610 Medizin und Gesundheit
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An already existing shortage of nurses was exacerbated by the COVID-19 pandemic. Inactive (former) nurses were regarded as a so-called silent reserve and were called upon by various agencies to volunteer for nursing. The question arose as to what factors might encourage or hinder such volunteering and facilitate deployment.
First, inactive nurses were asked via an online survey whether they had registered for deployment or not and what the reasons were for this decision. Further information on professional background was collected, including the reason for having left the profession in the first place. Based on the results of the online survey, focus group discussions were conducted with registered and unregistered inactive nurses, with nurses who had returned to the profession permanently, and with care home managers.
Only one third of the participants in the online survey said they had registered for a temporary assignment during the pandemic. The main reasons for registering were that inactive nurses ‘wanted to do their bit’ to manage the crisis, felt it was their duty and/or felt a sense of belonging to the nursing profession. The main reasons given for not having registered was that respondents ‘could not see a reason at the moment’, had health concerns, and ‘other relevant job commitments’. The majority of respondents still had jobs related to health, care or nursing.
The topics covered in the focus group discussions included the following: perception of the pandemic as a crisis, identity as a nurse and sense of professional commitment, role of current occupation in the decision to register, winning over inactive nurses with a very negative attitude towards returning to care during a crisis situation, support measures and offers regarding a deployment in nursing.
Both in the online survey and in the focus group discussions, a sense of belonging to the nursing profession was evident among many participants. However, this identity does not necessarily lead to a willingness to return to nursing during a crisis situation. Weighing up the risk of deployment against the positive or negative experiences gained during the active period can influence willingness. However, the possibility of taking a break from current work and returning to nursing at short notice is not always given. Many inactive nurses continue to work in the health sector and fulfil equally important tasks during a crisis situation which render them unavailable for deployment.
Different kinds of support for those willing to return to nursing during a crisis situation and communication on conditions of deployments need to be implemented and continuously improved to offer the inactive nurses the greatest possible security and to enable a largely unbureaucratic deployment.
Materials and Methods:
Literature search was conducted using electronic MEDLINE/ Cochrane databases, relevant references, citations and hand search was conducted. Academic Colleges were contacted to identify relevant studies and full texts. Inclusion Criteria were Randomized clinical trials, human cohort and case series reporting increasing vertical dimension and restoring worn dentition in adults suffering from tooth wear using fixed, minimal invasive and adhesive techniques.
The search period spanned from 2000 up to January 2023. Of the 550 articles identified, 111 went throw full text screening for eligibility and 12 studies were included in our study.
Failure, follow-up period for all the studies were assessed. Attrition , Bruxism, increase of vertical dimension rates and mean time of failure were calculated using random effect models.
Results:
Tooth wear was reported equally in anterior and posterior region, and restorations were done in direct and indirect manners, mostly with pre-evaluation of the needed increase of vertical dimension. The mean of increased vertical dimension was 2.3 mm. The mean observation time of the restorations was 41.3 months with a minimum observation period of 12 months and a maximum of 84 months. Failure rate of all the included studies was 9.9% (95% CI: 91.00 % to 95.80%) high heterogeneity was detected in Failure rate with I2 of (93.85). Time to fail was calculated to be 37.5 months for 2458 cases (95% CI:32.32 to 91.13%). A fixed effect model was performed to calculate the event of increasing vertical dimension , the event rate was 81.72% (95% CI: 0.00 to 88.10%).
Conclusion:
The performance of direct and indirect restorations is satisfactory, and the failure rate is low, which leads us to conclude that these non-invasive restorations are a reliable and cost-effective middle-term treatment method to restore vertical dimension in moderate to severe worn dentition.
Conflict of interest: None
With high prevalence and mortality, myocardial infarction constitutes a social and economic burden in Germany and worldwide. Current guidelines for MI treatment require prompt reperfusion to salvage heart tissue and minimize short- and long-term complications. However, there are currently no treatments available to attenuate reperfusion injury. Ischemic as well as pharmacological post-conditioning have been identified as important clinical strategies to improve outcome. Membrane stabilizers, like Poloxamer 188 (P188), have been shown to improve myocardial ischemia reperfusion (IR) injury and mitochondrial function but have not yet been proven to directly offer mitochondrial protection. Mitochondrial function is crucial for cardiomyocyte function, and mitochondrial dysfunction plays an important role in myocardial injury.
In this study, hearts from 79 Sprague Dawley rats were isolated and perfused ex-vivo with oxygenated Krebs Buffer for 20 min before 30 min of no-flow ischemia. Hearts were reperfused for 10 min with Krebs buffer or 1 mM P188. Cardiac mitochondria were isolated with 1 mM P188 vs 1 mM polyethylene glycol (PEG) vs vehicle by differential centrifugation. Mitochondrial function was assessed as adenosine triphosphate (ATP) synthesis, oxygen consumption and calcium retention for complex I and II substrates of the respiratory chain.
An improvement of myocardial function with 10 min P188 post-conditioning could not be shown. Direct mitochondrial protection of P188 or PEG could not be observed in this model either. Further research is needed to ascertain whether P188 has a direct protective effect on mitochondria and, if so, on what pathways of IR injury it acts.
Our study examined whether potentially critical indications from depression questionnaires, interviews, and single items on suicidal ideation among partici-pants in a large prospective population-based study are related to short-term sui-cides within one year. For this purpose, we studied the association between (a) the severity of depressive symptoms according to the M-CIDI and the PHQ-9, BDI-II, and CID-S depression screening and (b) elevated scores on single sui-cidal ideation items and mortality according to claims databases.
In the baseline cohort, the frequency of depressive symptoms measured by CID-S was 12.90% (SHIP-START-0). The frequency for “Moderate” to “Severe de-pression” measured by the PHQ-9 (≥ 10 points) and BDI-II (≥ 20 points) ques-tionnaires ranged from 5.40% (SHIP-LEGENDE) to 8.80% (SHIP-TREND Morbid-ity follow-up). The 1-month prevalence of unipolar depression, measured by the M-CIDI in SHIP LEGENDE, was 2.31%.
Between 5.90% (SHIP-TREND Morbidity follow-up) and 6.60% (SHIP-LEGENDE) of respondents showed a certain degree of suicidal ideation in the two weeks preceding the assessment, according to BDI-II and PHQ-9.
Our results show the high frequency of depressive symptoms in the study region, with women being affected more frequently than men, especially in the higher categories. Furthermore, women were more frequently affected by suicidal idea-tion, although this difference was not evident in the highest categories.
There was one potential suicide in the year after a SHIP examination.
From our results, we cannot conclude that severe self-reported symptoms from depression questionnaires should be reported back to participants of an obser-vational population-based study to prevent suicide deaths within one year.
The maintenance of protein homeostasis in muscle by degradation systems, e.g. the autophagy lysosomal pathway (ALP) and the ubiquitin-proteasome system (UPS), is of great importance. It prevents the accumulation of nonfunctioning and not properly folded proteins, which can lead to protein aggregate myopathies (PAMs) and several other protein storage diseases. Degradation by the UPS depends on the transfer of ubiquitin to a target protein. This happens in a cascade of E1-E2-E3 proteins. This process is also involved in protein location and regulation of protein activity. E3 ligases are often tissue specific. Muscle RING-finger proteins (MuRFs) are a family of really interesting new gene (RING)-Finger E3 ubiquitin ligases, that are almost exclusively expressed in the striated muscle. They play a role in muscle wasting, but are also important for the maintenance of the structure of striated muscle. MuRF proteins are also involved in the regulation of the striated muscle energy metabolism. Previous work has demonstrated that MuRF1/MuRF3 DKO mice show a protein surplus myopathy characterized by an accumulation of myosin heavy chain proteins in striated muscles and a reduction in function of both heart and skeletal muscle. The aim of this study was to test the hypothesis that the myopathic phenotype of MuRF1/MuRF3 DKO mice is mediated by a disturbed energy homeostasis in the heart and skeletal muscle, with focus on mitochondrial function. Because sex-specific differences have not been investigated in these mice so far, a further aim was to investigate any differences between male and female mice.
To test these hypotheses, we measured the weight of the heart and the hindlimb muscles tibialis anterior and soleus to detect a possible hypertrophy in the DKO mice. Hematoxylin and eosin staining of histological cross sections of the tibialis anterior were performed to investigate protein accumulations. Muscle function was quantitated via grip strength and specific force measurements. Possible changes in protein amounts were detected via mass spectrometry analyses and western blot analyses. Changes in gene expression were investigated by qRT-PCR. Coimmunoprecipitation was used to determine direct interactions between proteins. Protein stability and ubiquitination were investigated by cycloheximide (CHX) and ubiquitination assays, respectively.
DKO mice showed an increase in heart and skeletal muscle weights. Grip strength assays revealed limb weakness of DKO mice. H&E staining of histological cross sections of the tibialis anterior muscle (TA) showed protein aggregates within myofibers. Mass spectrometry analyses of proteins isolated from TA and heart muscle revealed an increase of muscle stress markers and structural proteins in DKO mice, while proteins involved in the energy metabolism were reduced. Especially interesting here were the proteins of the mitochondrial electron transport chain (ETC), which play a major role in the energy production of the mitochondria by catalyzing the phosphorylation of ADP to ATP, the universal energy carrier in all living organisms. These changes were more pronounced in TA compared to heart. Western blot and qRT-PCR results of ETC subunits supported our proteome data. They also revealed a sex-specific difference, in which the reduction ETC subunits was more pronounced in females than males. In female
TA NDUFB8, SDHB, UQCRC2, MTCO1 and ATP5 were significantly reduced compared to controls, while only UQCRC2 and ATP5 were decreased in male TA compared to controls. A significant reduction in gene expression of Ndufb8, Sdhb, Mtco1 and Atp5 was detected in TA of female mice compared to controls, while only Ndufb8, Sdhb and Atp5 were decreased in male TA compared to controls. We observed the same pattern in Heart of male (protein: NDUFB8; mRNA: Mtco1) and female (protein: UQCRC2, MTCO1, ATP5; mRNA: Sdhb, Mtco1) DKO mice compared to their controls. The reduction in ETC subunits was paralleled by a reduction in complex I and complex III activity in the TA of DKO mice, but not in heart. However, this was only significant in the TA of female but not male mice. Mechanistical analyses using coimmunoprecipitation, cycloheximide chase and ubiquitination assays showed that MuRF1 physically interacted with the transcriptional repressor histone deacetylase 5 (HDAC5), mediated its ubiquitination as well as its UPS-dependent degradation. The absence of MuRF1 and MuRF3 in DKO mice let to an increase in the amounts of HDAC5 in TA. Because HDAC5 binds to PGC-1α, the master regulator of mitochondrial biogenesis (encoded by Ppargc1a), we investigated its gene expression in DKO muscle and found it to be reduced.
These data connect MuRF1 and MuRF3 directly to the striated muscle energy metabolism, by regulating mitochondrial function. The results provide insights into the development of PAMs and possibly other protein storage diseases, where a decrease of mitochondrial function has already been described.
Study of the effect of the podocyte-specific palladin knockout in mice with a 129 genetic background
(2023)
Worldwide, chronic kidney disease is one of the leading public health problems. Podocytes, highly specialized postmitotic cells in the filtration unit of the kidney glomerulus, are essential for the size selectivity of the filtration barrier. Loss of the complex 3D morphology of their interdigitating foot processes, effacement and detachment of the cells from the capillaries lead to proteinuria and often loss of kidney function.
Since the morphology of podocyte foot processes is highly dependent on an intact actin cytoskeleton and actin-binding proteins, we investigated the role of the actin-binding protein palladin in podocytes from mice with a 129 genetic background, that is more susceptible to kidney injury. PodoPalld129-/- mice were examined at 6 and 12 months of age using immunofluorescence staining, electron and 3D super-resolution microscopy as well as qRT-PCR.
Our analysis of PodoPalld129-/- mice at 6 and 12 months of age showed that podocyte- specific knockout of palladin results in dilation of the capillary tuft accompanied by loss of mesangial cells, indicating the influence of palladin on glomerular tuft formation. Besides, we observed morphological abnormalities such as an enlarged sub-podocyte space, cyst formations and an increased number of cell-cell contacts between podocytes and parietal epithelial cells in PodoPalld129-/- mice compared to controls. Moreover, palladin knockout resulted in downregulation of the slit diaphragm protein nephrin as well as an age-dependent significant increase in podocyte foot process effacement. Although there was a significant change in foot process morphology, we did not detect albuminuria in PodoPalld129-/- mice of both age groups. However, we found an increase of trefoil factor 1 (Tff1) in the urine of the mice, indicating an altered, more permeable filtration barrier.
Considering that palladin has several binding sites for important actin-binding and regulatory proteins, we studied the expression of Lasp-1, Pdlim2, VASP and Klotho in dependence on palladin. We found a remarkable reduction in, for example, phosphorylated Lasp-1 as well as Klotho, which could influence the morphology of podocyte foot processes.
Compared with PodoPalldBL/6-/- mice, PodoPalld129-/- mice showed stronger glomerular tuft dilation and developed podocytes with increased morphological abnormalities, underlining the importance of the genetic background.
In conclusion, these results demonstrate the essential role of palladin for podocyte morphology in mice with a 129 genetic background.
Although the outcome of patients with acute myeloid leukemia (AML) has
improved in the past decades, the overall survival is below 50% [1, 2] and there
is still an unmet need for the development of new therapeutic strategies. Here,
we aimed to identify functional vulnerabilities in AML and investigated the
therapeutic potential of target structures involved in proteostasis, cell polarity and
RNA-binding molecular pathways.
We determined that genetic deletion of the cell fate determinant and polarity
regulator Scribble delays AML development, however, its deletion also seems to
affect the proliferative capacity of normal hematopoietic cells, lowering its value
as a therapeutic target. In contrast, inactivation of YBX1 (a pleiotropic protein with
DNA/RNA binding capacity that excerpts post-transcriptional control on its
targets) and PSMB8/LMP7 (a catalytic subunit of the immunoproteasome multiprotein
complex that belongs to the ubiquitin-proteasome system (UPS)) inhibit
leukemic cells without influencing normal hematopoietic stem and progenitor cell
function, establishing these targets as potential novel therapeutic strategies
against AML.
Genetic deletion of YBX1 caused reduced proliferation and colony forming
capacity in leukemic cells independent of the oncogenic driver mutation and
delayed AML development in vivo. The role of Ybx1 in leukemia maintenance
was investigated using a conditional knockout model, confirming the functional
requirement of Ybx1 in AML maintenance. Mechanistically, YBX1 recruited
oncogenic transcripts to polysomes, increasing their translation. Displacement of
these transcripts from polysomes after YBX1 deletion decreased their protein
expression.
Genetic and pharmacologic inhibition of PSMB8/LMP7 decreased proliferation
and colony forming capacity selectively in KMT2A (MLL)-rearranged leukemic
cells. In vivo treatment with a PSMB8/LMP7 inhibitor delayed disease
development in KMT2A-rearranged leukemic mice or patient derived xenografts
(PDX). We identified the transcriptional corepressor BASP1 as a functional
effector of the immunoproteasome. BASP1 was enriched after PSMB8/LMP7
inhibition and it was found binding to KMT2A-target genes. Moreover,
pharmacologic inhibition of PSMB8/LMP7 led to decreased expression of bonafide
KMT2A-fusion target genes and enrichment for genes deregulated by
inhibitors of the KMT2A complex partners DOT1L and MEN1. This prompted us
to investigate a potential synergism between MEN1 inhibition and
immunoproteasome inhibition. Combination treatment in AML cells revealed
decreased proliferation in vitro and increased survival in vivo as compared to the
single treatments, demonstrating the therapeutic potential of combining
immunoproteasome and MEN1 inhibitors.
Pregnancy involves adaptations of the cellular composition in utero to establish a functioning fetal-maternal interface. Different subsets of leukocytes populate the endometrium and contribute to tolerance of the fetal allograft while protecting it from potentially threatening infections or rejection. ¬¬Innate lymphoid cells are recently discovered immune cells that, besides the gut, lung and skin, possess immunoregulatory functions in the female reproductive tract, especially during gestation. Although present at the fetal-maternal interface, the dynamics of ILC migration during pregnancy remains poorly investigated. The involvement of homing receptors in ILC migration to the uterus was the main subject of the present work.
First, the expression of homing receptors on ILCs from miscellaneous organs was assessed across the course of murine pregnancy in vivo by means of flow cytometry. Then, their migratory capacity towards pregnancy-relevant chemokines was investigated in vitro. The impact of pregnancy related hormones on the migration and homing of ILCs was then analysed in vitro via migration assays.
The results confirm altered proportions of ILCs in utero and the altered expression of homing receptors in ILCs in pregnancy. Different murine lymphoid organs showed augmented expression of chemokine receptors and decreased levels of homing integrin α4β7 in the first trimester, suggesting enhanced migration patterns of ILCs during early pregnancy. Subsequently, migration assays were used to demonstrate the role of different chemokine ligands in enhancing ILC migration.
Eventually, the alterations in homing receptor expression were correlated with female pregnancy hormones. Progesterone treatment caused similar effects on homing receptor expression in ILCs as observed during early gestation. These results represent the first study evaluating the effect of sex steroid hormones on ILC chemokine receptor distribution.
Taken together, our results indicate the involvement of pregnancy-relevant chemokines, including CCL4, CCL20 and CCL28, in the recruitment of ILCs to the uterus during pregnancy. The data highlight an endocrinological-immune crosstalk in the regulation of ILC homing to the female reproductive tract. Gestation alters chemokine receptor expression in order to regulate the access of immune cell subsets to the fetal-maternal interface. An adequate regulation is highly needed, as a lack or abundance of different subgroups could result in pregnancy complications, including fetal loss, pre-eclampsia or pre-term birth. Thus, the role of ILC chemotaxis to the pregnant uterus and its regulation are of interest in the understanding, prevention and treatment of the clinically relevant obstetric diseases.
The effect of interdental cleaning on progression of caries, periodontitis and tooth loss is a highly discussed topic in dental research since these conditions are among the most common infectious diseases of mankind. Caries is a multifactorial disease defined by a demineralization process of the dental hard tissue, caused by bacteria, which, if untreated ultimately results in tooth decay and tooth loss. A study published in 2015 confirmed that untreated caries in permanent teeth is still the most prevalent condition worldwide. Gingivitis, an acute inflammation of the gingival tissue, caused by substances deduced from the microbial plaque can develop into the clinical picture of an acute periodontitis. Severe periodontitis is still the sixth-most prevalent condition globally with a prevalence of 11.2% between 1990-2010. Progression of periodontitis leads to bone loss which as well ultimately results in tooth loss, if left untreated. In our study we want to examine the use of IDA in relation to caries and periodontal diseases, thus tooth retention to gain more detailed and long-term results about the effect of IDA and therefore prevent, counteract and understand these oral diseases better.
Using data from SHIP-TREND, a population-based observational cohort study conducted in Western Pomerania (Germany), we examined effects of daily usage of interdental cleaning aids on follow-up (SHIP-TREND-1) values of oral outcomes comprising caries (DFS, interdental DFS, non-interdental-DFS), gingivitis (plaque, BOP), chronic periodontitis (mean PD, mean interdental PD, mean non-interdental PD, mean CAL, mean interdental CAL, mean non-interdental CAL, CDC/APP case definition) and tooth loss (number of missing teeth) using comprehensively adjusted linear and ordinal logistic regression models. In total, data from over 2,000 participants with a follow-up time of approximately seven years were utilized. Based on interviews, participants were asked about their habit and the regularity of using interdental aids as a cleaning aid at home. Furthermore, the type of IDA was then analyzed and differentiated into groups of IDA non-users, wooden stick users, floss users and interdental brush users.
Regular interdental aids usage was associated with reduced levels of periodontitis severity (mean PD and mean CAL) and gingivitis variables (plaque and BOP). The beneficial effect was more pronounced in participants using dental floss or interdental brushes regularly. After seven years of follow-up, odds of having higher mean PD levels were halved (Odds Ratio 0.49; 95% confidence interval (CI) 0.35;0.66) comparing dental floss users with non-users. Respective ORs were 0.61 (95%CI 0.45;0.83) for mean CAL, 0.52 (95%CI 0.36;0.77) for BOP and 0.36 (95%CI 0.24;0.54) for plaque. Similarly, ORs for interdental brush users were 0.75 (95%CI 0.55;1.02) for mean PD, 0.64 (95%CI 0.41;0.97) for BOP and 0.55 (95%CI 0.39;0.77) for plaque, compared to non-users. For wooden sticks non-significant associations were found, which does not allow any statement to be made regarding possible effects on oral health. Caries variables (DF-S) and the number of missing teeth were non-significantly associated with interdental aids usage.
In conclusion, results suggest that interdental cleaning aids usage may contribute to healthier gums and reduced inflammation, if combined with daily toothbrushing and regular dental checkups. Specifically, dental flossing and interdental brushing might notably reduce gingival inflammation and therefore prevent chronic periodontitis. These findings contribute to a more distinct picture of how IDA might help to prevent oral diseases and must be properly integrated into our daily oral hygiene program.
Age is the single biggest risk factor for most major human diseases. As such, understanding the intricate molecular changes that drive biological aging holds great promise in attempting to slow
the onset of systemic diseases and thereby increase the effective health-span in modern societies.
This thesis explores several computational approaches to capture and analyze the molecular biological alterations triggered by intrinsic and extrinsic aging using skin as a model tissue to deliver genes and pathways as potential targets for intervention strategies.
Publication 1 demonstrates the utility of multi-omics data integration strategies for aging research, leading to the identification of four latent aging phases in skin tissue through an integrated cluster analysis of gene expression and DNA methylation data. The four phases improved the detection of molecular aging signals and were shown to be associated with sunbathing habits of the test subjects. Deeper analysis revealed extensive non-linear alterations in various biological pathways particularly at the transition into the fourth aging phase, coinciding with menopause, with potentially wide-reaching functional implications. Publication 2 describes the development of a novel type of age clock, that provides a new level of interpretability by embedding biological pathway information in the architecture of an artificial neural network. The clock not only generates meaningful biological age estimates from gene expression data, but further allows simultaneous monitoring of the aging states of various biological processes through the activations of intermediate neurons. Analyses of the inner workings of the clock revealed a wide-spread impact of aging on the global pathway landscape. Simulation experiments using the transcriptomic clock recapitulated known functional aging gene associations and allowed deciphering of the pathways by which accelerated aging conditions such as chronic sun exposure and Hutchinson-Gilford progeria syndrome exert their effects. Publication 3 further explores the molecular alterations caused by the pro-aging effector UV irradiation in the skin. The multi-omics data analysis of repetitively irradiated skin revealed signs of the immediate acquisition of aging- and cancer-related epigenetic signatures and concurrent wide-spread transcriptional changes across various biological processes. Investigations into the varying resilience to irradiation between subjects revealed prognostic biomarker signatures capable of predicting individual UV tolerances, with accuracies far surpassing the traditional Fitzpatrick classification scheme. Further analysis of the transcripts and pathways associated with UV tolerance identified a form of melanin-independent DNA damage protection in individuals with higher innate UV resilience.
Together, the approaches and findings described in this thesis explore several new angles to advance our understanding of aging processes and external drivers of aging such as UV irradiation in the human skin and deliver new insight on target genes and pathways involved.