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301. Involvement of PPARγ in Human Trophoblast Invasion.

Author

Fournier, T., Handschuh, K., Tsatsaris, V., and Evain-Brion, D.

Subjects
TROPHOBLAST, PEROXISOMES, PLACENTA, CELL proliferation, CELLS
Abstract

Abstract: The peroxisome proliferator-activated receptor-γ (PPARγ) is a member of the nuclear receptor superfamily that controls the expression of a large array of genes in a ligand-dependent manner. In the human placenta, PPARγ is specifically expressed in the villous cytotrophoblast and syncytiotrophoblast as well as in the extravillous cytotrophoblastic cells (EVCT) along their invasive pathway. The present study used two cellular models, primary cultures of trophoblastic cells differentiated in vitro in extravillous trophoblastic cells and a cell line (HIPEC65), which was established from a primary culture of EVCT transformed by T-SV40. We observed that natural (15d-PGJ2) or synthetic ligands of PPARγ (rosiglitazone) inhibit cell invasion in a concentration-dependent manner, with no effect on cell proliferation. This is associated with a modulation of the expression of trophoblastic genes described to be directly involved in the control of EVCT invasiveness, such as GH-V (−20%), TGFβ2 (−30%), PAPP-A (−60%) and IL1β (+300%.). In order to identify PPARγ potential ligands at the fetomaternal interface, we purified LDL (low density lipoprotein) from human sera and oxidized them in vitro in the presence of copper. OxLDL inhibit in vitro extravillous trophoblast cell invasion, whereas native LDL have no effect. In situ OxLDL and their LOX-1 receptor, as well as PPARγ are immunodetected in trophoblasts at the maternofetal interface. [Copyright &y& Elsevier]

Published
2007
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304. NAFTA renegotiation must be to strengthen US manufacturing competitiveness.

Author

Handschuh, Steve and Lusk, Cody

Subjects
AUTOMOBILE industry, NORTH American Free Trade Agreement, RENEGOTIATION of government contracts, ECONOMICS
Abstract

The article discusses the positive impacts of the North American Free Trade Agreement (NAFTA) on the automotive industry in U.S. and states the necessity for the NAFTA renegotiation to strengthen the manufacturing competitiveness of the industry.

Published
2017

316. ChemInform Abstract: Superposition of Three‐Dimensional Chemical Structures Allowing for Conformational Flexibility by a Hybrid Method

Author

HANDSCHUH, S., WAGENER, M., and GASTEINER, J.

Abstract

ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a “Full Text” option. The original article is trackable via the “References” option.

Published
1998
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317. Beneficial effects of L-NMMA in hyperdynamic endotoxic sepsis?

Author

Santak, B, Handschuh, T, Adler, J, Iber, T, Vassilev, D, Georgieff, M, and Radermacher, P

Abstract

Conclusion Despite restoration of global hemodynamics, there was no beneficial effect of NO inhibition on the parameters of regional perfusion and oxygenation. Similar to septic mice, L-NMMA attenuated vascular leakage as suggested by significantly reduced formation of ascites.

Published
1996
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320. My office was damaged. Here's what to do when catastrophe strikes.

Author

Handschuh, Ira

Subjects
EMERGENCY preparedness in business, EMERGENCY management, DISASTERS, BUSINESS insurance, BUSINESS income insurance, REPLACEMENT of industrial equipment
Abstract

The article presents suggestions on how to prepare for business interruptions brought by catastrophes. It stresses that people should ensure that their insurance information and document are kept in an off-site location. It notes that business interruption coverage guarantees that people are compensated while their businesses are undergoing rebuilding processes. It adds that a replacement value coverage allows damaged equipment to be replaced.

Published
2007

323. Gender Dysphoria and Sexual Euphoria: A Bayesian Perspective on the Influence of Gender-Affirming Hormone Therapy on Sexual Arousal.

Author

Klöbl M, Reed MB, Handschuh P, Kaufmann U, Konadu ME, Ritter V, Spurny-Dworak B, Kranz GS, Lanzenberger R, and Spies M

Subjects
Humans, Male, Female, Adult, Sexual Behavior drug effects, Sexual Behavior psychology, Young Adult, Ventral Striatum drug effects, Ventral Striatum diagnostic imaging, Bayes Theorem, Gender Dysphoria psychology, Gender Dysphoria drug therapy, Sexual Arousal, Transgender Persons psychology, Magnetic Resonance Imaging
Abstract

Self-reported sexual orientation of transgender individuals occasionally changes over transition. Using functional magnetic resonance imaging, we tested the hypothesis that neural and behavioral patterns of sexual arousal in transgender individuals would shift from the assigned to the experienced gender (e.g., trans women's responses becoming more dissimilar to those of cis men and more similar to those of cis women). To this aim, trans women (N = 12) and trans men (N = 20) as well as cisgender women (N = 24) and cisgender men (N = 14) rated visual stimuli showing male-female, female-female or male-male intercourse for sexual arousal before and after four months of gender-affirming hormone therapy. A Bayesian framework allowed us to incorporate previous behavioral findings. The hypothesized changes could indeed be observed in the behavioral responses with the strongest results for trans men and female-female scenes. Activation of the ventral striatum supported our hypothesis only for female-female scenes in trans women. The respective application or depletion of androgens in trans men and trans women might partly explain this observation. The prominent role of female-female stimuli might be based on the differential responses they elicit in cis women and men or, in theory, the controversial concept of autogynephilia. We show that correlates of sexual arousal in transgender individuals might change in the direction of the experienced gender. Future investigations should elucidate the mechanistic role of sex hormones and the cause of the differential neural and behavioral findings.The study was registered at ClinicalTrials.gov (NCT02715232), March 22, 2016., (© 2024. The Author(s).)

Published
2024
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324. The influence of season on glutamate and GABA levels in the healthy human brain investigated by magnetic resonance spectroscopy imaging.

Author

Spurny-Dworak B, Reed MB, Handschuh P, Vanicek T, Spies M, Bogner W, and Lanzenberger R

Subjects
Humans, Magnetic Resonance Spectroscopy methods, Seasons, Magnetic Resonance Imaging methods, Brain diagnostic imaging, gamma-Aminobutyric Acid analysis, Neurotransmitter Agents, Receptors, Antigen, T-Cell, Glutamic Acid, Glutamine
Abstract

Seasonal changes in neurotransmitter systems have been demonstrated in imaging studies and are especially noticeable in diseased states such as seasonal affective disorder (SAD). These modulatory neurotransmitters, such as serotonin, are influencing glutamatergic and GABAergic neurotransmission. Furthermore, central components of the circadian pacemaker are regulated by GABA (the suprachiasmatic nucleus) or glutamate (e.g., the retinohypothalamic tract). Therefore, we explored seasonal differences in the GABAergic and glutamatergic system in 159 healthy individuals using magnetic resonance spectroscopy imaging with a GABA-edited 3D-MEGA-LASER sequence at 3T. We quantified GABA+/tCr, GABA+/Glx, and Glx/tCr ratios (GABA+, GABA+ macromolecules; Glx, glutamate + glutamine; tCr, total creatine) in five different subcortical brain regions. Differences between time periods throughout the year, seasonal patterns, and stationarity were tested using ANCOVA models, curve fitting approaches, and unit root and stationarity tests, respectively. Finally, Spearman correlation analyses between neurotransmitter ratios within each brain region and cumulated daylight and global radiation were performed. No seasonal or monthly differences, seasonal patterns, nor significant correlations could be shown in any region or ratio. Unit root and stationarity tests showed stable patterns of GABA+/tCr, GABA+/Glx, and Glx/tCr levels throughout the year, except for hippocampal Glx/tCr. Our results indicate that neurotransmitter levels of glutamate and GABA in healthy individuals are stable throughout the year. Hence, despite the important correction for age and gender in the analyses of MRS derived GABA and glutamate, a correction for seasonality in future studies does not seem necessary. Future investigations in SAD and other psychiatric patients will be of high interest., (© 2023 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2023
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325. Biodistribution and dosimetry of the GluN2B-specific NMDA receptor PET radioligand (R)-[ 11 C]Me-NB1.

Author

Rischka L, Murgaš M, Pichler V, Vraka C, Rausch I, Winkler D, Nics L, Rasul S, Silberbauer LR, Reed MB, Godbersen GM, Unterholzner J, Handschuh P, Gryglewski G, Mindt T, Mitterhauser M, Hahn A, Ametamey SM, Wadsak W, Lanzenberger R, and Hacker M

Abstract

Background: The NMDA receptor (NMDAR) plays a key role in the central nervous system, e.g., for synaptic transmission. While synaptic NMDARs are thought to have protective characteristics, activation of extrasynaptic NMDARs might trigger excitotoxic processes linked to neuropsychiatric disorders. Since extrasynaptic NMDARs are typically GluN2B-enriched, the subunit is an interesting target for drug development and treatment monitoring. Recently, the novel GluN2B-specific PET radioligand (R)-[ 11 C]Me-NB1 was investigated in rodents and for the first time successfully translated to humans. To assess whether (R)-[ 11 C]Me-NB1 is a valuable radioligand for (repeated) clinical applications, we evaluated its safety, biodistribution and dosimetry., Methods: Four healthy subjects (two females, two males) underwent one whole-body PET/MR measurement lasting for more than 120 min. The GluN2B-specific radioligand (R)-[ 11 C]Me-NB1 was administered simultaneously with the PET start. Subjects were measured in nine passes and six bed positions from head to mid-thigh. Regions of interest was anatomically defined for the brain, thyroid, lungs, heart wall, spleen, stomach contents, pancreas, liver, kidneys, bone marrow and urinary bladder contents, using both PET and MR images. Time-integrated activity coefficients were estimated to calculate organ equivalent dose coefficients and the effective dose coefficient. Additionally, standardized uptake values (SUV) were computed to visualize the biodistribution., Results: Administration of the radioligand was safe without adverse events. The organs with the highest uptake were the urinary bladder, spleen and pancreas. Organ equivalent dose coefficients were higher in female in almost all organs, except for the urinary bladder of male. The effective dose coefficient was 6.0 µSv/MBq., Conclusion: The GluN2B-specific radioligand (R)-[ 11 C]Me-NB1 was well-tolerated without reported side effects. Effective dose was estimated to 1.8 mSv when using 300 MBq of presented radioligand. The critical organ was the urinary bladder. Due to the low effective dose coefficient of this radioligand, longitudinal studies for drug development and treatment monitoring of neuropsychiatric disorders including neurodegenerative diseases are possible. Trial registration Registered on 11th of June 2019 at https://www.basg.gv.at (EudraCT: 2018-002933-39)., (© 2022. The Author(s).)

Published
2022
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326. First-in-Humans Brain PET Imaging of the GluN2B-Containing N -methyl-d-aspartate Receptor with ( R )- 11 C-Me-NB1.

Author

Rischka L, Vraka C, Pichler V, Rasul S, Nics L, Gryglewski G, Handschuh P, Murgaš M, Godbersen GM, Silberbauer LR, Unterholzner J, Wotawa C, Haider A, Ahmed H, Schibli R, Mindt T, Mitterhauser M, Wadsak W, Hahn A, Lanzenberger R, Hacker M, and Ametamey SM

Subjects
Aspartic Acid metabolism, Benzazepines, Brain diagnostic imaging, Brain metabolism, Humans, Male, Positron-Emission Tomography methods, Reproducibility of Results, Tomography, X-Ray Computed, Alzheimer Disease metabolism, Receptors, N-Methyl-D-Aspartate metabolism
Abstract

The N -methyl-d-aspartate receptor (NMDAR) plays a crucial role in neurodegenerative diseases such as Alzheimer disease and in the treatment of major depression by fast-acting antidepressants such as ketamine. Given their broad implications, GluN2B-containing NMDARs have been of interest as diagnostic and therapeutic targets. Recently, ( R )- 11 C-Me-NB1 was investigated preclinically and shown to be a promising radioligand for imaging GluN2B subunits. Here, we report on the performance characteristics of this radioligand in a first-in-humans PET study. Methods: Six healthy male subjects were scanned twice on a fully integrated PET/MR scanner with ( R )- 11 C-Me-NB1 for 120 min. Brain uptake and tracer distribution over time were investigated by SUVs. Test-retest reliability was assessed with the absolute percentage difference and the coefficient of variation. Exploratory total volumes of distribution (V T ) were computed using an arterial input function and the Logan plot as well as a constrained 2-tissue-compartment model with the ratio of rate constants between plasma and tissue compartments ( K 1 / k 2 ) coupled (2TCM). SUV was correlated with V T to investigate its potential as a surrogate marker of GluN2B expression. Results: High and heterogeneous radioligand uptake was observed across the entire gray matter with reversible kinetics within the scan time. SUV absolute percentage difference ranged from 6.9% to 8.5% and coefficient of variation from 4.9% to 6.0%, indicating a high test-retest reliability. A moderate correlation was found between SUV averaged from 70 to 90 min and V T using Logan plot (Spearman ρ = 0.44). Correlation between V T Logan and 2TCM was r = 0.76. Conclusion: The radioligand ( R )- 11 C-Me-NB1 was highly effective in mapping GluN2B-enriched NMDARs in the human brain. With a heterogeneous uptake and a high test-retest reliability, this radioligand offers promise to deepen our understanding of the GluN2B-containing NMDAR in the pathophysiology and treatment of neuropsychiatric disease such as Alzheimer disease and major depression. Additionally, it could help in the selection of appropriate doses of GluN2B-targeting drugs., (© 2022 by the Society of Nuclear Medicine and Molecular Imaging.)

Published
2022
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327. Effects of sex hormones on brain GABA and glutamate levels in a cis- and transgender cohort.

Author

Spurny-Dworak B, Handschuh P, Spies M, Kaufmann U, Seiger R, Klöbl M, Konadu ME, Reed MB, Ritter V, Baldinger-Melich P, Bogner W, Kranz GS, and Lanzenberger R

Subjects
Brain pathology, Female, Gender Identity, Gonadal Steroid Hormones, Humans, Male, Neurotransmitter Agents, Receptors, Antigen, T-Cell, Testosterone, gamma-Aminobutyric Acid, Glutamic Acid, Transgender Persons
Abstract

Sex hormones affect the GABAergic and glutamatergic neurotransmitter system as demonstrated in animal studies. However, human research has mostly been correlational in nature. Here, we aimed at substantiating causal interpretations of the interaction between sex hormones and neurotransmitter function by using magnetic resonance spectroscopy imaging (MRSI) to study the effect of gender-affirming hormone treatment (GHT) in transgender individuals. Fifteen trans men (TM) with a DSM-5 diagnosis of gender dysphoria, undergoing GHT, and 15 age-matched cisgender women (CW), receiving no therapy, underwent MRSI before and after at least 12 weeks. Additionally, sex differences in neurotransmitter levels were evaluated in an independent sample of 80 cisgender men and 79 cisgender women. Mean GABA+ (combination of GABA and macromolecules) and Glx (combination of glutamate and glutamine) ratios to total creatine (GABA+/tCr, Glx/tCr) were calculated in five predefined regions-of-interest (hippocampus, insula, pallidum, putamen and thalamus). Linear mixed models analysis revealed a significant measurement by gender identity effect (p corr. = 0.048) for GABA+/tCr ratios in the hippocampus, with the TM cohort showing decreased GABA+/tCr levels after GHT compared to CW. Moreover, analysis of covariance showed a significant sex difference in insula GABA+/tCr ratios (p corr. = 0.049), indicating elevated GABA levels in cisgender women compared to cisgender men. Our study demonstrates GHT treatment-induced GABA+/tCr reductions in the hippocampus, indicating hormone receptor activation on GABAergic cells and testosterone-induced neuroplastic processes within the hippocampus. Moreover, elevated GABA levels in the female compared to the male insula highlight the importance of including sex as factor in future MRS studies. DATA AVAILABILITY STATEMENT: Due to data protection laws processed data is available from the authors upon reasonable request. Please contact rupert.lanzenberger@meduniwien.ac.at with any questions or requests., (Copyright © 2022. Published by Elsevier Ltd.)

Published
2022
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328. Escitalopram modulates learning content-specific neuroplasticity of functional brain networks.

Author

Klöbl M, Seiger R, Vanicek T, Handschuh P, Reed MB, Spurny-Dworak B, Ritter V, Godbersen GM, Gryglewski G, Kraus C, Hahn A, and Lanzenberger R

Subjects
Adult, Austria, Double-Blind Method, Emotions drug effects, Female, Healthy Volunteers, Humans, Image Processing, Computer-Assisted, Longitudinal Studies, Male, Mental Recall drug effects, Models, Statistical, Escitalopram pharmacology, Learning drug effects, Magnetic Resonance Imaging methods, Neuronal Plasticity drug effects, Selective Serotonin Reuptake Inhibitors pharmacology
Abstract

Learning-induced neuroplastic changes, further modulated by content and setting, are mirrored in brain functional connectivity (FC). In animal models, selective serotonin reuptake inhibitors (SSRIs) have been shown to facilitate neuroplasticity. This is especially prominent during emotional relearning, such as fear extinction, which may translate to clinical improvements in patients. To investigate a comparable modulation of neuroplasticity in humans, 99 healthy subjects underwent three weeks of emotional (matching faces) or non-emotional learning (matching Chinese characters to unrelated German nouns). Shuffled pairings of the original content were subsequently relearned for the same time. During relearning, subjects received either a daily dose of the SSRI escitalopram or placebo. Resting-state functional magnetic resonance imaging was performed before and after the (re-)learning phases. FC changes in a network comprising Broca's area, the medial prefrontal cortex, the right inferior temporal and left lingual gyrus were modulated by escitalopram intake. More specifically, it increased the bidirectional connectivity between medial prefrontal cortex and lingual gyrus for non-emotional and the connectivity from medial prefrontal cortex to Broca's area for emotional relearning. The context dependence of these effects together with behavioral correlations supports the assumption that SSRIs in clinical practice improve neuroplasticity rather than psychiatric symptoms per se. Beyond expanding the complexities of learning, these findings emphasize the influence of external factors on human neuroplasticity., Competing Interests: Declaration of competing interest There is no conflict of interest to declare with relevance to this work. R. Lanzenberger received travel grants and/or conference speaker honoraria within the last three years from Bruker BioSpin MR, Heel, and support from Siemens Healthcare regarding clinical research using PET/MR. He is a shareholder of the start-up company BM Health GmbH since 2019., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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329. Comparison and Reliability of Hippocampal Subfield Segmentations Within FreeSurfer Utilizing T1- and T2-Weighted Multispectral MRI Data.

Author

Seiger R, Hammerle FP, Godbersen GM, Reed MB, Spurny-Dworak B, Handschuh P, Klöbl M, Unterholzner J, Gryglewski G, Vanicek T, and Lanzenberger R

Abstract

The accurate segmentation of in vivo magnetic resonance imaging (MRI) data is a crucial prerequisite for the reliable assessment of disease progression, patient stratification or the establishment of putative imaging biomarkers. This is especially important for the hippocampal formation, a brain area involved in memory formation and often affected by neurodegenerative or psychiatric diseases. FreeSurfer, a widely used automated segmentation software, offers hippocampal subfield delineation with multiple input options. While a single T1-weighted (T1) sequence is regularly used by most studies, it is also possible and advised to use a high-resolution T2-weighted (T2H) sequence or multispectral information. In this investigation it was determined whether there are differences in volume estimations depending on the input images and which combination of these deliver the most reliable results in each hippocampal subfield. 41 healthy participants (age = 25.2 years ± 4.2 SD) underwent two structural MRIs at three Tesla (time between scans: 23 days ± 11 SD) using three different structural MRI sequences, to test five different input configurations (T1, T2, T2H, T1 and T2, and T1 and T2H). We compared the different processing pipelines in a cross-sectional manner and assessed reliability using test-retest variability (%TRV) and the dice coefficient. Our analyses showed pronounced significant differences and large effect sizes between the processing pipelines in several subfields, such as the molecular layer (head), CA1 (head), hippocampal fissure, CA3 (head and body), fimbria and CA4 (head). The longitudinal analysis revealed that T1 and multispectral analysis (T1 and T2H) showed overall higher reliability across all subfields than T2H alone. However, the specific subfields had a substantial influence on the performance of segmentation results, regardless of the processing pipeline. Although T1 showed good test-retest metrics, results must be interpreted with caution, as a standard T1 sequence relies heavily on prior information of the atlas and does not take the actual fine structures of the hippocampus into account. For the most accurate segmentation, we advise the use of multispectral information by using a combination of T1 and high-resolution T2-weighted sequences or a T2 high-resolution sequence alone., Competing Interests: With no relevance to this work, RL received travel grants and/or conference speaker honoraria within the last 3 years from Bruker BioSpin MR, Heel, and support from Siemens Healthcare regarding clinical research using PET/MR. RL is a shareholder of the start-up company BM Health GmbH since 2019. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Seiger, Hammerle, Godbersen, Reed, Spurny-Dworak, Handschuh, Klöbl, Unterholzner, Gryglewski, Vanicek and Lanzenberger.)

Published
2021
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330. Neuroplastic effects of a selective serotonin reuptake inhibitor in relearning and retrieval.

Author

Reed MB, Vanicek T, Seiger R, Klöbl M, Spurny B, Handschuh P, Ritter V, Unterholzner J, Godbersen GM, Gryglewski G, Kraus C, Winkler D, Hahn A, and Lanzenberger R

Subjects
Adult, Brain Mapping, Citalopram administration & dosage, Double-Blind Method, Female, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Parietal Lobe diagnostic imaging, Parietal Lobe drug effects, Parietal Lobe physiology, Pattern Recognition, Visual physiology, Selective Serotonin Reuptake Inhibitors administration & dosage, Young Adult, Association Learning drug effects, Cerebral Cortex diagnostic imaging, Cerebral Cortex drug effects, Cerebral Cortex physiology, Citalopram pharmacology, Mental Recall drug effects, Neuronal Plasticity drug effects, Selective Serotonin Reuptake Inhibitors pharmacology
Abstract

Animal studies using selective serotonin reuptake inhibitors (SSRIs) and learning paradigms have demonstrated that serotonin is important for flexibility in executive functions and learning. SSRIs might facilitate relearning through neuroplastic processes and thus exert their clinical effects in psychiatric diseases where cognitive functioning is affected. However, translation of these mechanisms to humans is missing. In this randomized placebo-controlled trial, we assessed functional brain activation during learning and memory retrieval in healthy volunteers performing associative learning tasks aiming to translate facilitated relearning by SSRIs. To this extent, seventy-six participants underwent three MRI scanning sessions: (1) at baseline, (2) after three weeks of daily associative learning and subsequent retrieval (face-matching or Chinese character-noun matching) and (3) after three weeks of relearning under escitalopram (10 mg/day) or placebo. Associative learning and retrieval tasks were performed during each functional MRI (fMRI) session. Statistical modeling was done using a repeated-measures ANOVA, to test for content-by-treatment-by-time interaction effects. During the learning task, a significant substance-by-time interaction was found in the right insula showing a greater deactivation in the SSRI cohort after 21 days of relearning compared to the learning phase. In the retrieval task, there was a significant content-by-time interaction in the left angular gyrus (AG) with an increased activation in face-matching compared to Chinese-character matching for both learning and relearning phases. A further substance-by-time interaction was found in task performance after 21 days of relearning, indicating a greater decrease of performance in the placebo group. Our findings that escitalopram modulate insula activation demonstrates successful translation of relearning as a mechanism of SSRIs in human. Furthermore, we show that the left AG is an active component of correct memory retrieval, which coincides with previous literature. We extend the function of this region by demonstrating its activation is not only stimulus dependent but also time constrained. Finally, we were able to show that escitalopram aids in relearning, irrespective of content., Competing Interests: Declaration of Competing Interest With relevance to this work there is no conflict of interest to declare. R. Lanzenberger received travel grants and/or conference speaker honoraria within the last three years from Bruker BioSpin MR, Heel, and support from Siemens Healthcare regarding clinical research using PET/MR. He is a shareholder of the start-up company BM Health GmbH since 2019., (Copyright © 2021. Published by Elsevier Inc.)

Published
2021
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331. The Influence of Acute SSRI Administration on White Matter Microstructure in Patients Suffering From Major Depressive Disorder and Healthy Controls.

Author

Seiger R, Gryglewski G, Klöbl M, Kautzky A, Godbersen GM, Rischka L, Vanicek T, Hienert M, Unterholzner J, Silberbauer LR, Michenthaler P, Handschuh P, Hahn A, Kasper S, and Lanzenberger R

Subjects
Adult, Depressive Disorder, Major diagnostic imaging, Diffusion Tensor Imaging, Female, Humans, Longitudinal Studies, Male, White Matter diagnostic imaging, Young Adult, Depressive Disorder, Major drug therapy, Selective Serotonin Reuptake Inhibitors pharmacology, White Matter drug effects
Abstract

Background: Selective serotonin reuptake inhibitors (SSRIs) are predominantly prescribed for people suffering from major depressive disorder. These antidepressants exert their effects by blocking the serotonin transporter (SERT), leading to increased levels of serotonin in the synaptic cleft and subsequently to an attenuation of depressive symptoms and elevation in mood. Although long-term studies investigating white matter (WM) alterations after exposure to antidepressant treatment exist, results on the acute effects on the brain's WM microstructure are lacking., Methods: In this interventional longitudinal study, 81 participants were included (33 patients and 48 healthy controls). All participants underwent diffusion weighted imaging on 2 separate days, receiving either citalopram or placebo using a randomized, double-blind, cross-over design. Fractional anisotropy, mean diffusivity, axial diffusivity, and radial diffusivity were calculated within the FMRIB software library and analyzed using tract-based spatial statistics., Results: The repeated-measures ANOVA model revealed significant decreases after SSRI administration in mean diffusivity, axial diffusivity, and radial diffusivity regardless of the group (P < .05, family-wise error [FWE] corrected). Results were predominantly evident in frontal WM regions comprising the anterior corona radiata, corpus callosum, and external capsule and in distinct areas of the frontal blade. No increases in diffusivity were found, and no changes in fractional anisotropy were present., Conclusions: Our investigation provides the first evidence, to our knowledge, that fast WM microstructure adaptations within 1 hour after i.v. SSRI administration precede elevations in mood due to SSRI treatment. These results add a new facet to the complex mode of action of antidepressant therapy. This study was registered at clinicaltrials.gov with the identifier NCT02711215., (© The Author(s) 2021. Published by Oxford University Press on behalf of CINP.)

Published
2021
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332. A Coordinated Multi-study Analysis of the Longitudinal Association Between Handgrip Strength and Cognitive Function in Older Adults.

Author

Zammit AR, Piccinin AM, Duggan EC, Koval A, Clouston S, Robitaille A, Brown CL, Handschuh P, Wu C, Jarry V, Finkel D, Graham RB, Muniz-Terrera G, Praetorius Björk M, Bennett D, Deeg DJ, Johansson B, Katz MJ, Kaye J, Lipton RB, Martin M, Pederson NL, Spiro A, Zimprich D, and Hofer SM

Subjects
Aged, Female, Humans, Intelligence Tests, Longitudinal Studies, Male, Risk Assessment methods, Aging physiology, Aging psychology, Cognition physiology, Cognitive Dysfunction diagnosis, Cognitive Dysfunction physiopathology, Cognitive Dysfunction psychology, Geriatric Assessment methods, Hand Strength
Abstract

Objective: Handgrip strength, an indicator of overall muscle strength, has been found to be associated with slower rate of cognitive decline and decreased risk for cognitive impairment and dementia. However, evaluating the replicability of associations between aging-related changes in physical and cognitive functioning is challenging due to differences in study designs and analytical models. A multiple-study coordinated analysis approach was used to generate new longitudinal results based on comparable construct-level measurements and identical statistical models and to facilitate replication and research synthesis., Methods: We performed coordinated analysis on 9 cohort studies affiliated with the Integrative Analysis of Longitudinal Studies of Aging and Dementia (IALSA) research network. Bivariate linear mixed models were used to examine associations among individual differences in baseline level, rate of change, and occasion-specific variation across grip strength and indicators of cognitive function, including mental status, processing speed, attention and working memory, perceptual reasoning, verbal ability, and learning and memory. Results were summarized using meta-analysis., Results: After adjustment for covariates, we found an overall moderate association between change in grip strength and change in each cognitive domain for both males and females: Average correlation coefficient was 0.55 (95% CI = 0.44-0.56). We also found a high level of heterogeneity in this association across studies., Discussion: Meta-analytic results from nine longitudinal studies showed consistently positive associations between linear rates of change in grip strength and changes in cognitive functioning. Future work will benefit from the examination of individual patterns of change to understand the heterogeneity in rates of aging and health-related changes across physical and cognitive biomarkers., (Published by Oxford University Press on behalf of The Gerontological Society of America 2019.)

Published
2021
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333. The "sugar dilemma".

Author

Noe CR, Handschuh P, Wolfslehner L, Noe CA, Noe-Letschnig M, Soucek-Noe D, and Lanzenberger R

Subjects
Animals, Blood-Brain Barrier metabolism, Brain metabolism, Diabetes Mellitus, Type 2 physiopathology, Glucose metabolism, Humans, Hypoglycemic Agents pharmacology, Insulin metabolism, Insulin Resistance, Blood Glucose metabolism, Diabetes Mellitus, Type 2 therapy, Dietary Sugars metabolism
Abstract

Type 2 diabetes mellitus is characterized by insulin resistance and elevated blood glucose levels. Treatment protocols generally include dietary restriction of sugar, as well as drugs aiming at a reduction of blood glucose, mainly by activating the insulin system or supplementing insulin. This established approach does not take into account the outstanding physiological role of glucose as a key molecule in metabolism. Glucose is crucial to meet the high energy demand of the brain, which depends on it as an exclusive nutrient. Insulin independent glucose transporters GLUT1 import glucose into the brain. Reduction of blood glucose, as in current treatment concepts, may lead to energy deficiency in the brain and consecutively to worsening of - possibly already impaired - neurocognitive function. Reduced cell membrane fluidity of the vascular endothelium of the bloodbrain-barrier (BBB) - due to malnutrition and/or aging - is considered a major factor in pathogenesis of the cerebral metabolic syndrome, which is a key step in neurodegeneration. Under this aspect we suggest a novel approach to prophylaxis and treatment focusing on a sufficient supply of glucose to the brain.

Published
2020
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334. Effect of Ketamine on Limbic GABA and Glutamate: A Human In Vivo Multivoxel Magnetic Resonance Spectroscopy Study.

Author

Silberbauer LR, Spurny B, Handschuh P, Klöbl M, Bednarik P, Reiter B, Ritter V, Trost P, Konadu ME, Windpassinger M, Stimpfl T, Bogner W, Lanzenberger R, and Spies M

Abstract

Introduction: Converging evidence suggests that ketamine elicits antidepressant effects via enhanced neuroplasticity precipitated by a surge of glutamate and modulation of GABA. Magnetic resonance spectroscopic imaging (MRSI) illustrates changes to cerebral glutamate and GABA immediately following ketamine administration during dissociation. However, few studies assess subacute changes in the first hours following application, when ketamine's antidepressant effects emerge. Moreover, ketamine metabolites implicated in its antidepressant effects develop during this timeframe. Thus, this study aimed to investigate subacute changes in cerebral Glx (glutamate + glutamine), GABA and their ratio in seven brain regions central to depressive pathophysiology and treatment., Methods: Twenty-five healthy subjects underwent two multivoxel MRS scans using a spiral encoded, MEGA-edited LASER-localized 3D-MRSI sequence, at baseline and 2 h following intravenous administration of racemic ketamine (0.8 mg/kg bodyweight over 50 min). Ketamine, norketamine and dehydronorketamine plasma levels were determined at routine intervals during and after infusion. Automated region-of-interest (ROI)-based quantification of mean metabolite concentration was used to assess changes in GABA+/total creatine (tCr), Glx/tCr, and GABA+/Glx ratios in the thalamus, hippocampus, insula, putamen, rostral anterior cingulate cortex (ACC), caudal ACC, and posterior cingulate cortex. Effects of ketamine on neurotransmitter levels and association with ketamine- and metabolite plasma levels were tested with repeated measures analyses of variance (rmANOVA) and correlation analyses, respectively., Results: For GABA+/tCr rmANOVA revealed a measurement by region interaction effect (p uncorr < 0.001) and post hoc pairwise comparisons showed a reduction in hippocampal GABA+/tCr after ketamine (p corr = 0.02). For Glx/tCr and GABA+/Glx neither main effects of measurement nor measurement by region interactions were observed (all p uncorr > 0.05). Furthermore, no statistically significant associations between changes in any of the neurotransmitter ratios and plasma levels of ketamine, norketamine, or dehydronorketamine were observed (p corr > 0.05)., Conclusion: This study provides evidence for decreased hippocampal GABA+/tCr ratio 2 h following ketamine administration. As MRS methodology measures total levels of intra- and extracellular GABA, results might indicate drug induced alterations in GABA turnover. Our study in healthy humans suggests that changes in GABA levels, particularly in the hippocampus, should be further assessed for their relevance to ketamine´s antidepressant effects., (Copyright © 2020 Silberbauer, Spurny, Handschuh, Klöbl, Bednarik, Reiter, Ritter, Trost, Konadu, Windpassinger, Stimpfl, Bogner, Lanzenberger and Spies.)

Published
2020
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335. Gender-affirming hormone treatment - A unique approach to study the effects of sex hormones on brain structure and function.

Author

Kranz GS, Zhang BBB, Handschuh P, Ritter V, and Lanzenberger R

Subjects
Adult, Brain diagnostic imaging, Female, Gonadal Steroid Hormones, Humans, Male, Sex Characteristics, Gender Identity, Transgender Persons
Abstract

Investigating the effects of the gender-affirming hormone treatment of transgender people using neuroimaging provides a unique opportunity to study the impact of high dosages of sex hormones on human brain structure and function. This line of research is of relevance from a basic neuroscientific as well as from a psychiatric viewpoint. Prevalence rates, etiopathology, and disease course of many psychiatric disorders exhibit sex differences which are linked to differences in sex hormone levels. Here, we review recent neuroimaging studies from others and our group that investigate the effects of gender-affirming hormone treatment in a longitudinal design utilizing structural and functional magnetic resonance imaging and positron emission tomography. Studies point to a general anabolic and anticatabolic effect of testosterone on grey and white matter structure, whereas estradiol and antiandrogen treatment seems to have partly opposite effects. Moreover, preliminary research indicates that gender-affirming hormone treatment influences serotonergic neurotransmission, a finding that is especially interesting for psychiatry. A clear picture of a hormonal influence on brain activity has yet to emerge. In conclusion, the available evidence reviewed here clearly indicates that sex hormone applications influence brain structure and function in the adult human brain., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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336. Dysfunction of the Blood-Brain Barrier-A Key Step in Neurodegeneration and Dementia.

Author

Noe CR, Noe-Letschnig M, Handschuh P, Noe CA, and Lanzenberger R

Abstract

The vascular endothelium in the brain is an essential part of the blood-brain-barrier (BBB) because of its very tight structure to secure a functional and molecular separation of the brain from the rest of the body and to protect neurons from pathogens and toxins. Impaired transport of metabolites across the BBB due to its increasing dysfunction affects brain health and cognitive functioning, thus providing a starting point of neurodegenerative diseases. The term "cerebral metabolic syndrome" is proposed to highlight the importance of lifestyle factors in neurodegeneration and to describe the impact of increasing BBB dysfunction on neurodegeneration and dementia, especially in elderly patients. If untreated, the cerebral metabolic syndrome may evolve into dementia. Due to the high energy demand of the brain, impaired glucose transport across the BBB via glucose transporters as GLUT1 renders the brain increasingly susceptible to neurodegeneration. Apoptotic processes are further supported by the lack of essential metabolites of the phosphocholine synthesis. In Alzheimer's disease (AD), inflammatory and infectious processes at the BBB increase the dysfunction and might be pace-making events. At this point, the potentially highly relevant role of the thrombocytic amyloid precursor protein (APP) in endothelial inflammation of the BBB is discussed. Chronic inflammatory processes of the BBB transmitted to an increasing number of brain areas might cause a lasting build-up of spreading, pore-forming β-amyloid fragments explaining the dramatic progression of the disease. In the view of the essential requirement of an early diagnosis to investigate and implement causal therapeutic strategies against dementia, brain imaging methods are of great importance. Therefore, status and opportunities in the field of diagnostic imaging of the living human brain will be portrayed, comprising diverse techniques such as positron emissions tomography (PET) and functional magnetic resonance imaging (fMRI) to uncover the patterns of atrophy, protein deposits, hypometabolism, and molecular as well as functional alterations in AD., (Copyright © 2020 Noe, Noe-Letschnig, Handschuh, Noe and Lanzenberger.)

Published
2020
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