Although schizophrenia (SZ) and bipolar disorder (BD) share some clinical features such as psychotic symptoms and cognitive dysfunctions, little is known about possible pathophysiological similarities between both diseases. Therefore, we investigated the potential topographical overlap and segregation of cortical thickness abnormalities in SZ and BD patients. We analyzed 3D-anatomical magnetic resonance imaging datasets with the FreeSurfer 5.1.0 software to examine cortical thickness and volumes in three groups of participants: n=34 BD patients, n=32 SZ patients and n=38 healthy controls. We observed similar bilateral cortical thickness reductions in BD and SZ patients predominantly in the pars opercularis of the inferior frontal gyrus and in the anterior and posterior cingulate. We also found disease-specific cortical reductions in the orbitofrontal cortex for BD patients and in dorsal frontal and temporal areas for SZ. Furthermore, inferior frontal gyrus cortical thinning was associated with deficits in psychomotor speed and executive functioning in SZ patients and with age at onset in both groups. Our findings support the hypothesis that thinning of the frontal cortex may represent a biological feature shared by both disease groups. The associations between cognitive deficits and the reported findings in SZ and to a lesser degree in BD patients add to the functional relevance of our results. However, further studies are needed to corroborate a model of shared pathophysiological disease features across BD and SZ.
Depressive disorders are one of the most common type of mental disorders and are associated with a significant loss of social functioning and decrease in quality of life. While survey data from the Robert Koch-Institute show no increase in the prevalence of depression during recent years, data from social insurance agencies demonstrate an increasing social significance. Many people argue that changes in working conditions are a major reason for increasing depression diagnoses. Aim of the current study was to analyze the prevalence of depression diagnoses in health insurance data (administrative prevalence) for different types of insured persons and to examine the development over time with particular regard to working and non-working insured people. We conducted a cross-sectional analysis of administrative depression prevalence for the years 2006 to 2015 using F32 and F33 diagnoses. Analyses were stratified by sex and insured persons were grouped in (1.) employees, (2.) self-employed, (3.) spouses with insurance coverage as family member, (4.) pensioners, (5.) unemployed people receiving unemployment benefit I, (6.) people receiving unemployment benefit II and (7.) students and trainees. During the 10-year period, we found an increase in administrative prevalence from 12.0% in 2006 (women: 16.3%; men: 6.8%) to 16.3% in 2015 (women: 21.3%; men: 10.9%). In 2015, highest administrative prevalence rates were observed in people receiving unemployment benefit I or II and in pensioners. The lowest rates were found in students and trainees as well as self-employed. Employees had significantly lower administrative prevalence rates than people receiving unemployment benefit. We observed large increases in administrative prevalence over time in all groups of insured persons. The results highlight the increasing social significance of depressive disorders. A comparatively greater increase in the working population was not observed. A long-term health objective should be to further improve psychiatric care.
Improvement of vertebral body fracture reduction utilizing a posterior reduction tool: a single-center experience
Background Extensive research regarding instabilities and prevention of kyphotic malalignment in the thoracolumbar spine exists. Keystones of this treatment are posterior instrumentation and anterior vertebral height restoration. Anterior column reduction via a single-stage procedure seems to be advantageous regarding complication, blood loss, and OR-time. Mechanical elevation of the anterior cortex of the vertebra may prevent the necessity of additional anterior stabilization or vertebral body replacement. The purpose of this study was to examine (1) if increased bony reduction in the anterior vertebral cortex could be achieved by utilization of an additional reduction tool, (2) if postoperative loss of vertebral height could be reduced, and (3) if anterior column reduction is related to clinical outcome. Methods From one level I trauma center, 173 patients underwent posterior stabilization for fractures of the thoracolumbar region between 2015 and 2020. Reduction in the vertebral body was performed via intraoperative lordotic positioning or by utilization of an additional reduction tool (Nforce, Medtronic). The reduction tool was mounted onto the pedicle screws and removed after tightening of the locking screws. To assess bony reduction, the sagittal index (SI) and vertebral kyphosis angle (VKA) were measured on X-rays and CT images at different time points ((1) preoperative, (2) postoperative, (3) ≥ 3 months postoperative). Clinical outcome was assessed utilizing the Ostwestry Disability Index (ODI). Results Bisegmental stabilization of AO/OTA type A3/A4 vertebral fractures was performed in 77 patients. Thereof, reduction was performed in 44 patients (females 34%) via intraoperative positioning alone (control group), whereas 33 patients (females 33%) underwent additional reduction utilizing a mechanical reduction tool (instrumentation group). Mean age was 41 ± 13 years in the instrumentation group (IG) and 52 ± 12 years in the control group (CG) (p < 0.001). No differences in terms of gender and comorbidities were found between the two groups. Preoperatively, the sagittal index (SI) was 0.69 in IG compared to 0.74 in CG (p = 0.039), resulting in a vertebral kyphosis angle (VKA) of 15.0° vs. 11.7° (p = 0.004). Intraoperatively, a significantly greater correction of the kyphotic deformity was achieved in the IG (p < 0.001), resulting in a compensation of the initially more severe kyphotic malalignment. The SI was corrected by 0.20–0.88 postoperatively, resulting in an improvement of the VKA by 8.7°–6.3°. In the CG, the SI could be corrected by 0.12–0.86 and the VKA by 5.1°–6.6°. The amount of correction was influenced by the initial deformity (p < 0.001). Postoperatively, both groups showed a loss of correction, resulting in a gain of 0.08 for the SI and 4.1° in IG and 0.03 and 2.0°, respectively. The best results were observed in younger patients with initially severe kyphotic deformity. Considering various influencing factors, clinical outcome determined by the ODI showed no significant differences between both groups. Conclusion Utilization of the investigated reduction tool during posterior stabilization of vertebral body fractures in a suitable collective of young patients with good bone quality and severe fracture deformity may lead to better reduction in the ventral column of the fractured vertebral body and angle correction. Therefore, additional anterior stabilization or vertebral body replacement may be prevented.
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