Objective To review the latest development of amniotic fluid-derived stem cells (AFSCs) in regenerative medicine, and to discuss issues related to the studies in the field of AFSCs. Methods The recent articles about AFSCs were extensively reviewed. The important knowledge of AFSCs was introduced in the field of regenerative medicine, and the basic and clinical researches of AFSCs were summarized and discussed. Results Currently, it is confirmed that AFSCs have a multi-directional differentiation capacity, therefore, they have a wide application prospect in regenerative medicine, anti-tumor, and other fields. Conclusion AFSCs will become one of the ideal seed cells in the field of regenerative medicine with extensive research value because of the advantages of easy amniotic fluid sampling, little maternal and child trauma, no tumorigenesis, and no ethical restrictions.
Objective To explore an improved method of surgical operation for redintegration of the articular surface and alignment with type III Pilon fractures. Methods Between August 2005 and August 2010, 31 patiens with closed type III Pilon fracture (Rüedi-Allgouml;wer type III) were treated. There were 25 males and 6 females, aged 36.8 years on average (range, 16-60 years). The injury was caused by falling from height in 18 patients, by traffic accident in 10 patients, and by other reasons in 3 patients. The average time between injury and operation was 10 days (range, 6-14 days). Temporary external fixation was used for adjustment and maintenance of limb length and power lines; application of fibular flip combined with anteromedial approach was used for the repair of articular surface; and bone grafting and fixation were performed. Results No extensive necrosis or deep infection were observed. Superficial skin infection of incision and wound edge necrosis occurred in 2 cases respectively, and were cured after dressing change. All patients were followed up 26 months on average (range, 9-79 months). According to the Burwell et al. judging standards of radiology evaluating, the anatomical reduction was found in 25 cases (80.6%), satisfactory reduction in 4 cases (12.9%), and unsatisfactory reduction in 2 cases (6.5%). The X-ray films showed bony healing was achieved in all cases with an average fracture healing time of 16 weeks (range, 12-25 weeks). According to the Mazur et al. criterion for ankle joint function, excellent result was obtained in 11 cases, good in 13, fair in 5, and poor in 2; the excellent and good rate was 77.4%. Conclusion Good exposure and fixation of articular surface or accurate adjustments and maintenance of the limb alignment are key factors of successful operation to treat type III Pilon fractures.
Expression conditions of induction strategies for the cytoplasmic inclusion bodies (IBs) production of liver targeted interferon IFN-CSP by recombinant Escherichia coli (E.coli) BL21(DE3) were optimized in shake-flask cultures in this study. The factors of the optimized protocol included in the present study were pH, inducer IPTG (isopropyl β-D-thiogalactoside) concentration, culture growth temperature, incubation time and induction point. The effects of those factors were investigated by ‘single variable at a time’ method, aimed to analyze characterization of the recombinant strain. Orthogonal experimental design was further used to optimize the above critical factors for IFN-CSP production. According to the expression optimization result, it was confirmed that the main influence factors were cell density and induction temperature. The IFN-CSP gene expression optimized conditions were:pH value of the culture medium was 6.0, culture temperature 37℃, adding IPTG to final concentration 0.4 mmol/L when the recombinant strain growth density OD600 achieved 0.8 and induction time 4 h. At this point, the IBs represented 74.3% of the total cellular protein. Compared with the non-optimized condition, IFN-CSP production obtained in optimized induction strategies were increased by approx. 1.2-fold. The optimized induction strategy yielded 688.8 mg/L of IFN-CSP, providing experimental data to study the biology activity and productive technology of IFN-CSP.
ObjectiveTo investigate the effectiveness of open reduction and internal fixation with locking anatomical plate for treating valgus impacted proximal humerus fracture. MethodsA retrospective analysis was made on the clinical data of 38 patients with valgus impacted proximal humerus fracture who underwent open reduction and internal fixation with locking anatomical plate between January 2009 and January 2014. There were 25 males and 13 females, aged from 47 to 63 years (mean, 52.3 years); the left and the right sides were involved in 18 and 20 cases, respectively. The causes of fracture included high falling injury in 10 cases, traffic accident injury in 15 cases, and falling injury in 13 cases. The time between injury and operation was 5-10 days (mean, 7.5 days). The collodiaphyseal angle was 160-200° (mean, 176°) on X-ray films. ResultsAll incisions healed by first intention, and there was no early complication related to operation. All these patients were followed up 12-30 months (mean, 18 months). X-ray film showed that clinical healing time of fracture was 10-16 weeks after operation (mean, 12 weeks); at 12 months after operation, the collodiaphyseal angle recovered to 120-145° (mean, 135°). During follow-up, no loss of fracture reduction and no loosening of internal fixation were observed. At 10-12 months, osteonecrosis of the humeral head occurred in 3 cases (7.9%), including 2 cases of Cruess stageⅢand 1 case of Cruess stageⅣ. At last follow-up, the Constant shoulder joint scores were 56-95 (mean, 82.6); the results were excellent in 10 cases, good in 15 cases, fair in 9 cases, and poor in 4 cases, with an excellent and good rate of 66%. Visual analogue scale (VAS) scores were 0-6 (mean, 0.9). ConclusionIt can achieve a comparatively satisfactory clinical result to use open reduction and internal fixation with locking anatomical plate for treating valgus impacted proximal humerus fracture.
Amyloid β-protein (Aβ) deposition is an important prevention and treatment target for Alzheimer’s disease (AD), and early detection of Aβ deposition in the brain is the key to early diagnosis of AD. Magnetic resonance imaging (MRI) is the perfect imaging technology for the clinical diagnosis of AD, but it cannot display the plaque deposition directly. In this paper, based on two feature selection modes-filter and wrapper, chain-like agent genetic algorithm (CAGA), principal component analysis (PCA), support vector machine (SVM) and random forest (RF), we designed six kinds of feature learning classification algorithms to detect the information (distribution) of Aβ deposition through magnetic resonance image pixels selection. Firstly, we segmented the brain region from brain MR images. Secondly, we extracted the pixels in the segmented brain region as a feature vector (features) according to rows. Thirdly, we conducted feature learning on the extracted features, and obtained the final optimal feature subset by voting mechanism. Finally, using the final optimal selected features, we could find and mark the corresponding pixels on the MR images to show the information about Aβ plaque deposition by elastic mapping. According to the experimental results, the proposed pixel features learning methods in this paper could extract and reflect Aβ plaque deposition, and the best classification accuracy could be as high as 80%, thereby showing the effectiveness of the methods. The proposed methods can precisely detect the information of the Aβ plaque deposition, thereby being helpful for improving classification accuracy of diagnosis of AD.