Your search keyword '"Neubert J"' showing total 13 results

1. Leitlinien zur antiretroviralen Therapie bei HIV-infizierten Kindern und Jugendlichen

Author

NEUBERT, J., primary, NIEHUES, T., additional, BAUMANN, U., additional, BUCHHOLZ, B., additional, NOTHEIS, G., additional, WINTERGERST, U., additional, BLUME, J., additional, FEITERNA-SPERLING, C., additional, LAWS, H.-J., additional, LINDE, R., additional, and KÖNIGS, C., additional

Published

2015

2. Theoretische Grundlagen und experimentelle Ergebnisse einer neuen Methode der Partialdruckmessung für Vakuumanlagen

Author

Neubert, J, primary

Published

1967

3. Genetic influences on the acquisition and inhibition of fear.

Author

Wendt J, Neubert J, Lindner K, Ernst FD, Homuth G, Weike AI, and Hamm AO

Subjects

Adolescent, Adult, Analysis of Variance, Conditioning, Classical physiology, Cues, Electromyography, Female, Galvanic Skin Response genetics, Genotype, Humans, Male, Photic Stimulation, Promoter Regions, Genetic genetics, Young Adult, Catechol O-Methyltransferase genetics, Fear physiology, Inhibition, Psychological, Polymorphism, Single Nucleotide genetics, Reflex, Startle genetics, Serotonin Plasma Membrane Transport Proteins genetics

Abstract

As a variant of the Pavlovian fear conditioning paradigm the conditional discrimination design allows for a detailed investigation of fear acquisition and fear inhibition. Measuring fear-potentiated startle responses, we investigated the influence of two genetic polymorphisms (5-HTTLPR and COMT Val(158)Met) on fear acquisition and fear inhibition which are considered to be critical mechanisms for the etiology and maintenance of anxiety disorders. 5-HTTLPR s-allele carriers showed a more stable potentiation of the startle response during fear acquisition. Homozygous COMT Met-allele carriers, which had demonstrated delayed extinction in previous investigations, show deficient fear inhibition in presence of a learned safety signal. Thus, our results provide further evidence that 5-HTTLPR and COMT Val(158)Met genotypes influence the vulnerability for the development of anxiety disorders via different mechanisms., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

4. Fear-potentiated startle processing in humans: Parallel fMRI and orbicularis EMG assessment during cue conditioning and extinction.

Author

Lindner K, Neubert J, Pfannmöller J, Lotze M, Hamm AO, and Wendt J

Subjects

Adolescent, Adult, Analysis of Variance, Brain physiology, Conditioning, Classical physiology, Electromyography, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Self Report, Young Adult, Brain blood supply, Cues, Extinction, Psychological physiology, Fear physiology, Galvanic Skin Response physiology, Reflex, Startle physiology

Abstract

Studying neural networks and behavioral indices such as potentiated startle responses during fear conditioning has a long tradition in both animal and human research. However, most of the studies in humans do not link startle potentiation and neural activity during fear acquisition and extinction. Therefore, we examined startle blink responses measured with electromyography (EMG) and brain activity measured with functional MRI simultaneously during differential conditioning. Furthermore, we combined these behavioral fear indices with brain network activity by analyzing the brain activity evoked by the startle probe stimulus presented during conditioned visual threat and safety cues as well as in the absence of visual stimulation. In line with previous research, we found a fear-induced potentiation of the startle blink responses when elicited during a conditioned threat stimulus and a rapid decline of amygdala activity after an initial differentiation of threat and safety cues in early acquisition trials. Increased activation during processing of threat cues was also found in the anterior insula, the anterior cingulate cortex (ACC), and the periaqueductal gray (PAG). More importantly, our results depict an increase of brain activity to probes presented during threatening in comparison to safety cues indicating an involvement of the anterior insula, the ACC, the thalamus, and the PAG in fear-potentiated startle processing during early extinction trials. Our study underlines that parallel assessment of fear-potentiated startle in fMRI paradigms can provide a helpful method to investigate common and distinct processing pathways in humans and animals and, thus, contributes to translational research., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

5. Effects of gravity on early development.

Author

Neubert J, Schatz A, Bromeis B, and Linke-Hommes A

Subjects

Adaptation, Physiological, Animals, Behavior, Animal, Centrifugation, Gravitation, Larva growth & development, Rotation, Xenopus laevis embryology, Hypergravity, Space Flight, Swimming, Weightlessness, Weightlessness Simulation, Xenopus laevis growth & development

Abstract

The development of embryonic and larval stages of the South African Toad Xenopus laevis D, was investigated in hyper-g up to 5 g (centrifuge), in simulated 0 g (fast-rotating clinostat), in alternating low g, hyper-g (parabolic flights) and in microgravity (Spacelab missions D1, D-2). The selected developmental stages are assumed to be very sensitive to environmental stimuli. The results showed that the developmental reaction processes run normal also in environments different to 1 g and that aberrations in behavior and morphology normalize after return to 1 g. Development, differentiation, and morphology of the gravity perceiving parts of the vestibular system (macula-organs) had not been affected by exposure to different g-levels.

Published

1998

6. Early development in aquatic vertebrates in near weightlessness during the D-2 Mission STATEX project.

Author

Neubert J, Schatz A, Briegleb W, Bromeis B, Linke-Hommes A, Rahmann H, Slenzka K, and Horn E

Subjects

Animals, Gravitation, Gravity Sensing physiology, Larva, Motor Activity, Neuronal Plasticity physiology, Notochord abnormalities, Otolithic Membrane growth & development, Otolithic Membrane physiology, Otolithic Membrane ultrastructure, Perches physiology, Rotation, Swimming, Vestibule, Labyrinth growth & development, Vestibule, Labyrinth physiology, Vestibule, Labyrinth ultrastructure, Xenopus laevis abnormalities, Xenopus laevis physiology, Hypergravity, Perches growth & development, Space Flight, Weightlessness, Weightlessness Simulation, Xenopus laevis growth & development

Abstract

Aboard the German-Spacelab-Mission D-2 the project "Gravity Perception and Neuronal Plasticity (STATEX II)" was performed. STATEX is for STATolith EXperiment. Objects were growing tadpoles of the South African Toad (Xenopus laevis D.) and a juvenile cichlid fish (Oreochromis mossambicus). The results give a broader base for the understanding of how environmental stimuli (e.g. linear accelerations) affect the development and function of the gravity perceiving systems in these two vertebrates. These systems are accepted as models for the human vestibulum. Results of experiments in hyper-g (up to 5 g), simulated weightlessness (Fast-rotating-clinostat) and parabolic flights are compared and discussed.

Published

1996

7. Influence of altered gravity on the cytochemical localization of cytochrome oxidase activity in central and peripheral gravisensory systems in developing cichlid fish.

Author

Paulus U, Nindl G, Körtje KH, Slenzka K, Neubert J, and Rahmann H

Subjects

Animals, Centrifugation, Energy Metabolism physiology, Gravitation, Gravity Sensing physiology, Hypergravity, Mitochondria ultrastructure, Perches metabolism, Perches physiology, Rotation, Saccule and Utricle cytology, Saccule and Utricle physiology, Vestibular Nuclei cytology, Vestibular Nuclei physiology, Weightlessness Simulation, Electron Transport Complex IV metabolism, Gravity, Altered, Perches growth & development, Saccule and Utricle enzymology, Space Flight, Vestibular Nuclei enzymology, Weightlessness

Abstract

Cichlid fish larvae were reared from hatching to active free swimming under different gravity conditions: natural environment, increased acceleration in a centrifuge, simulated weightlessness in a clinostat and near weightlessness during space flight. Cytochrome oxidase activity was analyzed semiquantitatively on the ultrastructural level as a marker of regional neuronal activity in a primary, vestibular brainstem nucleus and in gravity receptive epithelia in the inner ear. Our results show, that gravity seems to be positively correlated with cytochrome oxidase activity in the magnocellular nucleus of developing fish brain. In the inner ear the energy metabolism is decreased under microgravity concerning utricle but not saccule. Hypergravity has no effect on cytochrome oxidase activity in sensory inner ear epithelia.

Published

1996

8. Histochemical investigations on the influence of long-term altered gravity on the CNS of developing cichlid fish: results from the 2nd German Spacelab Mission D-2.

Author

Anken RH, Slenzka K, Neubert J, and Rahmann H

Subjects

Animals, Brain cytology, Brain enzymology, Brain ultrastructure, Gravity, Altered, Histocytochemistry, Larva growth & development, Larva metabolism, Larva physiology, Microscopy, Electron, Morphogenesis, Perches growth & development, Perches metabolism, Succinate Dehydrogenase analysis, Swimming, Time Factors, Vestibular Nuclei enzymology, Brain growth & development, Hypergravity, Perches physiology, Space Flight, Succinate Dehydrogenase metabolism, Weightlessness

Abstract

The effect of long-term (10 days) altered gravitational conditions upon succinate dehydrogenase (SDH) reactivity in total brains as well as in individual brain nuclei of developing cichlid fish larvae had been investigated by means of semiquantitative histochemical methods (densitometric grey value analysis). Increasing accelerations from near weightlessness (spaceflight) via 1g controls to 3g hyper gravity (centrifuge) resulted in slightly increasing "all over the brain" (total brain) SDH reactivity. When focusing on distinct neuronal integration centers within the same brains in order to find the anatomical substratum of the gross histochemical data, significant effects of altered gravity only within vestibulum related brain parts were obtained.

Published

1996

9. The reaction of Xenopus laevis Daudin (South African toad) to linear accelerations.

Author

Neubert J, Schatz A, Bromeis B, and Briegleb W

Subjects

Animals, Centrifugation, Gravitation, Gravity Sensing, Hypergravity, Larva growth & development, Larva physiology, Locomotion physiology, Motor Activity physiology, Rotation, Swimming physiology, Vestibule, Labyrinth physiology, Xenopus laevis growth & development, Acceleration, Space Flight, Weightlessness, Weightlessness Simulation, Xenopus laevis physiology

Abstract

Preparing the German Spacelab Mission D-2 project "Gravity Perception and Neuronal Plasticity"--STATEX II--ground based experiments have been performed with larvae of the amphibian vertebrate Xenopus laevis Daud. to study the reactions to different levels of acceleration forces and profiles. The larvae have been exposed to accelerations of up to 5 g for different time periods using a modified laboratory centrifuge and the NIZEMI (Niedergeschwindigkeits-Zentrifugen-Mikroskop) which allows direct observation and video documentation. The results will be discussed and compared with those of the D1-Mission, parabolic flights, and simulated weightlessness.

Published

1994

10. Survey of the vestibulum, and behavior of Xenopus laevis larvae developed during a 7-days space flight.

Author

Briegleb W, Neubert J, Schatz A, Klein T, and Kruse B

Subjects

Animals, Behavior, Animal, Cosmic Radiation, Embryo, Nonmammalian, Larva cytology, Larva growth & development, Larva physiology, Relative Biological Effectiveness, Swimming, Vestibule, Labyrinth embryology, Vestibule, Labyrinth physiology, Vestibule, Labyrinth ultrastructure, Xenopus laevis embryology, Xenopus laevis growth & development, Zygote physiology, Motor Activity physiology, Space Flight, Vestibule, Labyrinth growth & development, Weightlessness, Xenopus laevis physiology

Abstract

Aquatic animals have almost no body weight related proprioception for spatial orientation. Xenopus larvae, like fish, maintain their attitude in water by continuous correction with their fin(s). For these reasons a special performance of the equilibrium system compared to terrestrial animals is necessary. Evidently fish therefore have more compact (dense) otoliths; Xenopus larvae have less dense otolith (membranes) similar to land vertebrates; but their sacculus-otoliths are vertically positioned, which also may lead to a higher g-sensitivity. For plausibility reasons gravity should influence the embryonic development of gravity receptors. Yet, evaluations of photographs taken from the surface of cut deep-frozen objects by incident light show no aberration of the shape of the whole vestibulum and of the shape, density, size and position of the otolith membrane in larvae developed under near-zero g (NEXPA-BW-STATEX in D-1-Mission). The further evaluation of the "weightless-larvae" revealed a probably not yet described statolith-like formation in the dorsal wall of the vestibulum. In the weightless larvae this formation outnumbers, also qualitatively, strongly the l-g controls. An extra result is the lack of striking effects of cosmic radiation on the embryonic development of the flown Xenopus eggs. The swimming behavior of the larvae which was observed about one hour after landing of the Space Shuttle showed a typical anomaly (loop swimming), which is known from larvae developed on the clinostat or from fish flown aboard Apollo capsules.

Published

1986

11. Changes in the microstructure of the vestibular apparatus of tadpoles (Rana temporaria) developed in simulated weightlessness.

Author

Neubert J and Briegleb W

Subjects

Animals, Ear, Inner embryology, Ear, Inner growth & development, Gravitation, Larva, Microscopy, Electron, Otolithic Membrane embryology, Otolithic Membrane growth & development, Otolithic Membrane ultrastructure, Rana temporaria anatomy & histology, Rotation, Vestibule, Labyrinth embryology, Vestibule, Labyrinth growth & development, Ear, Inner ultrastructure, Rana temporaria embryology, Rana temporaria growth & development, Vestibule, Labyrinth ultrastructure, Weightlessness Simulation

Abstract

The vestibular apparatus of tadpoles (Rana temporaria) exposed to simulated weightlessness was examined by electron microscopy. Extended exposure to simulated weightlessness is followed by significant alterations in the sensory epithelia and also in the otolith membrane. Large vacuoles, filled with necrobiotic mitochondria and fragments of endoplasmic reticulum, were concentrated in the region where an otolith membrane covers the hair cells but were mostly absent in zones of the epithelia with undifferentiated cells. The number of otoconia in the otolith membrane was diminished. The results were compared with data from space flight experiments and some concordance was noted. The possible connection between some unusual behavior of the tadpoles after weightlessness simulation and the structural alterations in the gravitational sensors was discussed.

Published

1981

12. Light microscopic analysis of the gravireceptor in Xenopus larvae developed in hypogravity.

Author

Briegleb W, Neubert J, Schatz A, and Kruse B

Subjects

Animals, Calcium Carbonate, Crystallization, Embryo, Nonmammalian, Endolymphatic Sac embryology, Endolymphatic Sac physiology, Gravity Sensing physiology, Larva growth & development, Otolithic Membrane embryology, Otolithic Membrane physiology, Xenopus laevis embryology, Xenopus laevis physiology, Endolymphatic Sac growth & development, Otolithic Membrane growth & development, Space Flight, Weightlessness, Xenopus laevis growth & development

Abstract

The paper describes an investigation of the influence of gravity on the early differentiation of gravity receptors in Xenopus embryos and larvae. There is evidence that the expression of crystals in the saccus endolymphaticus was statistically greater when the embryos developed in near weightlessness (hypogravity) than on earth. The function of these crystals is unknown but they may contribute to the functioning of the vestibular apparatus.

Published

1989

13. Refined intraoperative repositioning of the osteotomized maxilla in relation to the skull and TMJ.

Author

Neubert J, Bitter K, and Somsiri S

Subjects

Cephalometry, Dental Occlusion, Humans, Intraoperative Period, Models, Anatomic, Patient Care Planning, Radiographic Image Interpretation, Computer-Assisted, Dental Articulators, Dental Equipment, Jaw Relation Record, Maxilla surgery, Osteotomy methods, Skull anatomy & histology, Temporomandibular Joint anatomy & histology

Abstract

In dysgnathic patients, who have to be treated by surgical repositioning of the jaws, the necessary bone movements are predicted preoperatively with the help of sophisticated analysis. A high degree of accuracy, could not however be transferred to the patient, because of lack of an operative procedure as accurate as the preplanning. In this paper a face-bow is described, provided with an interocclusal splint that has been adjusted beforehand on an articulator, in a model operation taking into account the skull and TMJ relationship. Using this face-bow-splint combination the possibility of greater accuracy in transferring the preplanned movements to the patient is facilitated. The computerized preplanning, the model operation and the technical procedure as well as the operation itself are described, step by step.

Published

1988