We have tested the hypothesis that elevated concentrations of TNF alpha could impair trophoblast invasion. Using first-trimester placental explant cultures, we have demonstrated that the cytokine inhibits in vitro migration of extravillous trophoblasts (EVT) on collagen I, and invasion through Matrigel. To elucidate the underlying mechanism, proliferation and differentiation of EVT in vitro were analyzed by immunohistochemistry of serial sections, Western blotting, zymography, ELISA, and RT-PCR from RNA pools of mechanically separated cell populations. At 24 h of cultivation in the presence or absence of TNF alpha, anchorage and proliferation of trophoblasts had occurred to generate cell columns containing viable, post-mitotic, differentiated EVT [positive for integrins alpha 1 and alpha 5, matrix metalloproteinase (MMP)-2, and human leukocyte antigen-G1; negative for proliferating cellular nuclear antigen, cytokeratin 18 neoepitope, and in 5-Bromo-2-deoxy-uridine labeling]. At 72 h, control cells had broken away from the column to migrate through the extracellular matrix; whereas, in contrast, TNF alpha-treated EVT remained as contiguous cell columns, despite increased MMP-9 expression. Thus, in vitro MMP9 activity appears not to be essential for trophoblast migration. Expression of plasminogen activator inhibitor (PAI)-1 was elevated in TNF alpha-treated EVT, and adding antibodies that inhibit PAI-1 activity restored migration, whereas tissue-inhibitor-of-metalloproteinases-1-blocking antibodies were ineffective. Induction of PAI-1 by TNF alpha could be related to restricted trophoblast invasion in preeclampsia.
ObjectiveTo develop an NIH Stroke Scale (NIHSS)-compatible, all-in-one scale for rapid and comprehensive prehospital stroke assessment including stroke recognition, severity grading and progression monitoring as well as prediction of large vessel occlusion (LVO).MethodsEmergency medical services (EMS) personnel and stroke physicians (n=326) rated each item of the NIHSS regarding suitability for prehospital use; best rated items were included. Stroke recognition was evaluated retrospectively in 689 consecutive patients with acute stroke or stroke mimics, prediction of LVO in 741 consecutive patients with ischaemic stroke with acute vessel imaging independent of admission NIHSS score.ResultsNine of the NIHSS items were rated as ‘suitable for prehospital use.’ After excluding two items in order to increase specificity, the final scale (termed shortened NIHSS for EMS, sNIHSS-EMS) consists of ‘level of consciousness’, ‘facial palsy’, ‘motor arm/leg’, ‘sensory’, ‘language’ and ‘dysarthria’. Sensitivity for stroke recognition of the sNIHSS-EMS is 91% (95% CI 86 to 94), specificity 52% (95% CI 47 to 56). Receiver operating curve analysis revealed an optimal cut-off point for LVO prediction of ≥6 (sensitivity 70% (95% CI 65 to 76), specificity 81% (95% CI 76 to 84), positive predictive value 70 (95% CI 65 to 75), area under the curve 0.81 (95% CI 0.78 to 0.84)). Test characteristics were non-inferior to non-comprehensive scales.ConclusionsThe sNIHSS-EMS may overcome the sequential use of multiple emergency stroke scales by permitting parallel stroke recognition, severity grading and LVO prediction. Full NIHSS-item compatibility allows for evaluation of stroke progression starting at the prehospital phase.
In children with ASD and inconclusive TTE results, MR imaging can enable determination of defect size, rim distances to adjacent structures, and venous connections.
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