Objective To analyze the curative effect of minimally invasive incision combined with plate fixation for calcaneal fractures.Methods Retrospectively analyzed the clinical data of 30 cases(30 feet) of calcaneal fractures who were treated with minimal incision(sinus tarsi approach combined with posterior lateral incision) from August 2014 to August 2015.Minimally invasive incision combined with plate fixation were performed for the treatment.X-rays were taken in the regular follow-up,B(o)hler and Gissane angle as well as the complications were measured.The final curative effect was comprehensively assessed according to the ankle hind foot score of American Aryhopaedic Foot and Ankle Society(AOFAS).Results All cases were followed up for an average of 14.5 months (from 12 to 16 months), and all fractures healed with no complication such as incision infection or poor healing.The average B(o)hler angle was improved from preoperative(13.42°±4.2°) to (29.3°±3.8°) at the last follow-up with a significant difference(t=-20.424,P=0.000),and the average Gissane angle was significantly improved from preoperative(97.8°±9.7°) to (123.6°±6.5°) at the last follow-up (t=-17.5,P=0.000).The outcomes were evaluated with AOFAS,resulting in an excellent and good rate of 83.3%.Conclusion Treatment of calcaneal fractures with minimal incision has the advantages of less trauma,lower incision complication rate,stronger reduction and fixation,which can achieve satisfactory outcomes.

In order to understand the current development of cell transformation assay (CTA) and its application in the evaluation of cigarette smoke carcinogenesis, the relevant literatures were analyzed and combed from these two aspects. CTA can evaluate the carcinogenicity of various genotoxic and non-genotoxic carcinogens in a short period of time, and has a strong consistency with the results of animal carcinogenic test. After malignant transformation, the cells show changes in cell morphology, immortalization of cells, disappearance of cell-cell contact inhibition, and the ability to form tumors when injected into animals. The identification methods of transformed cells include transformed cell focus count, agglutination test, soft agar culture and inoculation of nude mice, etc. At present, BALB/c 3T3 cells, Bhas 42 cells and SHE cells are the most widely used cells for CTA. Cigarette smoke is a complex aerosol containing a variety of non-genetic carcinogenic chemicals. Cell transformation tests are often used as an in vitro alternative method to evaluate the carcinogenic effects of cigarette smoke, which is different from the short-term genetic toxicity test. It simulates the long-term state of human smoking induced malignant transformation of cells, through the long-term exposure of cells for several decades, which is closer to the occurrence of cancer caused by human smoking. Therefore, CTA can evaluate the carcinogenicity of cigarette smoke and other tobacco products.