22 research outputs found
Nonlinear Dynamic Effects Induced by an Automotive Dual-Mass Flywheel
Internal combustion engines produce a fluctuating torque due to discrete
combustion events, as well as inertial actions of the reciprocating masses. In
standard operating conditions, the resulting torsional oscillations of the
crankshaft are transferred to the gearbox, leading to a number of comfort
problems. Dual mass flywheels (DMF) may be a solution to reduce torsional
oscillations. They consist of a primary mass connected to the engine, a
secondary mass connected to the transmission shaft and two or more sets of arc
springs placed between the two rotary inertias. Friction between the primary
mass and the arc springs ensure an additional source of damping when the arc
springs are not loaded. This paper presents a discussion of the 3D nonlinear
dynamic effects introduced in the driveline by an automotive DMF. A model
for the DMF is developed and included into a multi-body model of the
vehicle powertrain to assess the effect of its main parameters on the
driveline behaviour (e.g. modes of vibration, radial forces). The DMF is
modelled by primary and secondary masses and the arc springs between them.
Centrifugal effects and redirection forces acting on the springs as well as
nonlinear contact forces due to stoppers and flanges bounding spring
motion are accounted for. Moreover, friction occurring in seals and friction
resulting from the spring radial forces are included. Contact forces between
primary and secondary masses of DMF with arc springs are modelled
with a penalty approach and a contact detection algorithm. The developed
3D MB model has been compared with experimental data to assess its
capability to reproduce DMF dynamics. A good correlation was found between
numerical and experimental data during torsion tests at standstill and
small displacement cycles at different angular speeds. Complex frictional
phenomena like arc spring stiffening and hysteresis cycle shrinking with
increasing angular speed are correctly captured, furthermore radial forces
exchanged between DMF stages and transmission shafts can be evaluated
thanks to a full 3D model
Developmental abnormalities in cortical GABAergic system in mice lacking mGlu3 metabotropic glutamate receptors
Polymorphic variants of the gene encoding for metabotropic glutamate receptor 3 (mGlu3) are linked to schizophrenia. Because abnormalities of cortical GABAergic interneurons lie at the core of the pathophysiology of schizophrenia, we examined whether mGlu3 receptors influence the developmental trajectory of cortical GABAergic transmission in the postnatal life. mGlu3-/- mice showed robust changes in the expression of interneuron-related genes in the prefrontal cortex (PFC), including large reductions in the expression of parvalbumin (PV) and the GluN1 subunit of NMDA receptors. The number of cortical cells enwrapped by perineuronal nets was increased in mGlu3-/- mice, suggesting that mGlu3 receptors shape the temporal window of plasticity of PV+ interneurons. Electrophysiological measurements of GABAA receptor-mediated responses revealed a more depolarized reversal potential of GABA currents in the somata of PFC pyramidal neurons in mGlu3-/- mice at postnatal d 9 associated with a reduced expression of the K+/Cl- symporter. Finally, adult mGlu3-/- mice showed lower power in electroencephalographic rhythms at 1-45 Hz in quiet wakefulness as compared with their wild-type counterparts. These findings suggest that mGlu3 receptors have a strong impact on the development of cortical GABAergic transmission and cortical neural synchronization mechanisms corroborating the concept that genetic variants of mGlu3 receptors may predispose to psychiatric disorders.-Imbriglio, T., Verhaeghe, R., Martinello, K., Pascarelli, M. T., Chece, G., Bucci, D., Notartomaso, S., Quattromani, M., Mascio, G., Scalabrì, F., Simeone, A., Maccari, S., Del Percio, C., Wieloch, T., Fucile, S., Babiloni, C., Battaglia, G., Limatola, C., Nicoletti, F., Cannella, M. Developmental abnormalities in cortical GABAergic system in mice lacking mGlu3 metabotropic glutamate receptors
Preoperative Localization in Colonic Surgery (PLoCoS Study): a multicentric experience on behalf of the Italian Society of Colorectal Surgery (SICCR)
The aim of this prospective multicentric study was to compare the accurate colonic lesion localization ratio between CT and colonoscopy in comparison with surgery. All consecutive patients from 1st January to 31st December 2019 with a histologically confirmed diagnosis of dysplastic adenoma or adenocarcinoma with planned elective, curative colonic resection who underwent both colonoscopy and CT scans were included. Each patient underwent conventional colonoscopy and CT to stage the tumour, and the localization results of each procedure were registered. CT and colonoscopic localization were compared with surgical localization, adopted as the reference. Our analysis included 745 patients from 23 centres. After comparing the accuracy of colonoscopy and CT (for visible lesions) in localizing colonic lesions, no significant differences were found between the two preoperative tools (510/661 vs 499/661 correctly localized lesions, p = 0.518). Furthermore, after analysing only the patients who underwent complete colonoscopy and had a visible lesion on CT, no significant difference was observed between conventional colonoscopy and CT (331/427 vs 340/427, p = 0.505). Considering the intraoperative localization results as a reference, a comparison between colonoscopy and CT showed that colonoscopy significantly failed to correctly locate the lesions localized in the descending colon (17/32 vs 26/32, p = 0.031). We did not identify an advantage in using CT to localize colonic tumours. In this setting, colonoscopy should be considered the reference to properly localize lesions; however, to better identify lesions in the descending colon, CT could be considered a valuable tool to improve the accuracy of lesion localization