Eckart Rüther
University of Göttingen
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Featured researches published by Eckart Rüther.
Behavioural Brain Research | 2005
Rafal Rygula; Nashat Abumaria; Gabriele Flügge; Eberhard Fuchs; Eckart Rüther; Ursula Havemann-Reinecke
Stress, especially chronic stress, is one of the most important factors responsible for precipitation of affective disorders in humans. The animal models commonly used in the investigation of stress effects are based mainly on powerful physical stressors. In the majority of cases, these models are not relevant to situations that human beings encounter in everyday life. In our study, an animal model for chronic social stress has been developed for rats using a resident-intruder paradigm. This paradigm is considered a model of social defeat or subordination, and therefore may mimic situations occurring in humans. Rats were subjected daily to subordination stress for a period of five weeks and, in parallel, tested with a battery of behavioural tests. Chronically stressed rats showed behavioural changes, including decreased motility and exploratory activity, increased immobility in a forced swim test, and reduced preference for sweet sucrose solution (anhedonia). Reduced locomotor and exploratory activity represents a loss of interest in new stimulating situations, implying a deficit in motivation. Increased immobility in the forced swim test indicates behavioural despair, a characteristic of depressive disorders. Decreased sucrose preference may indicate desensitisation of the brain reward mechanism. Since anhedonia is one of the core symptoms of depression in humans, our findings suggest that the rat chronic social stress model may be an appropriate model for depressive disorders.
Neuroscience Letters | 2002
Andrea Rodenbeck; Gerald Huether; Eckart Rüther; G. Hajak
Recent research provides evidence for an interaction between sleep and the activation of the hypothalamic-pituitary-adrenal (HPA)-axis, but detailed studies in patients are still missing. We investigated hourly evening and nocturnal plasma cortisol secretion and sleep in seven male patients with severe chronic primary insomnia and age- and gender-matched controls. Evening and nocturnal cortisol levels were significantly increased in patients. Evening cortisol correlated with the number of nocturnal awakenings in patients and controls. Additionally, patients showed significant correlations between sleep parameters and the first 4 h of nocturnal cortisol secretion. These results are indicative of changes in the HPA system in insomnia and may reflect a pathophysiological mechanism of chronic insomnia resulting in a vicious cycle of both disturbed HPA functions and chronic insomnia according to the arousal hypothesis of insomnia.
Brain | 2006
Mirko Bibl; Brit Mollenhauer; Hermann Esselmann; Piotr Lewczuk; Hans-Wolfgang Klafki; Katrin Sparbier; Alexandr Smirnov; Lukas Cepek; Claudia Trenkwalder; Eckart Rüther; Johannes Kornhuber; Markus Otto; Jens Wiltfang
Abstract As the differential diagnosis of dementias based on established clinical criteria is often difficult, biomarkers for applicable diagnostic testing are currently under intensive investigation. Amyloid plaques deposited in the brain of patients suffering from Alzheimers disease, dementia with Lewy bodies (DLB) and Parkinsons disease dementia (PDD) mainly consist of carboxy-terminally elongated forms of amyloid-beta (Aβ) peptides, such as Aβ1–42. Absolute Aβ1–42 levels in CSF have shown diagnostic value for the diagnosis of Alzheimers disease, but the discrimination among Alzheimers disease, DLB and PDD was poor. A recently established quantitative urea-based Aβ-sodium-dodecylsulphate–polyacrylamide-gel-electrophoresis with Western immunoblot (Aβ-SDS–PAGE/immunoblot) revealed a highly conserved Aβ peptide pattern of the carboxy-terminally truncated Aβ peptides 1–37, 1–38, 1–39 in addition to 1–40 and 1–42 in human CSF. We used the Aβ-SDS–PAGE/immunoblot to investigate the CSF of 23 patients with Alzheimers disease, 21 with DLB, 21 with PDD and 23 non-demented disease controls (NDC) for disease-specific alterations of the Aβ peptide patterns in its absolute and relative quantities. The diagnostic groups were matched for age and severity of dementia. The present study is the first attempt to evaluate the meaning of Aβ peptide patterns in CSF for differential diagnosis of the three neurodegenerative diseases—Alzheimers disease, DLB and PDD. The Aβ peptide patterns displayed disease-specific variations and the ratio of the differentially altered Aβ1–42 to the Aβ1–37 levels subsequently discriminated all diagnostic groups from each other at a highly significant level, except DLB from PDD. Additionally, a novel peptide with Aβ-like immunoreactivity was observed constantly in the CSF of all 88 investigated patients. The pronounced percentage increase of this peptide in DLB allowed a highly significant discrimination from PDD. Using a cut-off point of 0.954%, this marker yielded a diagnostic sensitivity and specificity of 81 and 71%, respectively. From several lines of indication, we consider this peptide to represent an oxidized α-helical form of Aβ1–40 (Aβ1–40*). The increased abundance of Aβ1–40* probably reflects a disease-specific alteration of the Aβ1–40 metabolism in DLB. We conclude that Aβ peptide patterns reflect disease-specific pathophysiological pathways of different dementia syndromes as distinct neurochemical phenotypes. Although Aβ peptide patterns failed to fulfil the requirements for a sole biomarker, their combined evaluation with other biomarkers is promising in neurochemical dementia diagnosis. It is noteworthy that DLB and PDD exhibit distinct clinical temporal courses, despite their similar neuropathological appearance. Their distinct molecular phenotypes support the view of different pathophysiological pathways for each of these neurodegenerative diseases.
Developmental Brain Research | 2000
Gunther H Moll; Claas Mehnert; Maike Wicker; Nathalie Bock; Aribert Rothenberger; Eckart Rüther; Gerald Huether
The binding parameters of highly selective ligands of serotonin (5-HT) transporters ([3H]paroxetine), noradrenaline (NE) transporters ([3H]nisoxetine), and of dopamine (DA) transporters ([3H]GBR-12935) were determined on membrane preparations from frontal cortex, striatum, midbrain and brain stem of Wistar rats on postnatal days 25, 50, 90 and 240, i.e., from the time of weaning till late adulthood. No age-dependent alterations in the affinity-parameters (K(D)-values) of all three monoamine transporters were observed. Age-associated changes in B(max)-values of the binding of all three specific ligands were most pronounced in the phylogenetically younger, late maturing brain regions (frontal cortex, striatum). Most likely, these changes reflect age-related changes in 5-HT, NE and DA-innervation densities. In the frontal cortex, 5-HT-transporter density increased steadily from weaning (day 25) till late adulthood, whereas the density of NE-transporters was highest at weaning, declined till puberty (day 50) and remained at this level until old age. DA-transporter density in the frontal cortex was not reliably measurable by [3H]GBR-binding assays. In the striatum, DA-transporter density increased till puberty and declined thereafter considerably and steadily to about one-fourth of the pubertal values at old age. No such age-associated changes in DA-transporter density were seen in the midbrain. Densities of 5-HT and NE remained at the level reached already at weaning until old age in the striatum, midbrain and brain stem. These findings provide the first comprehensive description of the normally occurring changes in the densities of all three presynaptically located monoamine transporters in the rat brain throughout the life span from weaning to late adulthood.
Journal of Child and Adolescent Psychopharmacology | 2001
Gunther H. Moll; Sharmila Hause; Eckart Rüther; Aribert Rothenberger; Gerald Huether
Methylphenidate is widely and effectively used for the treatment of attention deficit hyperactivity disorder during early childhood and adolescence, but until now possible effects of this treatment on brain development and the maturation of monoaminergic systems have not been investigated systematically. This experimental animal study describes the effects of methylphenidate administration (2 mg/kg/day) for 2 weeks to very young (prepubertal) and somewhat older (postpubertal) rats on the densities of dopamine, serotonin, and norepinephrine transporters in the striatum and in the midbrain. As shown by ligand-binding-assays, the K(D) values of all three transporters were unaffected by this treatment. No alterations were found for the Bmax values of [3H]-paroxetine and [3H]-nisoxetine binding, but the density of dopamine transporters (Bmax values of [3H]-GBR binding) in the striatum (but not in the midbrain) was significantly reduced after early methylphenidate administration (by 25% at day 45), and this decline reached almost 50% at adulthood (day 70), that is, long after termination of the treatment. This is the first empirical demonstration of long-lasting changes in the development of the central dopaminergic system caused by the administration of methylphenidate during early juvenile life.
Journal of Pineal Research | 1995
G. Hajak; Andrea Rodenbeck; J. Staedt; Borwin Bandelow; Gerald Huether; Eckart Rüther
Abstract: Polysomnographic sleep patterns and melatonin secretion were investigated in 10 patients (age: 41.3 ± 9.5 years) who suffered from chronic primary insomnia and complained predominantly about difficulties in maintaining sleep and in five healthy controls (age 27.2 ± 0.7 years). Nocturnal plasma melatonin concentrations were obtained hourly, measured by direct radioimmunoassay and statistically compared between insomniacs and controls with age as a covariate. Plasma melatonin levels in the patient group tended to begin increasing earlier in the evening and were significantly (P ± 0.01) lower during the middle of the night (peak value 82.5 ± 26.5 pg/ml) than in the healthy controls (peak value 116.8 ± 13.5 pg/ml). Among the patients, the most severely reduced nocturnal plasma melatonin levels were found in those patients with a history of sleep disturbance lasting for longer than five years (N = 6; age 41.8 ± 11.7 years; duration 15.3 ± 5.9 years; peak value 72.1 ± 25.0 pg/ml); whereas those chronic insomniacs affected for fewer than five years had relatively higher nocturnal levels (N = 4; age 40.6 ± 6.5 years; duration 3.8 ± 1.5 years; peak value 98.2 ± 23.9 pg/ml). These results show that the circadian rhythm of melatonin secretion is disturbed in patients with chronic primary insomnia, and that the nocturnal plasma melatonin secretion is increasingly more affected the longer the patients are unable to maintain a regular sleep pattern.
World Journal of Biological Psychiatry | 2007
Borwin Bandelow; Ulrich Seidler-Brandler; Andreas Becker; Dirk Wedekind; Eckart Rüther
Background. A number of meta-analyses have led to contradictory results regarding the efficacy of the psychological and pharmacological treatment of anxiety disorders. The main reasons for these inconsistent results seem to be the inclusion of heterogeneous studies and influences of selection biases. We performed a meta-analysis, which only included studies using a direct comparison of pharmacological, psychological, or combined treatments. Method. Sixteen studies on panic disorder, six studies on social anxiety disorder, and two studies on generalized anxiety disorder have been analyzed. Effect sizes for differences between the different treatment modalities were calculated. Also, the effect sizes of the pre–post differences were calculated. Results. Pharmacological treatment, cognitive-behavioural treatment, and the combination of both treatment modalities all led to substantial improvement between pre- and post-treatment. Combined pharmacological and psychological treatment was superior to the monotherapies for panic disorder. For social anxiety disorder, there is only preliminary support for combined treatment. Due to lack of sufficient data, no final conclusions can be drawn for generalized anxiety disorder. Conclusions. While drug treatment and CBT showed equal efficacy, only in panic disorder the combination of pharmacological and psychological treatment was superior to either treatment alone. For the other anxiety disorders, the evidence for greater efficacy of combination treatment is still not sufficient due to lack of studies.
Brain | 2015
Stephanie J.B. Vos; Frans R.J. Verhey; Lutz Frölich; Johannes Kornhuber; Jens Wiltfang; Wolfgang Maier; Oliver Peters; Eckart Rüther; Flavio Nobili; Silvia Morbelli; Giovanni B. Frisoni; Alexander Drzezga; Mira Didic; Bart N.M. van Berckel; Andrew Simmons; Hilkka Soininen; Iwona Kloszewska; Patrizia Mecocci; Magda Tsolaki; Bruno Vellas; Simon Lovestone; Cristina Muscio; Sanna Kaisa Herukka; Eric Salmon; Christine Bastin; Anders Wallin; Arto Nordlund; Alexandre de Mendonça; Dina Silva; Isabel Santana
Three sets of research criteria are available for diagnosis of Alzheimers disease in subjects with mild cognitive impairment: the International Working Group-1, International Working Group-2, and National Institute of Aging-Alzheimer Association criteria. We compared the prevalence and prognosis of Alzheimers disease at the mild cognitive impairment stage according to these criteria. Subjects with mild cognitive impairment (n = 1607), 766 of whom had both amyloid and neuronal injury markers, were recruited from 13 cohorts. We used cognitive test performance and available biomarkers to classify subjects as prodromal Alzheimers disease according to International Working Group-1 and International Working Group-2 criteria and in the high Alzheimers disease likelihood group, conflicting biomarker groups (isolated amyloid pathology or suspected non-Alzheimer pathophysiology), and low Alzheimers disease likelihood group according to the National Institute of Ageing-Alzheimer Association criteria. Outcome measures were the proportion of subjects with Alzheimers disease at the mild cognitive impairment stage and progression to Alzheimers disease-type dementia. We performed survival analyses using Cox proportional hazards models. According to the International Working Group-1 criteria, 850 (53%) subjects had prodromal Alzheimers disease. Their 3-year progression rate to Alzheimers disease-type dementia was 50% compared to 21% for subjects without prodromal Alzheimers disease. According to the International Working Group-2 criteria, 308 (40%) subjects had prodromal Alzheimers disease. Their 3-year progression rate to Alzheimers disease-type dementia was 61% compared to 22% for subjects without prodromal Alzheimers disease. According to the National Institute of Ageing-Alzheimer Association criteria, 353 (46%) subjects were in the high Alzheimers disease likelihood group, 49 (6%) in the isolated amyloid pathology group, 220 (29%) in the suspected non-Alzheimer pathophysiology group, and 144 (19%) in the low Alzheimers disease likelihood group. The 3-year progression rate to Alzheimers disease-type dementia was 59% in the high Alzheimers disease likelihood group, 22% in the isolated amyloid pathology group, 24% in the suspected non-Alzheimer pathophysiology group, and 5% in the low Alzheimers disease likelihood group. Our findings support the use of the proposed research criteria to identify Alzheimers disease at the mild cognitive impairment stage. In clinical settings, the use of both amyloid and neuronal injury markers as proposed by the National Institute of Ageing-Alzheimer Association criteria offers the most accurate prognosis. For clinical trials, selection of subjects in the National Institute of Ageing-Alzheimer Association high Alzheimers disease likelihood group or the International Working Group-2 prodromal Alzheimers disease group could be considered.
Psychopharmacology | 1989
Renate Grohmann; Eckart Rüther; N. Sassim; Lutz G. Schmidt
Adverse effects related to clozapine were assessed within a post-marketing drug surveillance program, the AMÜP study, in two university psychiatric departments. In a randomly selected sample of patients (intensive drug monitoring) ADRs of any type were observed in 76% of clozapine-treated inpatients. Sedation, hypersalivation, increase in transaminases, and EEG changes were most frequently observed, but only rarely required changes in therapy. In 8.1% of 959 patients exposed to clozapine in the total inpatient population of the participating hospitals ADR led to withdrawal of clozapine; in 3.9% reactions judged as severe and potentially life-threatening occurred. Among these latter toxic delirium prevailed. In addition, four cases of severe cardiovascular and respiratory dysregulation were observed with the combination of clozapine and benzodiazepines. These cases and one case of sudden death under clozapine and haloperidol treatment are presented in some detail. The results obtained for clozapine are compared to data from this drug surveillance program for other neuroleptics.
Journal of Sleep Research | 2004
Roumen Kirov; Joerg Kinkelbur; Susanne Heipke; Tatiana Kostanecka-Endress; Moritz Westhoff; Stefan Cohrs; Eckart Rüther; Göran Hajak; Tobias Banaschewski; Aribert Rothenberger
The aim of the study was to characterize the sleep pattern in children with attention deficit/hyperactivity disorder (ADHD). By means of polysomnography (PSG), sleep patterns were studied in 17 unmedicated preadolescent boys rigorously diagnosed with ADHD and 17 control boys precisely matched for age and intelligence. Although ADHD children did not display a general sleep alteration, major PSG data showed a significant increase in the duration of the absolute rapid eye movement (REM) sleep and the number of sleep cycles in ADHD group when compared with controls. In addition, REM sleep latency tended to be shorter in ADHD children. These results suggest that in ADHD children, a forced REM sleep initiation may produce a higher incidence of sleep cycles and may also contribute to an increased duration of the absolute REM sleep. The overall pattern of the findings implies that a forced ultradian cycling appears characteristic for the sleep in ADHD children, which may be related to alterations of brain monoamines and cortical inhibitory control accompanying the ADHD psychopathology.