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Institut für Physiologie und Pathophysiologie

Publikationen 2003 - 2005

2005

12.

Stief F, Piechotta A, Gabriel S, Schmitz D, Draguhn A. Functional GABA uptake at inhibitory synapses in CA1 of chronically epileptic rats. Epilepsy Res. 2005 Aug-Sep;66(1-3):199-202.

11.

Nimmrich V, Maier N, Schmitz D, Draguhn A. Induced sharp wave-ripple complexes in the absence of synaptic inhibition in mouse hippocampal slices. J Physiol. 2005 Mar 15;563(Pt 3):663-70. Epub 2005 Jan 20.

2004

10.

Kozhemiakin MB, Draguhn A, Skrebitsky VG. Layer-specific potentiation of evoked IPSCs in rat hippocampal CA1 pyramidal cells by lanthanum. Brain Res Bull. 2004 Aug 30;64(2):97-101.

9.

Hartmann K, Stief F, Draguhn A, Frahm C. Ionotropic GABA receptors with mixed pharmacological properties of GABAA and GABAC receptors. Eur J Pharmacol. 2004 Aug 23;497(2):139-46.

8.

Buzsáki G, Draguhn A. Neuronal oscillations in cortical networks. Science. 2004 Jun 25;304(5679):1926-9. Review.

7.

Axmacher N, Winterer J, Stanton PK, Draguhn A, Müller W. Two-photon imaging of spontaneous vesicular release in acute brain slices and its modulation by presynaptic GABAA receptors. Neuroimage. 2004 Jun;22(2):1014-21.

6.

Axmacher N, Draguhn A. Inhibition of GABA release by presynaptic ionotropic GABA receptors in hippocampal CA3. Neuroreport. 2004 Feb 9;15(2):329-34.

5.

Axmacher N, Stemmler M, Engel D, Draguhn A, Ritz R. Transmitter metabolism as a mechanism of synaptic plasticity: a modeling study. J Neurophysiol. 2004 Jan;91(1):25-39. Epub 2003 Sep 17.

2003

4.

Maier N, Nimmrich V, Draguhn A. Cellular and network mechanisms underlying spontaneous sharp wave-ripple complexes in mouse hippocampal slices. J Physiol. 2003 Aug 1;550(Pt 3):873-87. Epub 2003 Jun 13.

3.

Frahm C, Stief F, Zuschratter W, Draguhn A. Unaltered control of extracellular GABA-concentration through GAT-1 in the hippocampus of rats after pilocarpine-induced status epilepticus. Epilepsy Res. 2003 Jan;52(3):243-52.

2.

Pöschel B, Heinemann U, Draguhn A. High frequency oscillations in the dentate gyrus of rat hippocampal slices induced by tetanic stimulation. Brain Res. 2003 Jan 10;959(2):320-7.

1.

Draguhn A, Hartmann K, Stief F, Frahm C, and Engel D: Transmitter-Konzentration und synaptische Hemmung bei Epilepsie. Z Epileptol 16:223-228, 2003.


Neue Publikationen

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Inhibition of cardiac Kv4.3 (Ito) channel isoforms by class I antiarrhythmic drugs lidocaine and mexiletine. Eur J Pharmacol. 2020 Aug 5;880:173159. doi: 10.1016/j.ejphar.2020.173159. Epub 2020 Apr 29.

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Selective inhibition of mitochondrial respiratory complexes controls the transition of microglia into a neurotoxic phenotype in situ. Brain Behav Immun. 2020 Aug;88:802-814. doi: 10.1016/j.bbi.2020.05.052. Epub 2020 May 21.

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Brain energy rescue: an emerging therapeutic concept for neurodegenerative disorders of ageing. Nat Rev Drug Discov. 2020 Jul 24. doi: 10.1038/s41573-020-0072-x. Online ahead of print.

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Lactate Attenuates Synaptic Transmission and Affects Brain Rhythms Featuring High Energy Expenditure. iScience. 2020 Jul 24;23(7):101316. doi: 10.1016/j.isci.2020.101316. Epub 2020 Jun 27.

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A Global Cndp1-Knock-Out Selectively Increases Renal Carnosine and Anserine Concentrations in an Age- and Gender-Specific Manner in Mice. Int J Mol Sci. 2020 Jul 10;21(14):4887. doi:10.3390/ijms21144887.

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Neuronal gamma oscillations and activity-dependent potassium transients remain regular after depletion of microglia in postnatal cortex tissue. J Neurosci Res. 2020 Jul 7. doi: 10.1002/jnr.24689. Online ahead of print.

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Marfan-Syndrom: Eine therapeutische Herausforderung für die Langzeitbehandlung (3/3). Medinlux. 2020 Jun;6:16-20. Review.

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Amyloid, APP, and Electrical Activity of the Brain. Neuroscientist. 2020 Jun;26(3):231-251. doi: 10.1177/1073858419882619. Epub 2019 Nov 29.

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Synchronicity of excitatory inputs drives hippocampal networks to distinct oscillatory patterns. Hippocampus. 2020 May 15. doi: 10.1002/hipo.23214. [Epub ahead of print]

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Vascular Signaling in Allogenic Solid Organ Transplantation - The Role of Endothelial Cells. Front Physiol. 2020 May 8;11:443. doi: 10.3389/fphys.2020.00443. eCollection 2020. Review.

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Mild metabolic stress is sufficient to disturb the formation of pyramidal cell ensembles during gamma oscillations. J Cereb Blood Flow Metab. 2019 Dec 16:271678X19892657. doi: 10.1177/0271678X19892657. [Epub ahead of print

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The mitochondrial calcium uniporter is crucial for the generation of fast cortical network rhythms. J Cereb Blood Flow Metab. 2019 Nov 13:271678X19887777. doi: 10.1177/0271678X19887777. [Epub ahead of print]


Institut für
Physiologie und Pathophysiologie

Universität Heidelberg

Im Neuenheimer Feld 326

69120 Heidelberg

Telefon:+49 6221 54-4056
Telefax:+49 6221 54-6364
E-Mail:susanne.bechtel@
physiologie.uni-heidelberg.de