Objective To evaluate application of Steinmenn pins to assist reduction in the treatment of unstable intertrochanteric fractures with proximal femoral nail antirotation(PFNA).Methods From February 2010 to June 2013,38 unstable intertrochanteric fractures were treated by us.There were 23 men and 15 women,aged from 32 to 69 years.By Evans-Jensen classification,18 cases were type Ⅲ,13 type Ⅳ and 7 type Ⅴ.They were divided into 2 groups (n =19).Group A received reduction on a traction bed assisted by Steinmenn pins plus PFNA fixation while group B received reduction only on a traction bed plus PFNA fixation.The 2 groups were compared in terms of fracture reduction,operation time,intro-operative blood loss,fracture healing time,and Harris scores one year postoperation.Results According to the evaluation system modified by Baumgaetner et al.,the postoperative quality of fracture reduction was fine in 15 cases and fair in 4 in group A while it was fine in 9 cases,fair in 8 and poor in 2 in group B,showing a significant difference between the 2 groups (P ＜ 0.05).The operation time in group A (50.7 ± 11.9 min) was significantly shorter than in group B (63.4 ± 15.1 min),and the hip joint Harris score (89.4 ±4.4) one year after operation for group A was significantly higher than that for group B (79.6 ±6.4) (P ＜ 0.05).There were no significant differences between the 2 groups regarding intraoperative blood loss,fracture heeling time and follow-up time (P ＞ 0.05).No cases of refracture,delayed union,nonunion,or avascular necrosis of the femoral head were reported.Conclusion In the treatment of unstable intertrochanteric fractures,compared with reduction only on a traction bed plus PFNA fixation,application of Steinmenn pins to assist reduction on a traction bed plus PFNA fixation may lead to better curative efficacy due to its limited invasion,simplicity and beneficial assistance in reduction.

Based on Ag nanoparticles as the surface-enhanced Raman spectroscopy (SERS)-active nanostructure, the SERS of uric acid was presented in the paper. The absorption spectroscopies of uric acid and the mixture of silver colloids and uric acid were measured. The possible enhancing mechanism of the uric acid on silver colloid was speculated. The characteristic SERS bands of uric acid were tentatively assigned. The influence of absorption time and different ion on the SERS of uric acid were also discussed. The SERS spectral intensity changes linearly with the uric acid concentration, which indicated that the SERS might provide a new kind of direct and fast detecting method for the detection of uric acid. The detection limit of uric acid in silver sol is found to be 1 mg/L.
Metal Nanoparticles ; chemistry ; Silver ; chemistry ; Spectrum Analysis, Raman ; methods ; Surface Properties ; Uric Acid ; analysis