TY - JOUR A1 - Schecklmann, Martin A1 - Giani, Anette A1 - Tupak, Sara A1 - Langguth, Berthold A1 - Raab, Vincent A1 - Polak, Thomas A1 - Varallyay, Csanad A1 - Harnisch, Wilma A1 - Herrmann, Martin J. A1 - Fallgatter, Andreas J. T1 - Functional Near-Infrared Spectroscopy to Probe State- and Trait-Like Conditions in Chronic Tinnitus: A Proof-of-Principle Study JF - Neural Plasticity N2 - Objective. Several neuroscience tools showed the involvement of auditory cortex in chronic tinnitus. In this proof-of-principle study we probed the capability of functional near-infrared spectroscopy (fNIRS) for the measurement of brain oxygenation in auditory cortex in dependence from chronic tinnitus and from intervention with transcranial magnetic stimulation. Methods. Twenty-three patients received continuous theta burst stimulation over the left primary auditory cortex in a randomized sham-controlled neuronavigated trial (verum = 12; placebo = 11). Before and after treatment, sound-evoked brain oxygenation in temporal areas was measured with fNIRS. Brain oxygenation was measured once in healthy controls (n = 12). Results. Sound-evoked activity in right temporal areas was increased in the patients in contrast to healthy controls. Left-sided temporal activity under the stimulated area changed over the course of the trial; high baseline oxygenation was reduced and vice versa. Conclusions. By demonstrating that rTMS interacts with auditory evoked brain activity, our results confirm earlier electrophysiological findings and indicate the sensitivity of fNIRS for detecting rTMS induced changes in brain activity. Moreover, our findings of trait-and state-related oxygenation changes indicate the potential of fNIRS for the investigation of tinnitus pathophysiology and treatment response. KW - transcranial magnetic stimulation KW - positron-emission-tomography KW - auditory cortex KW - FNIRS KW - RTMS KW - neural activity KW - FMRI KW - brain KW - activation KW - humans Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-117801 SN - 1687-5443 IS - 894203 ER - TY - JOUR A1 - Pfeiffer-Guglielmi, Brigitte A1 - Dombert, Benjamin A1 - Jablonka, Sibylle A1 - Hausherr, Vanessa A1 - van Thriel, Christoph A1 - Schobel, Nicole A1 - Jansen, Ralf-Peter T1 - Axonal and dendritic localization of mRNAs for glycogen-metabolizing enzymes in cultured rodent neurons JF - BMC Neuroscience N2 - Background: Localization of mRNAs encoding cytoskeletal or signaling proteins to neuronal processes is known to contribute to axon growth, synaptic differentiation and plasticity. In addition, a still increasing spectrum of mRNAs has been demonstrated to be localized under different conditions and developing stages thus reflecting a highly regulated mechanism and a role of mRNA localization in a broad range of cellular processes. Results: Applying fluorescence in-situ-hybridization with specific riboprobes on cultured neurons and nervous tissue sections, we investigated whether the mRNAs for two metabolic enzymes, namely glycogen synthase (GS) and glycogen phosphorylase (GP), the key enzymes of glycogen metabolism, may also be targeted to neuronal processes. If it were so, this might contribute to clarify the so far enigmatic role of neuronal glycogen. We found that the mRNAs for both enzymes are localized to axonal and dendritic processes in cultured lumbar spinal motoneurons, but not in cultured trigeminal neurons. In cultured cortical neurons which do not store glycogen but nevertheless express glycogen synthase, the GS mRNA is also subject to axonal and dendritic localization. In spinal motoneurons and trigeminal neurons in situ, however, the mRNAs could only be demonstrated in the neuronal somata but not in the nerves. Conclusions: We could demonstrate that the mRNAs for major enzymes of neural energy metabolism can be localized to neuronal processes. The heterogeneous pattern of mRNA localization in different culture types and developmental stages stresses that mRNA localization is a versatile mechanism for the fine-tuning of cellular events. Our findings suggest that mRNA localization for enzymes of glycogen metabolism could allow adaptation to spatial and temporal energy demands in neuronal events like growth, repair and synaptic transmission. KW - glycogen phosphorylase KW - neuronal primary culture KW - energy metabolism KW - nervous system KW - phosphorylase isozymes KW - brain KW - transport KW - protein synthesis KW - glycolysis KW - roles KW - synthase KW - antibodies KW - immunocytochemical analysis KW - glycogen synthase KW - mRNA localization KW - fluorescence in-situ hybridization Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-116049 SN - 1471-2202 VL - 15 IS - 70 ER - TY - JOUR A1 - Blechert, Jens A1 - Meule, Adrian A1 - Busch, Niko A. A1 - Ohla, Kathrin T1 - Food-pics: an image database for experimental research on eating and appetite JF - Frontiers in Psychology N2 - Our current environment is characterized by the omnipresence of food cues. The sight and smell of real foods, but also graphically depictions of appetizing foods, can guide our eating behavior, for example, by eliciting food craving and influencing food choice. The relevance of visual food cues on human information processing has been demonstrated by a growing body of studies employing food images across the disciplines of psychology, medicine, and neuroscience. However, currently used food image sets vary considerably across laboratories and image characteristics (contrast, brightness, etc.) and food composition (calories, macronutrients, etc.) are often unspecified. These factors might have contributed to some of the inconsistencies of this research. To remedy this, we developed food-pics, a picture database comprising 568 food images and 315 non-food images along with detailed meta-data. A total of N = 1988 individuals with large variance in age and weight from German speaking countries and North America provided normative ratings of valence, arousal, palatability, desire to eat, recognizability and visual complexity. Furthermore, data on macronutrients (g), energy density (kcal), and physical image characteristics (color composition, contrast, brightness, size, complexity) are provided. The food-pics image database is freely available under the creative commons license with the hope that the set will facilitate standardization and comparability across studies and advance experimental research on the determinants of eating behavior. Read F KW - food-cues KW - standardized food images KW - ERP KW - image properties KW - anorexia nervosa KW - restrained eaters KW - high calorie KW - brain KW - weight loss KW - visual-attention KW - responses KW - cues KW - reward KW - hunger KW - fMRI KW - eating behavior KW - obesity KW - food pictures Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-115987 SN - 1664-1078 VL - 5 ER - TY - JOUR A1 - Stellamanns, Eric A1 - Uppaluri, Sravanti A1 - Hochstetter, Axel A1 - Heddergott, Niko A1 - Engstler, Markus A1 - Pfohl, Thomas T1 - Optical trapping reveals propulsion forces, power generation and motility efficiency of the unicellular parasites Trypanosoma brucei brucei JF - Scientific Reports N2 - Unicellular parasites have developed sophisticated swimming mechanisms to survive in a wide range of environments. Cell motility of African trypanosomes, parasites responsible for fatal illness in humans and animals, is crucial both in the insect vector and the mammalian host. Using millisecond-scale imaging in a microfluidics platform along with a custom made optical trap, we are able to confine single cells to study trypanosome motility. From the trapping characteristics of the cells, we determine the propulsion force generated by cells with a single flagellum as well as of dividing trypanosomes with two fully developed flagella. Estimates of the dissipative energy and the power generation of single cells obtained from the motility patterns of the trypanosomes within the optical trap indicate that specific motility characteristics, in addition to locomotion, may be required for antibody clearance. Introducing a steerable second optical trap we could further measure the force, which is generated at the flagellar tip. Differences in the cellular structure of the trypanosomes are correlated with the trapping and motility characteristics and in consequence with their propulsion force, dissipative energy and power generation. KW - African Trypanosomes KW - components KW - bacteria KW - brain Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-115348 SN - 2045-2322 VL - 4 IS - 6515 ER -