Where have the children with epilepsy gone? An observational study of seizure-related accesses to emergency department at the time of COVID-19

Purpose: The COVID-19 pandemic and related lockdown measures drastically changed health care and emergency services utilization. This study evaluated trends in emergency department (ED) access for seizure-related reasons in the first 8 weeks of lockdown in Italy. Methods: All ED accesses of children (<14 years of age) at two university hospitals, in Turin and Rome, Italy, between January 6, 2020 and April 21, 2020, were examined and compared with the corresponding periods of 2019. Results: During the COVID-19 lockdown period (February 23-April 21, 2020), there was a 72 % decrease in all pediatric ED accesses over the corresponding 2019 period (n = 3,395 vs n = 12,128), with a 38 % decrease in seizure-related accesses (n = 41 vs n = 66). The observed decrease of seizure-related ED accesses was not accompanied by significant changes in age, sex, type of seizure, or hospitalization rate after the ED visit. Conclusion: The COVID-19 lockdown was accompanied by a sudden decrease in seizure-related hospital emergency visits. School closure, social distancing, reduced risk of infection, and increased parental supervision are some of the factors that might have contributed to the findin

Reductions in External Divalent Cations Evoke Novel Voltage-Gated Currents in Sensory Neurons

It has long been recognized that divalent cations modulate cell excitability. Sensory nerve excitability is of critical importance to peripheral diseases associated with pain, sensory dysfunction and evoked reflexes. Thus we have studied the role these cations play on dissociated sensory nerve activity. Withdrawal of both Mg2+ and Ca2+ from external solutions activates over 90% of dissociated mouse sensory neurons. Imaging studies demonstrate a Na+ influx that then causes depolarization-mediated activation of voltage-gated Ca2+ channels (CaV), which allows Ca2+ influx upon divalent re-introduction. Inhibition of CaV (ω-conotoxin, nifedipine) or NaV (tetrodotoxin, lidocaine) fails to reduce the Na+ influx. The Ca2+ influx is inhibited by CaV inhibitors but not by TRPM7 inhibition (spermine) or store-operated channel inhibition (SKF96365). Withdrawal of either Mg2+ or Ca2+ alone fails to evoke cation influxes in vagal sensory neurons. In electrophysiological studies of dissociated mouse vagal sensory neurons, withdrawal of both Mg2+ and Ca2+ from external solutions evokes a large slowly-inactivating voltage-gated current (IDF) that cannot be accounted for by an increased negative surface potential. Withdrawal of Ca2+ alone fails to evoke IDF. Evidence suggests IDF is a non-selective cation current. The IDF is not reduced by inhibition of NaV (lidocaine, riluzole), CaV (cilnidipine, nifedipine), KV (tetraethylammonium, 4-aminopyridine) or TRPM7 channels (spermine). In summary, sensory neurons express a novel voltage-gated cation channel that is inhibited by external Ca2+ (IC50∼0.5 µM) or Mg2+ (IC50∼3 µM). Activation of this putative channel evokes substantial cation fluxes in sensory neurons

Design and characterization of bi-functionalized scaffolds for blood vessels tissues

Coronary artery and peripheral vascular diseases are a leading cause of death and disability worldwide. Vascular bypass can be performed with autologous or synthetic grafts. Although both approaches can be used in the treatment of large diameter vessels, less than 50% of small diameter grafts remain patent 5 years after implantation. A possible solution could be offered by vascular tissue engineering. Blood vessels are composed of three concentric layers: the tunica intima, composed of endothelial cells, that inhibits platelet activation and prevents thrombus formation; the tunica media, composed of concentrically organized smooth muscle cells and separated from the tunica intima by an internal elastic lamina; the tunica adventitia, made of fibroblast cells surrounded by extracellular matrix with a high content of collagen. The aim of this work was the production of a small diameter tubular scaffolds, based on a blend of gelatin, gellan and elastin, in order to mimic the chemical composition of native vessels. A double functionalization with signalling peptides was then performed on the scaffolds, with the aim to promote the regeneration of blood vessels with the same cell organization of the native ones

Bi-functionalized gelatin/gellan/elastin tubular scaffolds for blood vessels tissue engineering,

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Impact of the COVID-19 Pandemic on Child and Adolescent Psychiatric Emergencies

By forcing closure of schools, curtailing outpatient services, and imposing strict social distancing, the COVID-19 pandemic has abruptly affected the daily life of millions worldwide, with still unclear consequences for mental health. This study aimed to evaluate if and how child and adolescent psychiatric visits to hospital emergency departments (EDs) changed during the pandemic lockdown, which started in Italy on February 24, 2020