Neurologische Klinik und Poliklinik
Refine
Has Fulltext
- yes (13)
Is part of the Bibliography
- yes (13)
Year of publication
- 2010 (13) (remove)
Document Type
- Journal article (11)
- Doctoral Thesis (2)
Keywords
- Schlaganfall (4)
- Medizin (2)
- NMR-Tomographie (2)
- Anosognosie (1)
- Arteria carotis interna (1)
- Arteria cerebri media (1)
- Asomatognosie (1)
- Barthel Index (1)
- Biomarker (1)
- COU254 (1)
Institute
The calpain inhibitor MDL-28710 blocks the early local pro-inflammatory cytokine gene expression in mice after chronic constriction nerve injury (CCI). Onehundred- thirteen wild type mice of C57Bl/6J background received CCI of the right sciatic nerve. Mechanical paw withdrawal thresholds and thermal withdrawal latencies were investigated at baseline and at 1, 3, and 7 days after CCI. Three application regimens were used for MDL-28170: a) single injection 40 min before CCI; b) serial injections of MDL- 28170 40 min before and up to day three after CCI; c) sustained application via intraperitoneal osmotic pumps. The control animals received the vehicle DMSO/PEG 400. The tolerable dose of MDL-28170 for mice was 30 mg/kg body weight, higher doses were lethal within the first hours after application. Mechanical withdrawal thresholds and thermal withdrawal latencies were reduced after CCI and did not normalize after single or serial injections, nor with application of MDL-28170 via osmotic pumps. Although the calpain inhibitor MDL-28170 inhibits the early local cytokine upregulation in the sciatic nerve after CCI, pain behavior is not altered. This finding implies that local cytokine upregulation after nerve injury alone is only one factor in the induction and maintenance of neuropathic pain.
Nitric oxide synthase modulates CFA-induced thermal hyperalgesia through cytokine regulation in mice
(2010)
Background: Although it has been largely demonstrated that nitric oxide synthase (NOS), a key enzyme for nitric oxide (NO) production, modulates inflammatory pain, the molecular mechanisms underlying these effects remain to be clarified. Here we asked whether cytokines, which have well-described roles in inflammatory pain, are downstream targets of NO in inflammatory pain and which of the isoforms of NOS are involved in this process. Results: Intraperitoneal (i.p.) pretreatment with 7-nitroindazole sodium salt (7-NINA, a selective neuronal NOS inhibitor), aminoguanidine hydrochloride (AG, a selective inducible NOS inhibitor), L-N(G)-nitroarginine methyl ester (L-NAME, a non-selective NOS inhibitor), but not L-N(5)-(1-iminoethyl)-ornithine (L-NIO, a selective endothelial NOS inhibitor), significantly attenuated thermal hyperalgesia induced by intraplantar (i.pl.) injection of complete Freund’s adjuvant (CFA). Real-time reverse transcription-polymerase chain reaction (RT-PCR) revealed a significant increase of nNOS, iNOS, and eNOS gene expression, as well as tumor necrosis factor-alpha (TNF), interleukin-1 beta (IL-1b), and interleukin-10 (IL-10) gene expression in plantar skin, following CFA. Pretreatment with the NOS inhibitors prevented the CFA-induced increase of the pro-inflammatory cytokines TNF and IL-1b. The increase of the antiinflammatory cytokine IL-10 was augmented in mice pretreated with 7-NINA or L-NAME, but reduced in mice receiving AG or L-NIO. NNOS-, iNOS- or eNOS-knockout (KO) mice had lower gene expression of TNF, IL-1b, and IL-10 following CFA, overall corroborating the inhibitor data. Conclusion: These findings lead us to propose that inhibition of NOS modulates inflammatory thermal hyperalgesia by regulating cytokine expression.
Interleukin-18 (IL-18) is a proinflammatory cytokine of the interleukin-1 family which is upregulated after cerebral ischemia. The functional role of IL-18 in cerebral ischemia is unknown. In the present study, we compared infarct size in IL-18 knock-out and wild-type mice 24 hours and 48 hours after 1-hour transient middle cerebral artery occlusion (tMCAO). Moreover, the functional outcome was evaluated in a modified Bederson score, foot fault test and grip test. There were no significant differences in infarct size or functional outcome tests between wild-type and IL-18 knock-out mice. These data indicate that the early inflammatory response to cerebral ischemia does not involve IL-18, in contrast to other interleukin-1 family members such as interleukin-1.
BACKGROUND: Recently, members of the two-pore domain potassium channel family (K2P channels) could be shown to be involved in mechanisms contributing to neuronal damage after cerebral ischemia. K2P3.1-/- animals showed larger infarct volumes and a worse functional outcome following experimentally induced ischemic stroke. Here, we question the role of the closely related K2P channel K2P9.1. METHODS: We combine electrophysiological recordings in brain-slice preparations of wildtype and K2P9.1-/- mice with an in vivo model of cerebral ischemia (transient middle cerebral artery occlusion (tMCAO)) to depict a functional impact of K2P9.1 in stroke formation. RESULTS: Patch-clamp recordings reveal that currents mediated through K2P9.1 can be obtained in slice preparations of the dorsal lateral geniculate nucleus (dLGN) as a model of central nervous relay neurons. Current characteristics are indicative of K2P9.1 as they display an increase upon removal of extracellular divalent cations, an outward rectification and a reversal potential close to the potassium equilibrium potential. Lowering extracellular pH values from 7.35 to 6.0 showed comparable current reductions in neurons from wildtype and K2P9.1-/- mice (68.31 +/- 9.80% and 69.92 +/- 11.65%, respectively). These results could be translated in an in vivo model of cerebral ischemia where infarct volumes and functional outcomes showed a none significant tendency towards smaller infarct volumes in K2P9.1-/- animals compared to wildtype mice 24 hours after 60 min of tMCAO induction (60.50 +/- 17.31 mm3 and 47.10 +/- 19.26 mm3, respectively). CONCLUSIONS: Together with findings from earlier studies on K2P2.1-/- and K2P3.1-/- mice, the results of the present study on K2P9.1-/- mice indicate a differential contribution of K2P channel subtypes to the diverse and complex in vivo effects in rodent models of cerebral ischemia.
Transgenic mice bred on C57Bl/6 or Sv/129 genetic background are frequently used in stroke research. It is well established that variations in cerebrovascular anatomy and hemodynamics can influence stroke outcome in different inbred mouse lines. We compared stroke development in C57Bl/6 and Sv/129 mice in the widely used model of transient middle cerebral artery occlusion (tMCAO) by multimodal ultra-high field magnetic resonance imaging (MRI). C57Bl/6 and Sv/129 mice underwent 60 min of tMCAO and were analyzed by MRI 2 h and 24 h afterwards. Structural and functional images were registered to a standard anatomical template. Probability maps of infarction were rendered by automated segmentation from quantitative T2-relaxometric images. Whole-brain segmentation of infarction was accomplished manually on high-resolution T2-weighted (T2-w) RARE images. Cerebral perfusion (cerebral blood flow, CBF) was measured quantitatively by modified continuous arterial-spin-labeling (CASL) and apparent diffusion coefficients (ADC) by spin-echo diffusion-weighted imaging (DWI). Probabilities of cortical (95.1% ± 3.1 vs. 92.1% ± 2.5; p > 0.05) and subcortical (100% vs. 100%; p > 0.05) infarctions at 24 h were similar in both groups as was the whole-brain volumetric extent of cerebral infarction. In addition, CBF and ADC values did not differ between C57Bl/6 and Sv/129 mice at any time point or region of interest. The C57Bl/6 and Sv/129 genetic background is no major confounding factor of infarct size and cerebral perfusion in the tMCAO model.
Background: Anticoagulation is an important means to prevent from acute ischemic stroke but is associated with a significant risk of severe hemorrhages. Previous studies have shown that blood coagulation factor XII (FXII)- deficient mice are protected from pathological thrombus formation during cerebral ischemia without bearing an increased bleeding tendency. Hence, pharmacological blockade of FXII might be a promising and safe approach to prevent acute ischemic stroke and possibly other thromboembolic disorders but pharmacological inhibitors selective over FXII are still lacking. In the present study we investigated the efficacy of COU254, a novel nonpeptidic 3-carboxamide-coumarin that selectively blocks FXII activity, on stroke development and post stroke functional outcome in mice. Methods: C57Bl/6 mice were treated with COU254 (40 mg/kg i.p.) or vehicle and subjected to 60 min transient middle cerebral artery occlusion (tMCAO) using the intraluminal filament method. After 24 h infarct volumes were determined from 2,3,5-Triphenyltetrazoliumchloride(TTC)-stained brain sections and functional scores were assessed. Hematoxylin and eosin (H&E) staining was used to estimate the extent of neuronal cell damage. Thrombus formation within the infarcted brain areas was analyzed by immunoblot. Results: Infarct volumes and functional outcomes on day 1 after tMCAO did not significantly differ between COU254 pre-treated mice or untreated controls (p > 0.05). Histology revealed extensive ischemic neuronal damage regularly including the cortex and the basal ganglia in both groups. COU254 treatment did not prevent intracerebral fibrin(ogen) formation. Conclusions: COU254 at the given concentration of 40 mg/kg failed to demonstrate efficacy in acute ischemic stroke in this preliminary study. Further preclinical evaluation of 3-carboxamide-coumarins is needed before the antithrombotic potential of this novel class of FXII inhibitors can be finally judged.
In dieser Studie wurden Schlaganfallpatienten untersucht, die einen ausgedehnten Infarkt im Versorgungsgebiet der A.cerebri media erlitten und wegen Bewusstseinstrübung (sog. Maligner Mediainfarkt) auf der Neurologischen Intensivstation des Universitätsklinikums Würzburg im Zeitraum von 1991 bis 2005 behandelt wurde, um herauszufinden, welchen Einfluss eine operative Behandlung auf den kritisch erhöhten Hirnsdrucks zusätzlich zur konservativen Intensivtherapie auf Mortalität sowie langfristige Lebensqualität hatte. Insgesamt konnten die Daten von 292 Patienten ausgewertet werden, wovon 259 konservativ und 33 operativ behandelt worden waren. Es zeigte sich insgesamt, dass eine stillschweigende günstige Selektion für eine Trepanation sprach (jünger, eher keine Aphasie, weniger Komorbiditäten). Die Hemikraniektomie senkte die Mortalität in der Akutphase hochsignifikant (K: 22, 4%, T: 3,0%; p=0,009). Sie hatte erwartungsgemäß auch einen positiven Einfluss auf das Vigilanzniveau: die Quote von wachen Patienten war bei Entlassung der Trepanierten um 66% höher als bei Aufnahme, bei den konservativ Behandelten war sie nur um 33,3 % gestiegen. Das vorherrschende Symptom bei Aufnahme und Entlassung war eine motorische bzw. sensomotorische Hemiparese. Der Anteil der Aphasiker bei den 201 konservativ therapierten Patienten, die den stationären Aufenthalt überlebt haben, ist von bei Aufnahme 56,2% auf bei Entlassung 48,6% gesunken. Bei den 32 trepanierten Patienten ist er dagegen mit 50% gleich geblieben, obwohl 2/3 aller Patienten an der nicht-dominanten Hemisphäre operiert worden waren. Es war und ist auch nicht zu erwarten, dass eine Entlastung von Hirndruck qualitativ die hirninfarktbedingten Symptome beseitigt. Die Nachbefragung der Patienten fand im Schnitt 64,7 Monate nach erlittenem Mediainfarkt statt. Inzwischen waren von den 259 konservativ Behandelten 47,1% verstorben, von den 33 Hemikraniektomierten nur 24,2%. Die poststationäre Mortalität im weiteren Verlauf war anteilsmäßig gering (K: 24%, T: 21,2%). Die Überlebensdauer der Trepanierten war dreimal so lang wie die der nicht operierten (K: 11,6 Monate, T: 34,4 Monate). Diese Unterschiede im Langzeitüberleben sind wahrscheinlicher auf die geringeren Komorbiditäten der Trepanierten zurückzuführen, als auf die stattgehabte Operation an sich. Allerdings ist nicht auszuschließen, dass die durch Trepanation frühzeitiger verbesserte Wachheit sich auch günstig auf lebensverkürzende Folgekomplikationen ausgewirkt haben könnte. In der Nachbefragung zeigte sich, dass bezüglich der erworbenen körperlichen Funktionsdefizite, gemessen am Barthel Index, zwischen den beiden Kollektiven kein signifikanter Unterschied bestand. Die ehemals konservativ behandelten Patienten kamen auf durchschnittlich 75, die trepanierten Patienten auf 60 von 100 Punkten. Im Lebensalltag schlägt sich dieser Unterschied von 15 Punkten relevant nieder, aber insgesamt liegen beide Patientenkollektive im Bereich einer leichten bis nicht vorhandenen Abhängigkeit. Die vergleichbaren Langzeitdaten von Patienten mit Mediainfarkt liegen in einem ähnlichen Bereich. Erstmalig werden hier Langzeitdaten solcher Patienten über die Lebensqualität vorgelegt, gemessen mit dem SF-36. Nachvollziehbar zeigte sich ein deutlicher Unterschied zur Lebensqualität der Durchschnittsbevölkerung, insbesondere im Bereich der körperlichen Belastbarkeit. Für uns unerwartet günstig fielen die Antworten auf der eher psychologischen Ebene aus. Es zeigten sich bei allen Punkten des SF-36 keine signifikanten Unterschiede zwischen dem konservativ behandelten und den hemikraniektomierten Patienten, so dass die Operation als solche keinen eigenständigen Einfluss auf die langfristige Lebensqualität nahm. Zusammengefasst verbesserte die osteoklastische Trepanation des raumfordernden malignen Mediainfarkts die Überlebenschance in der Akutphase signifikant, was mit inzwischen publizierten kontrollierten Studienergebnissen übereinstimmt. Der Langzeitverlauf nach überlebter Akutkrankheit gestaltet sich unabhängig von der Trepanation. Es gibt aufgrund der erworbenen Behinderung eine weiterhin relativ hohe längerfristige Sterblichkeit. Bemerkenswert ist, dass die Selbsteinschätzung der Lebensqualität von Patienten mit einer erheblichen infarktbedingen körperlichen Behinderung psychologisch-emotional nur geringfügig von der Selbstwahrnehmung in der nicht- behinderten Durchschnittsbevölkerung. Dass bedeutet, dass Spekulationen über die zukünftige Lebensqualität keinen Einfluss auf die Operationsindikation nehmen sollten.
Migration of immune cells to the target organ plays a key role in autoimmune disorders like multiple sclerosis (MS). However, the exact underlying mechanisms of this active process during autoimmune lesion pathogenesis remain elusive. To test if pro-inflammatory and regulatory T cells migrate via a similar molecular mechanism, we analyzed the expression of different adhesion molecules, as well as the composition of infiltrating T cells in an in vivo model of MS, adoptive transfer experimental autoimmune encephalomyelitis in rats. We found that the upregulation of ICAM-I and VCAM-I parallels the development of clinical disease onset, but persists on elevated levels also in the phase of clinical remission. However, the composition of infiltrating T cells found in the developing versus resolving lesion phase changed over time, containing increased numbers of regulatory T cells (FoxP3) only in the phase of clinical remission. In order to test the relevance of the expression of cell adhesion molecules, animals were treated with purified antibodies to ICAM-I and VCAM-I either in the phase of active disease or in early remission. Treatment with a blocking ICAM-I antibody in the phase of disease progression led to a milder disease course. However, administration during early clinical remission aggravates clinical symptoms. Treatment with anti-VCAM-I at different timepoints had no significant effect on the disease course. In summary, our results indicate that adhesion molecules are not only important for capture and migration of pro-inflammatory T cells into the central nervous system, but also permit access of anti-inflammatory cells, such as regulatory T cells. Therefore it is likely to assume that intervention at the blood brain barrier is time dependent and could result in different therapeutic outcomes depending on the phase of CNS lesion development.
Background: Stroke-induced brain edema formation is a frequent cause of secondary infarct growth and deterioration of neurological function. The molecular mechanisms underlying edema formation after stroke are largely unknown. Vasodilator-stimulated phosphoprotein (VASP) is an important regulator of actin dynamics and stabilizes endothelial barriers through interaction with cell-cell contacts and focal adhesion sites. Hypoxia has been shown to foster vascular leakage by downregulation of VASP in vitro but the significance of VASP for regulating vascular permeability in the hypoxic brain in vivo awaits clarification. Methodology/Principal Findings: Focal cerebral ischemia was induced in Vasp2/2 mice and wild-type (WT) littermates by transient middle cerebral artery occlusion (tMCAO). Evan’s Blue tracer was applied to visualize the extent of blood-brainbarrier (BBB) damage. Brain edema formation and infarct volumes were calculated from 2,3,5-triphenyltetrazolium chloride (TTC)-stained brain slices. Both mouse groups were carefully controlled for anatomical and physiological parameters relevant for edema formation and stroke outcome. BBB damage (p,0.05) and edema volumes (1.7 mm360.5 mm3 versus 0.8 mm360.4 mm3; p,0.0001) were significantly enhanced in Vasp2/2 mice compared to controls on day 1 after tMCAO. This was accompanied by a significant increase in infarct size (56.1 mm3617.3 mm3 versus 39.3 mm3610.7 mm3, respectively; p,0.01) and a non significant trend (p.0.05) towards worse neurological outcomes. Conclusion: Our study identifies VASP as critical regulator of BBB maintenance during acute ischemic stroke. Therapeutic modulation of VASP or VASP-dependent signalling pathways could become a novel strategy to combat excessive edema formation in ischemic brain damage.
Background: Thrombus formation is a key step in the pathophysiology of acute ischemic stroke and results from the activation of the coagulation cascade. Thrombin plays a central role in this coagulation system and contributes to thrombus stability via activation of thrombin-activatable fibrinolysis inhibitor (TAFIa). TAFIa counteracts endogenous fibrinolysis at different stages and elevated TAFI levels are a risk factor for thrombotic events including ischemic stroke. Although substantial in vitro data on the influence of TAFI on the coagulation-fibrinolysis-system exist, investigations on the consequences of TAFI inhibition in animal models of cerebral ischemia are still lacking. In the present study we analyzed stroke development and post stroke functional outcome in TAFI-/- mice. Methodology/Principal Findings: TAFI-/- mice and wild-type controls were subjected to 60 min transient middle cerebral artery occlusion (tMCAO) using the intraluminal filament method. After 24 hours, functional outcome scores were assessed and infarct volumes weremeasured from 2,3,5-Triphenyltetrazoliumchloride (TTC)-stained brain slices. Hematoxylin and eosin (H&E) staining was used to estimate the extent of neuronal cell damage. Thrombus formation within the infarcted brain areas was analyzed by immunoblot. Infarct volumes and functional outcomes did not significantly differ between TAFI-/- mice and controls (p.0.05). Histology revealed extensive ischemic neuronal damage regularly including the cortex and the basal ganglia in both groups. TAFI deficiency also had no influence on intracerebral fibrin(ogen) formation after tMCAO. Conclusion: Our study shows that TAFI does not play a major role for thrombus formation and neuronal degeneration after ischemic brain challenge.