2,781 research outputs found
Glial activation in white matter following ischemia in the neonatal P7 rat brain
This study examines cell death and proliferation in the white matter after
neonatal stroke. In post-natal day 7 injured rat, there was a marked reduction
in myelin basic protein (MBP) immunostaining mainly corresponding to numerous
pyknotic immature oligodendrocytes and TUNEL-positive astrocytes in the
ipsilateral external capsule. In contrast, a substantial restoration of MBP, as
indicated by the MBP ratio of left-toright, occurred in the cingulum at 48
(1.27 +- 0.12) and 72 (1.30 +- 0.18, p<0.05) hours of recovery as compared to
age-matched controls (1.03 +- 0.14). Ki-67 immunostaining revealed a first peak
of newly-generated cells in the dorsolateral hippocampal subventricular zone
and cingulum at 72 hours after reperfusion. Double immunofluorescence revealed
that most of the Ki-67-positive cells were astrocytes at 48 hours and NG2
pre-oligodendrocytes at 72 hours of recovery. Microglia infiltration occurs
over several days in the cingulum and a huge quantity of macrophages reached
the subcortical white matter where they engulfed immature oligodendrocytes. The
overall results suggest that the persistent activation of microglia involves a
chronic component of immunoinflammation, which overwhelms repair processes and
contributes to cystic growth in the developing brain.Comment: 30 page
Temporal structure in spiking patterns of ganglion cells defines perceptual thresholds in rodents with subretinal prosthesis.
Subretinal prostheses are designed to restore sight in patients blinded by retinal degeneration using electrical stimulation of the inner retinal neurons. To relate retinal output to perception, we studied behavioral thresholds in blind rats with photovoltaic subretinal prostheses stimulated by full-field pulsed illumination at 20âHz, and measured retinal ganglion cell (RGC) responses to similar stimuli ex-vivo. Behaviorally, rats exhibited startling response to changes in brightness, with an average contrast threshold of 12%, which could not be explained by changes in the average RGC spiking rate. However, RGCs exhibited millisecond-scale variations in spike timing, even when the average rate did not change significantly. At 12% temporal contrast, changes in firing patterns of prosthetic response were as significant as with 2.3% contrast steps in visible light stimulation of healthy retinas. This suggests that millisecond-scale changes in spiking patterns define perceptual thresholds of prosthetic vision. Response to the last pulse in the stimulation burst lasted longer than the steady-state response during the burst. This may be interpreted as an excitatory OFF response to prosthetic stimulation, and can explain behavioral response to decrease in illumination. Contrast enhancement of images prior to delivery to subretinal prosthesis can partially compensate for reduced contrast sensitivity of prosthetic vision
Induction of early Purkinje cell dendritic differentiation by thyroid hormone requires RORα
<p>Abstract</p> <p>Background</p> <p>The active form (T<sub>3</sub>) of thyroid hormone (TH) controls critical aspects of cerebellar development, such as migration of postmitotic neurons and terminal dendritic differentiation of Purkinje cells. The effects of T<sub>3 </sub>on early dendritic differentiation are poorly understood.</p> <p>Results</p> <p>In this study, we have analyzed the influence of T<sub>3 </sub>on the progression of the early steps of Purkinje cell dendritic differentiation in postnatal day 0 organotypic cerebellar cultures. These steps include, successively, regression of immature neuritic processes, a stellate cell stage, and the extension of several long and mature perisomatic protrusions before the growth of the ultimate dendritic tree. We also studied the involvement of RORα, a nuclear receptor controlling early Purkinje cell dendritic differentiation. We show that T<sub>3 </sub>treatment leads to an accelerated progression of the early steps of dendritic differentiation in culture, together with an increased expression of RORα (mRNA and protein) in both Purkinje cells and interneurons. Finally, we show that T<sub>3 </sub>failed to promote early dendritic differentiation in <it>staggerer </it>RORα-deficient Purkinje cells.</p> <p>Conclusions</p> <p>Our results demonstrate that T<sub>3 </sub>action on the early Purkinje cell dendritic differentiation process is mediated by RORα.</p
Reinnervation of late postnatal purkinje cells by climbing fibers: neosynaptogenesis without transient multi-innervation.
Synaptic partner selection and refinement of projections are important in the development of precise and functional neuronal connections. We investigated the formation of new synaptic connections in a relatively mature system to test whether developmental events can be recapitulated at later stages (i.e., after the mature synaptic organization has been established), using a model of postlesional reinnervation in the olivo-cerebellar pathway. During the development of this pathway, synaptic connections between climbing fibers (CFs) and Purkinje cells (PCs) are diffuse and redundant before synapse elimination refines the pattern. The regression of CFs during the first 2 postnatal weeks in the rat leads to mono-innervation of each PC. After unilateral transection of the rat olivo-cerebellar pathway and intracerebellar injection of BDNF 24 h after lesion, axons from the remaining inferior olive can sprout into the deafferented hemicerebellum and establish new contacts with denervated PCs at later developmental stages. We found that these contacts are first established on somatic thorns before the CFs translocate to the PC dendrites, recapitulating the morphological steps of normal CF-PC synaptogenesis, but on a relatively mature PC. However, electrophysiology of PC reinnervation by transcommissural CFs in these animals showed that each PC is reinnervated by only one CF. This mono-innervation contrasts with the reinnervation of grafted immature PCs in the same cerebellum. Our results provide evidence that relatively mature PCs do not receive several olivary afferents during late reinnervation, suggesting a critical role of the target cell state in the control of CF-PC synaptogenesis. Thus, synapse exuberance and subsequent elimination are not a prerequisite to reach a mature relationship between synaptic partners
Off-line and On-line Power Dispatching Strategies for a Grid Connected Commercial Building with Storage Unit
With the development of decentralized power sources based on renewable energy, power grids need smarter operations to be run properly. This paper refers to a microgrid with solar panels associated with an energy storage unit connected to the main grid. An off-line optimal dispatching of the storage power flows is proposed in order to minimize energy costs with regards to the daily energy rates. An on-line management strategy is also introduced so as to control in real-time the grid power predicted over the day by the off-line dispatching
Identification of platelet hyper-reactivity measured with a portable device immediately after percutaneous coronary intervention predicts in stent thrombosis
Introduction: Platelet hyper-reactivity, despite a standard anti-thrombotic therapy, is a recognized risk factor for recurrent myocardial ischemia and in-stent thrombosis following PCI. We have investigated whether this detrimental condition, measured by collagen-epinephrine closure times (CEPI-CT) with the Platelet Function Analyzer (PFA-100) device could predict IST defined as the composite of cardiovascular death or myocardial infarction. Materials and methods: CEPI-CT was measured in 256 consecutive patients with stable angina (n=103) or ACS (n=153) 30?8 h after PCI (T0) and 1 month later (T1). All patients were followed up for a mean period of 9 months. Platelet hyperactivity was defined as a CEPI-CTb190 s. Results: Baseline CEPI-CTb190 s was associated with a higher rate of death or MI (LogRank χ2 =4.23, p=0.039) as compared with CEPI-CTN190 s (4.6% vs. 0.7%). Multivariable analysis after adjustment for other risk factors confirmed that baseline CEPI-CTb190 s was an independent correlate for death or MI (Hazard ratio 6.981, p=0.008). At T1 there was a significant prolongati
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