Jean Paul und das Buch der Bücher:

Kaum etwas hat Jean Pauls Schreiben so nachhaltig inspiriert wie die Bibel. Bezüge auf das Buch der Bücher, die verschiedenen Traditionslinien seiner Auslegung und die Rezeption in der Kulturgeschichte haben in der ästhetischen Reflexion und im Erzählwerk Jean Pauls vielfältige und überraschende Spuren hinterlassen. Die Studie geht diesen Bezügen in seinem Gesamtwerk detailliert nach und berücksichtigt dabei sowohl ihren bibelgebrauchs- und diskursgeschichtlichen Kontext als auch zeitgenössische Debatten. Unter Zuhilfenahme bislang unbeachteter Exzerpte und Briefe wird nachgewiesen, wie eng Jean Paul mit der zeitgenössischen Bibelforschung vertraut war und wie sehr er sich von ihr faszinieren ließ. Die Textanalysen konzentrieren sich auf Jean Pauls biblisch fundierte poetologische Metaphorik (u.a. "Vorschule der Ästhetik"), auf die Eigenheiten seines poetischen Sprachstils, die durch Lutherbibel, aber auch Mystik und Pietismus vermittelt sind ("Hesperus") sowie auf die Parallelen ausgewählter bibelkritischer und Jean Pauls eigener poetologischer Konzepte ("Leben Fibels"). Dabei erweist sich, dass der Dichter nicht nur biblische Bilder, Stilregister und Textmuster für sein Werk fruchtbar macht, sondern zudem Autor- und Textproduktionsmodelle aus der Bibelphilologie aufgreift, insbesondere um sein Selbstverständnis als Autor und seine Erzählmodelle zu entwickeln. Sein ambivalent-provokatives Schreiben wirft auch neues Licht auf das komplexe Problem der ‚Säkularisierung‘ um 1800

Creatine Supplementation for Health and Clinical Diseases

Creatine plays a critical role in cellular metabolism, primarily by binding with phosphate to form phosphocreatine (PCr) as well as shuttling high-energy phosphate compounds in and out of the mitochondria for metabolism. Increasing the dietary availability of creatine increases the tissue and cellular availability of PCr, and thereby enhances the ability to maintain high-energy states during intense exercise. For this reason, creatine monohydrate has been extensively studied as an ergogenic aid for exercise, training, and sport. Limitations in the ability to synthesize creatine and transport and/or store dietary creatine can impair metabolism and is a contributor to several disease states. Additionally, creatine provides an important source of energy during metabolically stressed states, particularly when oxygen availability is limited. Thus, researchers have assessed the role of creatine supplementation on health throughout the lifespan, as well as whether creatine availability may improve disease management and/or therapeutic outcomes. This book provides a comprehensive overview of scientific and medical evidence related to creatine's role in metabolism, health throughout the lifespan, and our current understanding of how creatine can promote brain, heart, vascular and immune health; reduce the severity of musculoskeletal and brain injury; and may provide therapeutic benefits in glucose management and diabetes, cancer therapy, inflammatory bowel disease, and post-viral fatigue

[Hauptwerk]

[HAUPTWERK] Adreß-Buch der Odd Fellow-Logen Berlins (Public Domain) (-) Issue[1] [Hauptwerk] (Public Domain) ( - ) Cover front ( - ) Title page ( - ) Preface ( - ) Bezirks-Groß-Loge v. Brdbg. (IV) Wohlfahrtseinrichtungen des Odd Fellow-Ordens (VII) Germania-Loge Nr. 1 v. Brdbg. ([1]) Borussia-Loge Nr. 2 v. Brdbg. (5) Templer-Loge Nr. 4 v. Brdbg. ([9]) Concordia-Loge Nr. 5 v. Brdbg. ([17]) Humboldt-Loge Nr. 6 v. Brdbg. ([21]) Socrates-Loge Nr. 7 v. Brdbg. ([28]) Beethoven-Loge Nr. 11 v. Brdbg. ([30]) Kaiser Friedrich-Loge Nr. 14 v. Brdbg. ([35]) Berolina-Loge Nr. 15 v. Brdbg. ([37]) Barbarossa-Loge Nr. 16 v. Brdbg. ([44]) Mozart-Loge Nr. 17 v. Brdbg. ([49]) Galilei-Loge Nr. 18 v. Brdbg. ([56]) Feuerbach-Loge Nr. 19 v. Brdbg. ([61]) Thomas Wildey-Loge Nr. 21 v. Brdbg. ([67]) Ridgely-Loge Nr. 22 v. Brdbg. ([73]) Immanuel Kant-Loge Nr. 24 v. Brdbg. ([78]) Amicitia-Loge Nr. 26 v. Brdbg. ([82]) Prometheus-Loge Nr. 27 v. Brdbg. ([88]) Veritas-Loge Nr. 28 v. Brdbg. ([93]) Farnsworth-Lager Nr. 1 v. Brdbg. ([95]) Mitglieder-Verzeichnis nach Berufen ([1]) Nachtrag ([1]) Advertising ( - ) Cover back ( - ) ColorChart ( -

Katalog des Städtischen Schulmuseums in Berlin

KATALOG DES STÄDTISCHEN SCHULMUSEUMS IN BERLIN Katalog des Städtischen Schulmuseums in Berlin (Public Domain) ( - ) Title page ( - ) Stempel: Gemeindeschule ( - ) Preface ( - ) Bestimmungen über die Benutzung der Sammlungen des städtischen Schulmuseums ([V]) Contents ([VI]) I. Theologie ( - ) II. Philosophie einschließlich Psychologie und Logik ([20]) III. Geschichte ([30]) IV. Geographie, Reisen, Völkerkunde ([71]) V. Astronomie und Mathematik ([93]) VI. Naturwissenschaften ([103]) VII. Sprache und Litteratur ([131]) VIII. Staats- und Rechtswissenschaft, Verwaltung, Volkswirtschaft. Statistik ([169]) IX. Medizinisches und Hygiene ([175]) X. Pädagogik ([179]) XI. Kunst ([389]) XII. Sammelwerke ([408]) XIII. Encyclopädien. Wörterbücher ([429]) XIV. Zeitschriften ([434]) XV. Bücherwesen, Ausstellungen und Verwandtes ([441]) Nachträge ([444]) Anhang. Verzeichnis von Büchern, welche sich zu Schulprämien eignen ([447]) Index ([452]) Berichtigungen (515) ColorChart ( -

Probing mechanisms by which cerebral vascular disease may influence cognitive impairment and dementia

Introduction Vascular cognitive impairment (VCI) describes a full spectrum of cognitive deficits caused by underlying cerebral vascular alterations, regardless of the specific mechanisms involved. Several factors such as ageing, stroke, hypertension and cerebral hypoperfusion are associated with an increased risk of developing VCI. Vascular dementia (VaD) is the second most common cause of dementia after Alzheimer’s disease (AD). It is now recognised that considerable overlaps exist between the features of VaD and AD. Key pathological and neuroimaging features including cerebral amyloid angiopathy (CAA), white matter lesions (WML), microinfarcts and microbleeds are evident in both VaD and AD. Furthermore, brain infarction has been reported to influence the presence and severity of clinical expressions such as cognitive performance of AD, suggesting a common pathophysiological mechanism that contributes to the development of cognitive deficits. However, gaps remain in understanding the exact mechanisms by which vascular risk factors contribute to cognitive decline and neurodegenerative processes leading to dementia. Given the importance of blood supply to the brain for maintaining its structural and functional integrity, it has been proposed that vascular risk factors may affect the cerebral haemodynamic and alter the vascular function resulting in damages to the brain. These changes may involve altered neurovascular coupling that is a critical mechanism for regulating the dynamic changes of local cerebral circulation. Further, impaired vascular function, amyloid-β (Aβ) accumulation in the cerebral vasculature and disrupted neurovascular unit are found in VCI. The glymphatic pathway, a clearance route for removing soluble waste from the brain to periphery, has been proposed to play a role in the pathogenesis of VCI. Mounting evidence has suggested that cerebral hypoperfusion, by large vessel occlusion and stenosis, is emerging as a major contributor to cognitive impairment. This has led to the development of mouse models of bilateral common carotid stenosis (BCAS), a model narrowing both common carotid arteries by placing microcoils. The BCAS model has been reported to produce many features of VCI, including white matter damage, microglial activation, gliovascular disruption, increased oxidative stress (by increased NADPH oxidase 2 (NOX2) levels) as well as memory impairment. To investigate whether there is an interaction between cerebral hypoperfusion and microvascular Aβ accumulation, a mixed model that demonstrates both microvascular amyloid (Tg-SwDI mouse model) and BCAS has been developed. In this thesis, it is hypothesized that the complex interaction of Aβ and BCAS leads to cognitive impairment via an impaired glymphatic function in addition to perfusion deficits that promote vascular related lesions and neurodegenerative changes. Second to this, given clear links between NOX2, hypoperfusion and amyloid accumulation, it was further hypothesised that NOX2 is a central mechanism leading to VCI. Methods Mice were given BCAS surgery to mimic cerebral hypoperfusion for a period of 3 months. In vivo laser speckle imaging was performed to evaluate the changes in cortical blood flow. This was followed by additional CBF measurements using arterial spin labelling (ASL)-based magnetic resonance imaging (MRI), which gave a non-invasive access to CBF information in the cerebral cortex, hippocampus and thalamus. Neurovascular coupling was assessed by performing whisker stimulation. Barnes maze was used to assess the spatial learning and memory function at 3 months following BCAS or sham surgery. For the examination of glymphatic function, in vivo intracisternal injection and ex vivo imaging of CSF fluorescent tracers were performed. Histological assessment and immunohistochemistry were used to examine vascular related pathology, Aβ burden, astrogliosis and basement membrane changes following BCAS. Results Part 1: To examine the effect of BCAS on cerebral perfusion deficits, glymphatic function and cognition in Tg-SwDI mice compared to wild-type mice. The first studies in the thesis sought to examine the effect of BCAS and microvascular amyloid on the extent of cerebral perfusion deficits and cognitive impairment. The first step was to validate whether the BCAS model has an effect on cerebral perfusion. Cortical cerebral blood flow (CBF) was examined by laser speckle imaging. This revealed sustained reductions of CBF at 24 hours, 1 and 3 months following the establishment of BCAS (p<0.001) but no effect of the microvascular Aβ was found to affect cortical perfusion (p>0.05). To further explore the CBF changes in other brain regions following BCAS, Arterial spin labelling (ASL), a technique widely used in clinical imaging, was performed. A significant effect of BCAS was confirmed in the dorsolateral cortex and hippocampus (p<0.001, respectively) but no genotype effect of the microvascular Aβ or any interaction was found (p>0.05, respectively). In order to investigate whether long-term carotid stenosis has a further effect on cognitive function in the experimental animals, assessment of Barnes maze demonstrated that BCAS mice spent longer escape latency than the sham mice in both wild-type and Tg-SwDI animals (p<0.05, respectively) indicating visuo-spatial learning was significantly impaired at 3 months following BCAS. To determine the effect of BCAS and Aβ on long-term memory, a probe test was taken to examine whether mice remember the previous training target after a period of time. This test revealed that all groups spent a significantly higher percentage of time than chance (25%). Exclusively in wild-type BCAS mice, the percentage of time spent in the target quadrant was significantly lower than by chance (p<0.05). In addition, there was no significant effect of BCAS or Aβ on the percentage of time spent in the correct quadrant (p>0.05, respectively). These results suggested long-term memory was not impaired in BCAS and the presence of amyloid. Further to enhance the detection of spatial learning and memory impairment, reversal trials were taken to evaluate the ability of experimental animals to learn a new location. Compared to wild-type mice that still learned the new tests showing significantly improved performance over time (p<0.05), both the Tg-SwDI sham and BCAS mice no longer learned the task (p>0.05). The long-term memory tested in reversal tests showed impairment in both wildtype and Tg-SwDI BCAS as well as in the presence of amyloid after increasing the difficulties in reversal probe tests. The results indicated the only mice from wild-type sham (37.40 ± 12.63) (p<0.05) spent a significantly higher percentage of time by 12.40 (95%CI, 1.84 to 22.96) than by chance, t(7)=2.8, p=0.027 and a significantly higher percentage of time than Tg-SwDI BCAS mice (p<0.05) with all the other groups spending a lower percentage of time than chance (wild-type BCAS: 27.57 ± 11.12%, Tg-SwDI sham: 20.36 ± 15.50%, Tg-SwDI BCAS: 26.79 ± 16.79%). To further explore the potential mechanisms by which BCAS causes cognitive impairment, the glymphatic entry was further assessed. This revealed that the global influx of CSF tracers was different across the anatomical levels (p<0.001) but unaltered post-BCAS in wild-type and Tg-SwDI mice (p>0.05, respectively). To explore whether BCAS influences CSF glymphatic influx, ex vivo images of the CSF tracer influx in the dorsolateral cortex (DL CTX) and hippocampus (CA1-DG molecular layer) on the D-3 tracer were measured. The results showed in both regions, altered CSF influx was found in the BCAS and Tg-SwDI mice due to the main effect of BCAS (p=0.037 and p=0.011, DL CTX and CA-DG regions respectively) but not Aβ (p>0.05, respectively). Taken together, these first studies support the original hypothesis that BCAS causes cognitive impairment via reduced cerebral perfusion and impaired glymphatic function. However, there was no exacerbation of these effects in Tg-SwDI mice. Part 2: To examine the effect of BCAS on neurovascular function, degenerative changes and amyloid accumulation in Tg-SwDI mice compared to wild-type mice. To begin with, responses of cortical blood vessels to whisker stimulation were recorded and quantified as the mean CBF percentage increase from the baseline. There was a significant effect of BCAS (p<0.001), whereby impaired neurovascular coupling was observed in the BCAS mice from both wild-type and Tg-SwDI mice. However, there was no significant effect of Aβ in these mice (p>0.05). Vascular related lesions including microinfarcts and microbleeds were compared by measuring the frequency in experimental animals. No vascular lesions were detectable in wild-type and Tg-SwDI sham mice. 4/10 mice were found to have vascular lesions in the wild-type BCAS mice following 3 months of surgery. 6/10 mice were identified with vascular lesions in the Tg-SwDI mice. No significant difference in proportions (p>0.05) was found between Tg-SwDI BCAS and wild-type BCAS mice. To discern the mechanisms by which BCAS and microvascular amyloid may impact on the glymphatic function, the extent of astrogliosis was further studied. GFAP immunostaining was undertaken to investigate the extent of reactive gliosis post-BCAS. Increased astrogliosis following BCAS was found (p<0.05), but no effect of Aβ or interaction was found in the dorsolateral cortex. The hippocampal CA1-DG molecular layer was further analysed, and this showed a significant effect of Aβ (p=0.002) but no effect of BCAS (p>0.05) and interactions (p>0.05) on astrogliosis. Further, Aβ load was evaluated in the cortex and colabelled with collagen 4 (COL4) (a marker of the basement membrane of blood vessels) to enable the assessment of microvascular amyloid in the Tg-SwDI mouse model. A significant increase in the total amount of amyloid as well as the percentage of vascular amyloid was detected post-stenosis (p<0.05, respectively). No changes of COL4 levels were found in the mice post-BCAS (p>0.05). In summary, these results demonstrated that BCAS impaired neurovascular coupling and promoted amyloid accumulation in the cerebral microvasculature. Part 3: To determine whether targeting NOX2 has an effect on cerebral perfusion, degenerative changes and cognitive impairment in Tg-SwDI mice compared to wildtype mice. The third aim of the thesis was to determine the effect of NOX inhibitor (apocynin) on the previously reported cerebral hypoperfusion, impaired neurovascular coupling, development of neurodegenerative pathologies and cognitive deficits caused by BCAS in the Tg-SwDI mice. Following BCAS surgery, mice were immediately fed with either apocynin or vehicle in their drinking water for 3 months. Cortical CBF changes after the treatment of apocynin were assessed using laser speckle imaging, in apocynin treated mice, a recovery of CBF from the BCAS apocynin group after 3 months of treatment was found. The further investigation of neurovascular coupling revealed that apocynin restored vascular function following carotid stenosis. A significant interaction between BCAS surgery and apocynin treatment (p<0.05) was found after 3 months of treatment. The mice that received 3 months of apocynin treatment showed a robust response during the stimulation. The frequency of vascular lesions was counted to compare whether inhibiting NOX activity could provide any beneficial effect on the development of vascular pathology. However, there was no significant difference in proportions between the mice treated with vehicle and apocynin (p>0.05). The cortical amyloid load was assessed by double labelling of COL4 and 6E10. The results revealed no effect of treatment on the Aβ burden and vessel densities compared to vehicle treated group (p>0.05). Finally, the cognitive function was assessed using Barnes maze. It demonstrated that apocynin did not improve spatial learning and memory in the behavioural tests (p>0.05, respectively). Conclusions The findings in this thesis demonstrate novel evidence of how carotid stenosis damages the cerebral microcirculation and structure, contributing to the pathogenesis of cognitive impairment. Specifically, long-term BCAS caused chronic cerebral hypoperfusion and impaired glymphatic function, which is likely to contribute to the accumulation of Aβ in the microvasculature. Additionally, carotid stenosis caused sustained cerebral hypoperfusion and led to impaired neurovascular coupling, neurodegenerative changes and cognitive deficits. However, despite evidence supporting a basis for targeting NADPH oxidase, there was only a modest beneficial effect of the NOX inhibitor on neurovascular function. Collectively, this thesis provides evidence that following the carotid stenosis, while reducing cerebral perfusion, the glymphatic drainage pathway may be affected, leading to cognitive impairment. This new data adds credence to a growing body of human studies that alternate mechanisms may exist in addition to cerebral hypoperfusion leading to VCI. The treatment with non-selective NOX inhibitor successfully restored blood perfusion and vascular function with no ultimate improvement in cognitive function, suggesting a limited role by targeting NOX to restore the full pathological processes in VCI. Thus, further studies using more specific method targeting post-carotid stenosis events will help to understand the proposed mechanisms and provide a therapeutic strategy

Etude des mécanismes moléculaires impliqués dans l'infiltration cérébrale des lymphocytes T dans la maladie de Parkinson

Study of the molecular mechanisms involved in the cerebral infiltration of lymphocytes T in the Parkinson's diseaseLa maladie de parkinson est une affection neurologique caractérisée par une dégénérescence des neurones dopaminergiques du mésencéphale ventral et une perte de l’innervation dopaminergique striatale à l’origine de symptômes moteurs (akinésie, rigidité et tremblement de repos). L’absence de traitements curatifs s’explique notamment par notre large méconnaissance des mécanismes conduisant à la mort neuronale. De nombreuses données supportent un rôle du système immunitaire inné dans ces processus de dégénérescence. Récemment, plusieurs études ont également suggéré le rôle de la réponse immunitaire adaptative dans ces phénomènes. Ainsi une infiltration cérébrale de lymphocytes T CD4+ est observée chez les patients parkinsoniens. Celle-ci pourrait jouer un rôle délétère dans les mécanismes conduisant à la mort des neurones dopaminergiques comme le suggèrent certaines données in vivo dans des modèles de la maladie. Par conséquent, le blocage de cette infiltration lymphocytaire pourrait constituer une stratégie thérapeutique intéressante pour ralentir la dégénérescence neuronale. Notre hypothèse de travail est qu’un processus actif de remodelage de la barrière hématoencéphalique permettrait aux cellules du système immunitaire adaptatif de pénétrer le parenchyme cérébral. Ainsi les chimiokines et les molécules d’adhésion constituent deux grandes familles de protéines impliquées dans les phénomènes d’infiltration tissulaire des leucocytes en condition inflammatoire. A notre connaissance, aucune étude détaillée des mécanismes permettant l’infiltration cérébrale des lymphocytes dans les syndromes parkinsoniens n’a été réalisée. Afin de tester cette hypothèse, le projet a eu plusieurs objectifs : (1) caractériser l’expression des chimiokines et des molécules d’adhésion dans un modèle murin de lésion du système nigro-strié (2) déterminer le rôle du réseau chimiokinique dans le processus d’infiltration lymphocytaire et la dégénérescence dopaminergique dans ce modèle (3) étudier l’expression des facteurs candidats dans la substance noire des patients parkinsoniens. Dans notre étude, nous avons pu montrer une augmentation d’expression transcriptionnelle et protéique très importante des trois chimiokines CCL3, CCL4 et CXCL10 dans le mésencéphale ventral de souris intoxiquées par le MPTP (un modèle expérimental de maladie de Parkinson). La source cellulaire de ces facteurs était les cellules microgliales pour CCL3 et CCL4 et les astrocytes pour CXCL10. Pour aborder le rôle de ces facteurs dans les processus physiopathologiques, notre stratégie a été de cibler les récepteurs des ligands identifiés, en particulier CXCR3, CCR5 et CCR1. Bien que la déficience constitutive de chacun de ces récepteurs ne confère qu’une faible protection des neurones dopaminergiques et une faible diminution de l’infiltration lymphocytaire, une stratégie de blocage multiple des récepteurs aux chimiokines a permis de réduire l’ampleur de ces deux processus. En outre, nous avons détecté une augmentation d’expression de CCL3 et CCL4 dans la substance noire de patients parkinsoniens. Au total, nos résultats montrent une modulation importante du réseau chimiokinique associée à la réaction gliale dans un contexte de lésion du système nigro-strié et suggèrent que le réseau chimiokinique joue vraisemblablement un rôle important dans le recrutement cérébral des lymphocytes T et la physiopathologie de la maladie de Parkinson

Transversus abdominis release:a case report

Introduction: Patients with large abdominal wall defects experience significant deformity, pain and decreased energy due to a loss of normal abdominal wall mechanics, severely impacting their quality of life.Reconstructive techniques for complex ventral hernia repair are numerous but most of them are unable to achieve the goals of hernioplasty. Posterior component separation with transverses abdominis muscle release (TAR) is a novel approach that offers a solution for complex ventral hernias. Case: A 59 year old patient was admitted to our hospital for treatment of clinically and radiologically verified incisional hernia with 20% loss of domain characteristics, acquired after cesarean section and hysterectomy. Discussion/Conclusion: Typical reconstructive techniques may struggle to reestablish abdominal domain and to create a lasting repair. Posterior component separation with transversus abdominis release is a novel technique that offers a durable solution to a variety of complex ventral hernias.The lack of sufficient tissue requires the insertion of prosthetic material or transposition of autologous material to bridge the fascial gap.Retromuscular or sublay hernia repair with mesh has proven to be a durable technique for ventral hernia defects, and completely avoids subcutaneous flap elevation. TAR allows for significant posterior rectus fascia advancement, wide lateral dissection, preservation of the neurovascular supply, avoids subcutaneous tissue undermining and provides a large space for mesh sublay which allowsfor bilaminarin growth of the mesh