The diagnosis of schizophrenia usually relies on the assessment of clinical symptoms,and the search for objective biomarkers is particularly important for the diagnosis and treatment of the disease.Since the retina can reflect the state of the central nervous system,more and more studies are focusing on retina-specific alterations in neuropsychiatric disorders.This review summarizes recent studies on the retinal nerve layer,vascular characteristics,and electrophysiological features in patients with schizophrenia,showing that patients with schizophrenia often have thinner retinal ganglion cell-inner plexiform layer and retinal nerve fiber layer.The changes in the retinal layers vary in different stages of schizophrenia.Studies of the fundus vasculature in schizophrenic patients have also suggested the presence of altered retinal vascular density and microvascular morphology in schizophrenic patients.Studies of electroretinography suggest that patients in the acute phase of schizophrenia tend to exhibit reduced a-wave amplitudes of cone cells,while those at genetic high risk often show a tendency for reduced b-wave amplitudes of rod cells.However,the current retina-related studies in schizophrenia mostly focus on clinical manifestations,with fewer studies on related mechanisms and inconsistent findings.This review attempts to discuss a variety of potential pathophysiological mechanisms,including trans-synaptic retrograde degeneration hypothesis,neurotransmitter disturbance,genetics,brain structural changes,and metabolism,in the context of the retinal nerve layer,microcirculation,and electrophysiology alterations,in order to provide new insights into the pathophysiological mechanisms and objective biomarkers of schizophrenia.

The diagnosis of schizophrenia usually relies on the assessment of clinical symptoms,and the search for objective biomarkers is particularly important for the diagnosis and treatment of the disease.Since the retina can reflect the state of the central nervous system,more and more studies are focusing on retina-specific alterations in neuropsychiatric disorders.This review summarizes recent studies on the retinal nerve layer,vascular characteristics,and electrophysiological features in patients with schizophrenia,showing that patients with schizophrenia often have thinner retinal ganglion cell-inner plexiform layer and retinal nerve fiber layer.The changes in the retinal layers vary in different stages of schizophrenia.Studies of the fundus vasculature in schizophrenic patients have also suggested the presence of altered retinal vascular density and microvascular morphology in schizophrenic patients.Studies of electroretinography suggest that patients in the acute phase of schizophrenia tend to exhibit reduced a-wave amplitudes of cone cells,while those at genetic high risk often show a tendency for reduced b-wave amplitudes of rod cells.However,the current retina-related studies in schizophrenia mostly focus on clinical manifestations,with fewer studies on related mechanisms and inconsistent findings.This review attempts to discuss a variety of potential pathophysiological mechanisms,including trans-synaptic retrograde degeneration hypothesis,neurotransmitter disturbance,genetics,brain structural changes,and metabolism,in the context of the retinal nerve layer,microcirculation,and electrophysiology alterations,in order to provide new insights into the pathophysiological mechanisms and objective biomarkers of schizophrenia.

Objective:To investigate the impact of peak pressure upon different bone densities during autonomous puncture by orthopedic robot on puncture path deviation and bone cement leakage.Methods:A spinal surgery robot system was designed for autonomous vertebral puncture and bone cement injection, and six porcine spine specimens were used for single-segment or double-segment simulated percutaneous vertebral augmentation surgery. The accuracy of puncture path (Gertzbein-Robbins grading), bone cement leakage classification, and peak bone drill pressure were measured to assess the accuracy of autonomous vertebral puncture and bone cement leakage in vertebral cortical and cancellous bone of different densities.Results:A total of 64 porcine vertebrae were simulated for puncture, among which 53 vertebrae were classified as Grade A, 8 as Grade B, and 3 as Grade C according to the Gertzbein-Robbins grading. The cortical bone pressure of Grade A vertebrae was 6.663±0.319 N which was lower than that of Grade B (8.348±0.418 N) and Grade C (11.500±0.600 N), with significant differences ( F=341.000, P<0.001). The cancellous bone pressure of Grade A, B, and C vertebrae were 3.660±0.317, 3.594±0.608, and 4.117±0.257 N, respectively, with no significant difference ( F=2.496, P=0.091). There were 40 cases of no leakage, 20 cases of Type I leakage (leakage into the surrounding vertebrae), and 3 cases of Type II leakage (leakage into the vertebral canal), with an overall leakage rate of 36% (23/64). The peak cortical bone pressure for no leakage, Type I, and Type II leakage was 6.638±0.301, 6.792±0.404, and 6.753±0.473 N, respectively, and the peak cancellous bone pressure was 3.634±0.279, 3.783±0.423, and 3.920±0.255 N, respectively, with no significant difference ( F=1.521, P=0.227; F=2.106, P=0.131). Conclusion:During the autonomous puncture process of the novel orthopedic robot, the accuracy of autonomous puncture path decreased when the puncture pressure through the cortical bone was high, and the probability of invading the pedicle increased. The puncture pressure of cortical and cancellous bone had no significant effect on the occurrence rate of bone cement leakage.

Objective:To recognize the overall situation of the core competency of medical professional postgraduate, analyze the advantages and disadvantages of the training process, and provide basis for better optimization and revision of training objectives and training plans.Methods:An anonymous online questionnaire was conducted among 264 postgraduates majoring in clinical medicine to recognize the cognition and self-evaluation of core competence, and analyze the differences in scores of different grades and types. SPSS 23.0 was used for independent-samples t test; and one-way analysis of variance to analyze categorical variables. Results:The doctoral degree students' core competency results were higher than those of master degree students, and those of the senior students were higher than junior students ( P<0.05). "System Improvement Ability" [master degree students (2.94±1.07), first-year students (2.82±0.97)], "Patient Management" [(first-year students (2.77±1.22)], "Academic Research" [first-year students (2.90±1.03)], and 4 other indicators were the weakness of students (all less than 3 scores). Conclusion:The students have a good sense of professional identity for doctors. The different depth of the clinical practice education is the possible cause which brings about the differences among students with different degrees. We should focus on strengthening the training for the "shortcomings" in the core competence of students.

ObjectiveTo investigate the clinical effects of minimally invasive incision in anterior traverse approach for Gartland type Ⅲ humeral supracondylar fractures in children.Methods Forty-two patients with Gartland type Ⅲ displaced supracondylar fractures of the humerus were treated through anterior traverse approach between January 2008 and April 2011.The fractures were fixed using two Kirschner wires from the medial and lateral epicondyles placed crossing each other.There were 31 males and 11 females,at age of 2.6-12 years (average 5.7 years).Three patients were with open fractures.Seven patients were combined with other fractures,four with radial nerve injury and one with median nerve injury,with time from injury to hospitalization for a range of 1 hour to 3 days.Of all the patients,30 patients were with fractures on the right side and 12 with fractures on the left side.All fractures were treated by minimally invasive incision in anterior traverse approach,when the neurovascular and muscular probing and repair were performed. Results Forty patients were followed up for 3-32 months ( average 13 months),which showed incision healing at one stage,with fracture healing time for 3-4 weeks (average 3.6 weeks).No cubitus varus or incision scar were found after operation.According to Flynn' s criteria,the effect of treatment three months after operation were excellent in 32 patients,good in four and fair in four,with excellence rate of 90％.ConclusionsThe minimally invasive incision of anterior traverse approach is characterized by minor trauma,small incision,nil scar and convenient neurovascular and muscular exploration and hence is a safe and reliable treatment for open reduction of Gartland type Ⅲ humeral supracondylar fractures in children.

Objective To investigate the effect of intramedullary stabilization of lower limb fractures with titanium elastic nails (TENs) in children.Methods From June 2004 to October 2010,278 children were stabilized with TENs in our hospital,including 181 boys and 97 girlsat average age of 7.6 years (range,3.0-14 years).There were 162 patients with femoral fractures,of which 35 underwent open reduction and the rest closed reduction.There were 116 patients with tibial fractures,which was treated with closed reduction.Postoperative fixation lasted for 3-4 weeks.The mean hospital stay was seven days.Of all the patients,272 patients received the removal of the TENs six months after operation and 242 received more than one year of follow-up to have a further observation on the limb length,hip and knee mobility and gait condition in children.Results All the patients were followed up for 6-66 months (mean,33 months).All fractures were healed in good alignment without severe complications.There were no intraoperative complications like infections,delayed union,nonunion,TEN broken and femoral or tibial epiphysis injuries.Ten patients suffered from swell and skin irritation in the nail' s position 3-4 months after operation,and the nails were removed in advance.Nineteen patients showed unequal lengths ( within 1 cm) of the lower limbs,with normal function of the lower limb joint but with no obvious limp.According to the Flynn evaluation standard,the excellent and good rate was 100％.Conclusions Characterized by good stability,rapid healing,small incision,anatomic reduction,unimpaired periosteum,short hospital stay and few complications,intramedullary stabilization with titanium elastic nails can achieve effective fixation in the treatment of lower limb fractures in children.