ABSTRACT
Objective To evaluate the clinical effect of a novel computer-assisted navigation technique for intraoperative correction of femoral rotation deformity in diaphyseal fractures.Methods From November 2015 to November 2016,a navigation system (BrainLAB,Germany) was used in antegrade intramedullary nailing for 13 patients with femoral shaft fracture to intraoperatively restore the normal length and rotation of the fractured femur.They were 11 men and 2 women,with an average age of 38.2 years.The iujury affected the left side in 5 cases and the right side in 8.According to the Winquist Classification,there were 6 cases of type Ⅰ,3 ones of type Ⅱ,3 ones of type m,and one of type Ⅳ.This navigation system allowed the surgeons to detect and set the femoral anteversion (FAV) and length of the injured leg at the desired angle and length of the healthy contralateral femur,precisely matching the contralateral limb and restoring the normal length and rotation of the fractured femur.All the patients underwent postoperative CT scan of bilateral femora for measurement of the lengths and rotations which were conpared with the intraoperative values obtained with the navigation system.Results Additional operative time required for computerized navigation averaged 42.8 min (from 35 to 55 min).The mean length difference between the treated and untreated femora was 4.2 nnn (from 2 to 9 mm).The FAVs obtained from intraoperative navigation and postoperative CT scan were 34.0° ± 8.4° and 33.5° ± 8.3° in the healthy side and 31.2° ± 8.5° and 32.8° ± 9.0° in the injured side,showing no significant differences either between the 2 sides or between intraoperation and postoperation (P > 0.05).The mean rotational difference between the 2 extremities were 4.8° ± 1.6° for the navigation and 3.8° ± 1.9° for the CT scan,showing an insignificant difference (P > 0.05).All the incisions healed well with no intraoperative or postoperative complications.Conclusions This novel navigation technique may serve as a reliable tool to accurately correct the rotational malalignment of femoral shaft fractures intraoperatively,but care should be taken in every step of the navigation procedure to reduce complications.
ABSTRACT
Objective To elucidate the roles of high mobility group box-1 protein (HMGB1) and myeloperoxidase (MPO) deficiency in evaluating coronary stenosis and the vulnerability of atherosclerotic plaques in patients with coronary heart disease.Methods Totally 50 patients with acute myocardial infarction (AMI),50 patients with unstable angina pectoris (UAP),50 patients with stable angina pectoris (SAP) and 30 patients without coronary heart disease underwent the study.Coronary arteriography (CAG) and intravascular ultrasound (IVUS) were performed to analyze coronary stenosis and plaque characteristics and then gensini score was calculated.Concentrations of HMGB1,MPO and hypersensitive C reactive protein (hsC-RP) were measured by means of enzymelinked-immonosorbent assay (ELISA).Results Concentrations of HMGB1,MPO and hsC-RP were significantly higher in AMI and UAP patients than in SAP paticnts (all P< 0.01).IVUS showed that 51.3 % (20/39) AMI patients,46.7% (43/92) UAP patients had soft lipid-rich plaqucs,while 52.9%(46/87) SAP patients had fibrous plaques,only 17.2%(15/87) had soft plaques.AMI and UAP patients had larger plaque burden and vascular remodeling index than did the SAP patients (both P<0.01).In AMI group,HMGB1 and MPO levels were correlated well with gensini score and remodeling index measured by IVUS,respectively(r=0.54,0.48,allP<0.05),while in UAP group,HMGB1 and MPO levels were correlated well with gensini score and plaque burden measured by IVUS,respectively(r=0.43,0.56,all P<0.05).Conclusions HMGB1 and MPO are positively correlated with coronary stenosis,which can be used to predict the severity of ACS.HMGB1 and MPO are associated closely with plaque vulnerability and rupture.