Your search keyword '"Thiel C"' showing total 6 results

1. Cells´ Flow and Immune Cell Priming under alternating g-forces in Parabolic Flight

Author

Moser, D., Sun, S. J., Li, N., Biere, K., Hoerl, M., Matzel, S., Feuerecker, M., Buchheim, J.-I., Strewe, C., Thiel, C. S., Gao, Y. X., Wang, C. Z., Ullrich, O., Long, M., and Choukèr, A.

Published

2019

2. Effects of Acute Aerobic Exercise on Response Inhibition in Adult Patients with ADHD

Author

Mehren, A., primary, Özyurt, J., additional, Thiel, C. M., additional, Brandes, M., additional, Lam, A. P., additional, and Philipsen, A., additional

Published

2019

3. Myofascial force transmission between the calf and the dorsal thigh is dependent on knee angle: an ultrasound study.

Author

Mohr L, Vogt L, Thiel C, Behringer M, and Wilke J

Subjects

Female, Humans, Cross-Over Studies, Knee Joint diagnostic imaging, Ultrasonography, Thigh, Hamstring Muscles diagnostic imaging

Abstract

A recent in-vivo experiment has shown that force can be transmitted between the gastrocnemius and the hamstring muscles due to a direct tissue continuity. However, it remains unclear if this mechanical interaction is affected by the stiffness of the structural connection. This study therefore aimed to investigate the impact of the knee angle on myofascial force transmission across the dorsal knee. A randomized, cross-over study was performed, including n = 56 healthy participants (25.36 ± 3.9 years, 25 females). On two separate days, they adopted a prone position on an isokinetic dynamometer (knee extended or 60° flexed). In each condition, the device moved the ankle three times from maximal plantarflexion to maximal dorsal extension. Muscle inactivity was ensured using EMG. High-resolution ultrasound videos of the semimembranosus (SM) and the gastrocnemius medialis (GM) soft tissue were recorded. Maximal horizontal tissue displacement, obtained using cross-correlation, was examined as a surrogate of force transmission. SM tissue displacement was higher at extended (4.83 ± 2.04 mm) than at flexed knees (3.81 ± 2.36 mm). Linear regression demonstrated significant associations between (1) SM and GM soft tissue displacement (extended: R 2  = 0.18, p = 0.001; flexed: R 2  = 0.17, p = 0.002) as well as (2) SM soft tissue displacement and ankle range of motion (extended: R 2  = 0.103, p = 0.017; flexed: R 2  = 0.095, p = 0.022). Our results further strengthen the evidence that local stretching induces a force transmission to neighboring muscles. Resulting remote exercise effects such as increased range of motion, seem to depend on the stiffness of the continuity.Trial registration: DRKS (Deutsches Register Klinischer Studien), registration number DRKS00024420, first registered 08/02/2021, https://drks.de/search/de/trial/DRKS00024420 ., (© 2023. The Author(s).)

Published

2023

4. Retrospective analysis of different therapeutic approaches for retroperitoneal duodenal perforations.

Author

Yurttas C, Thiel C, Wichmann D, Horvath P, Strohäker J, Bongers MN, Schenk M, Stüker D, Königsrainer A, and Thiel K

Subjects

Cholangiopancreatography, Endoscopic Retrograde adverse effects, Humans, Retrospective Studies, Treatment Outcome, Duodenal Ulcer complications, Intestinal Perforation etiology, Intestinal Perforation surgery, Peptic Ulcer Perforation complications

Abstract

Surgical therapy of duodenal perforation into the retroperitoneum entails high morbidity. Conservative treatment and endoscopic negative pressure therapy have been suggested as promising therapeutic alternatives. We aimed to retrospectively assess outcomes of patients treated for duodenal perforation to the retroperitoneum at our department. A retrospective analysis of all patients that were treated for duodenal perforation to the retroperitoneum at our institution between 2010 and 2021 was conducted. Different therapeutic approaches with associated complications within 30 days, length of in-hospital stay, number of readmissions and necessity of parenteral nutrition were assessed. We included thirteen patients in our final analysis. Six patients underwent surgery, five patients were treated conservatively and two patients received interventional treatment by endoscopic negative pressure therapy. Length of stay was shorter in patients treated conservatively. One patient following conservative and surgical treatment each was readmitted to hospital within 30 days after initial therapy whereas no readmissions after interventional treatment occurred. There was no failure of therapy in patients treated without surgery whereas four (66.7%) of six patients required revision surgery following primary surgical therapy. Conservative and interventional treatment were associated with fewer complications than surgical therapy which involves high morbidity. Conservative and interventional treatment using endoscopic negative pressure therapy in selected patients might constitute appropriate therapeutic alternatives for duodenal perforations to the retroperitoneum., (© 2022. The Author(s).)

Published

2022

5. ADP-dependent glucokinase regulates energy metabolism via ER-localized glucose sensing.

Author

Imle R, Wang BT, Stützenberger N, Birkenhagen J, Tandon A, Carl M, Himmelreich N, Thiel C, Gröne HJ, Poschet G, Völkers M, Gülow K, Schröder A, Carillo S, Mittermayr S, Bones J, Kamiński MM, Kölker S, and Sauer SW

Subjects

Animals, Cell Death, Endoplasmic Reticulum Stress, Energy Metabolism, Glucose analysis, Humans, Jurkat Cells, Endoplasmic Reticulum metabolism, Glucokinase metabolism, Glucose metabolism, Zebrafish metabolism, Zebrafish Proteins metabolism

Abstract

Modulation of energy metabolism to a highly glycolytic phenotype, i.e. Warburg effect, is a common phenotype of cancer and activated immune cells allowing increased biomass-production for proliferation and cell division. Endoplasmic reticulum (ER)-localized ADP-dependent glucokinase (ADPGK) has been shown to play a critical role in T cell receptor activation-induced remodeling of energy metabolism, however the underlying mechanisms remain unclear. Therefore, we established and characterized in vitro and in vivo models for ADPGK-deficiency using Jurkat T cells and zebrafish. Upon activation, ADPGK knockout Jurkat T cells displayed increased cell death and ER stress. The increase in cell death resulted from a metabolic catastrophe and knockout cells displayed severely disturbed energy metabolism hindering induction of Warburg phenotype. ADPGK knockdown in zebrafish embryos led to short, dorsalized body axis induced by elevated apoptosis. ADPGK hypomorphic zebrafish further displayed dysfunctional glucose metabolism. In both model systems loss of ADPGK function led to defective N- and O-glycosylation. Overall, our data illustrate that ADPGK is part of a glucose sensing system in the ER modulating metabolism via regulation of N- and O-glycosylation.

Published

2019

6. The Conserved Lysine-265 Allosterically Modulates Nucleotide- and Actin-binding Site Coupling in Myosin-2.

Author

Behrens VA, Münnich S, Adler-Gunzelmann G, Thiel C, Henn A, Latham SL, and Taft MH

Subjects

Actins chemistry, Adenosine Diphosphate metabolism, Adenosine Triphosphatases metabolism, Adenosine Triphosphate metabolism, Alanine metabolism, Allosteric Regulation, Enzyme Activation, Gene Expression, Glutamic Acid, Kinetics, Models, Molecular, Mutation, Myosin Type II genetics, Nucleotides chemistry, Protein Binding, Structure-Activity Relationship, Actins metabolism, Binding Sites, Lysine metabolism, Myosin Type II chemistry, Myosin Type II metabolism, Nucleotides metabolism

Abstract

Myosin motor proteins convert chemical energy into force and movement through their interactions with nucleotide and filamentous actin (F-actin). The evolutionarily conserved lysine-265 (K265) of the myosin-2 motor from Dictyostelium discoideum (Dd) is proposed to be a key residue in an allosteric communication pathway that mediates actin-nucleotide coupling. To better understand the role of K265, point mutations were introduced within the Dd myosin-2 M765-2R framework, replacing this lysine with alanine (K265A), glutamic acid (K265E) or glutamine (K265Q), and the functional and kinetic properties of the resulting myosin motors were assessed. The alanine and glutamic acid substitutions reduced actin-activated ATPase activity, slowed the in vitro sliding velocity and attenuated the inhibitory potential of the allosteric myosin inhibitor pentabromopseudilin (PBP). However, glutamine substitution did not substantially change these parameters. Structural modelling suggests that K265 interacts with D590 and Q633 to establish a pivotal allosteric branching point. Based on our results, we propose: (1) that the K265-D590 interaction functions to reduce myosins basal ATPase activity in the absence of F-actin, and (2) that the dynamic formation of the K265-Q633 salt bridge upon actin cleft closure regulates the activation of product release by actin filaments.

Published

2017