves well in modularity,integration,multifunction,two-direction adaptability,easy assembly and disassembly,safety,storage and carrying,high costperformance ratio and etc,meets the requirements of Joint Commission on Accreditation of Healthcare Organization,and is suitable for military and civilian uses.

BACKGROUND:Hypertrophic differentiation of chondrocytes is the sign of starting endochondral ossification, and it is also an essential step in endochondral ossification, which is a cascade reaction and difficult to be blocked once started. The end result is the formation of bone structure. RNA interference is a post-transcriptional gene silencing. Relevant studies have shown that the use of RNA interference to block the expression of core binding factorα1 (Cbfα1) can effectively inhibit the formation of heterotopic ossification. OBJECTIVE:To use RNA intereference technology to suppress Cbfα1 expression so as to achieve the purpose of blocking the hypertrophic diferentiation of chondrocytes. METHODs: We constructed an adenovirus containing siRNA against Cbfα1 (Ad-Cbfα1-siRNA). Retinoic acid and interleukin-1α were used to induce hypertrophic differetiation of chondrocytes, and then Ad-Cbfα1-siRNA was utilized to inhibit the hypertrophic differentiation of chondrocytes. Immunohistochemistry method was used to analyze the expression of Cbfα1. RESULTS AND CONCLUSION:After induction with retinoic acid and interleukin-1α, the chondrocytes in the negative control virus group appeared to have hypertrophy and the expression of Cbfα1 was positive. In the Ad-Cbα1-siRNA group, the expression of Cbfα1 was negative. These findings suggest that the inhibition of Cbfα1 by RNA interference can be a powerful way to prevent the hypertrophic differentiation of chondrocytes .