51 research outputs found
A homogenization result in finite plasticity and its application to high-contrast media
We carry out a variational study for integral functionals that model the
stored energy of a heterogeneous material governed by finite-strain
elastoplasticity with hardening. Assuming that the composite has a periodic
microscopic structure, we firstly establish the {\Gamma}-convergence of the
energies in the limiting of vanishing periodicity. Then, in the second part of
the paper, we use the result to derive a macroscopic description for an
elastoplastic medium with high-contrast microstructure. Specifically, we
consider a composite obtained by filling the voids of a periodically perforated
stiff matrix by soft inclusions. Again, we study the {\Gamma}-convergence of
the related energy functionals as the periodicity tends to zero. The main
challenge is posed by the lack of coercivity brought about by the degeneracy of
the material properties in the soft part. We prove that the {\Gamma}-limit,
which we compute with respect to a suitable notion of convergence, is the sum
of the contributions resulting from each of the two components separately
The CO2 content of the TLTRO III scheme and its greening
This paper investigates the climate impact of central bank refinancing operations, with a focus the ECB’s TLTRO III program. Notably, we construct a novel database that combines i) confidential data on loans granted by EU banks to non-financial corporations; ii) confidential data on TLTRO III participation and iii) data on sectoral emissions. We find that the emissions content of bank loans granted over the TLTRO III reference period amount to 8% of overall Euro Area 2019 emissions and that more than 80% of total cumulated loans issued in the reference period was directed towards polluting companies. We then investigate the effectiveness of a green credit easing scheme via a general equilibrium model. Our findings are twofold: first, the central bank policy can increase the costs for lending to polluting companies, thus re-directing loans to less-polluting firms; second, the financial stability implications of such a policy should be carefully considered. Finally, we address legal and operational challenges to such a policy by outlining three alternative ways of implementing a “green” TLTRO programme
With or Without You: Altered Plant Response to Boron-Deficiency in Hydroponically Grown Grapevines Infected by Grapevine Pinot Gris Virus Suggests a Relation Between Grapevine Leaf Mottling and Deformation Symptom Occurrence and Boron Plant Availability
Despite the increasing spread of Grapevine Leaf Mottling and Deformation (GLMD)
worldwide, little is known about its etiology. After identification of grapevine Pinot
gris virus (GPGV) as the presumptive causal agent of the disease in 2015, various
publications have evaluated GPGV involvement in GLMD. Nevertheless, there are only
partial clues to explain the presence of GPGV in both symptomatic and asymptomatic
grapevines and the mechanisms that trigger symptom development, and so a
consideration of new factors is required. Given the similarities between GLMD and
boron (B)-deficiency symptoms in grapevine plants, we posited that GPGV interferes in B
homeostasis. By using a hydroponic system to control B availability, we investigated the
effects of different B supplies on grapevine phenotype and those of GPGV infection on
B acquisition and translocation machinery, by means of microscopy, ionomic and gene
expression analyses in both roots and leaves. The transcription of the genes regulating B
homeostasis was unaffected by the presence of GPGV alone, but was severely altered
in plants exposed to both GPGV infection and B-deficiency, allowing us to speculate
that the capricious and patchy occurrence of GLMD symptoms in the field may not
be related solely to GPGV, but to GPGV interference in plant responses to different
B availabilities. This hypothesis found preliminary positive confirmations in analyses on
field-grown plants
Drug-Free Hybrid Nanoarchitecture Modulation of the Metastatic Behavior of Pancreatic Ductal Adenocarcinoma in Alternative in Vivo Models
Metastasis is the key cause of treatment failure in most oncological patients. The spreading of cancer cells to distal
tissues and organs can be associated with the epithelial-to-mesenchymal transition (EMT) that reduces or nullifies the effectiveness
of the actual treatments. In this context, the establishment of effective antimetastatic agents is the final frontier in cancer research.
Noble metal nanomaterials may allow advancements in this regard, but the issue of their persistence precludes their translation to
clinics despite their antimetastatic properties. Here, we demonstrate that non-persistent gold and copper ultrasmall-in-nano
architectures (NAs) conceived by a safe-by-design approach reduce tumor growth and modulate the progression of the metastasis by
altering gene and protein expression of the EMT-related factors in alternative in vivo models of pancreatic ductal adenocarcinoma.
Together with these findings, we also introduce an alternative biomodel for the evaluation of metastasis to mimic the heterogeneity
of the metastatic phenomenon. On a broader basis, our results represent a promising step forward in the development of novel
families of ultrasmall-in-nano antimetastatic agents for the establishment of the next clinical approaches for pancreatic cancer
metastasis
Non-Immersive Virtual Reality Telerehabilitation System Improves Postural Balance in People with Chronic Neurological Diseases
Background: People with chronic neurological diseases, such as Parkinson’s Disease (PD) and Multiple Sclerosis (MS), often present postural disorders and a high risk of falling. When difficulties in achieving outpatient rehabilitation services occur, a solution to guarantee the continuity of care may be telerehabilitation. This study intends to expand the scope of our previously published research on the impact of telerehabilitation on quality of life in an MS sample, testing the impact of this type of intervention in a larger sample of neurological patients also including PD individuals on postural balance. Methods: We included 60 participants with MS and 72 with PD. All enrolled subjects were randomized into two groups: 65 in the intervention group and 67 in the control group. Both treatments lasted 30–40 sessions (5 days/week, 6–8 weeks). Motor, cognitive, and participation outcomes were registered before and after the treatments. Results: All participants improved the outcomes at the end of the treatments. The study’s primary outcome (Mini-BESTest) registered a greater significant improvement in the telerehabilitation group than in the control group. Conclusions: Our results demonstrated that non-immersive virtual reality telerehabilitation is well tolerated and positively affects static and dynamic balance and gait in people with PD and MS
Telerehabilitation for Stroke: A Personalized Multi-Domain Approach in a Pilot Study
: Stroke, a leading cause of long-term disability worldwide, manifests as motor, speech language, and cognitive impairments, necessitating customized rehabilitation strategies. In this context, telerehabilitation (TR) strategies have emerged as promising solutions. In a multi-center longitudinal pilot study, we explored the effects of a multi-domain TR program, comprising physiotherapy, speech therapy, and neuropsychological treatments. In total, 84 stroke survivors (74 analyzed) received 20 tailored sessions per domain, addressing individual impairments and customized to their specific needs. Positive correlations were found between initial motor function, cognitive status, independence in activities of daily living (ADLs), and motor function improvement after TR. A lower initial health-related quality of life (HRQoL) perception hindered progress, but improved ADL independence and overall health status, and reduced depression correlated with a better QoL. Furthermore, post-treatment improvements were observed in the entire sample in terms of fine motor skills, upper-limb functionality, balance, independence, and cognitive impairment. This multi-modal approach shows promise in enhancing stroke rehabilitation and highlights the potential of TR in addressing the complex needs of stroke survivors through a comprehensive support and interdisciplinary collaboration, personalized for each individual's needs
Stronger and durable SARS-CoV-2 immune response to mRNA vaccines in 5–11 years old children with prior COVID-19
Background and objectives:
mRNA vaccines elicit a durable humoral response to SARS-CoV-2 in adults, whereas evidence in children is scarce. This study aimed to assess the early and long-term immune response to the mRNA vaccine in children with or without previous SARS-CoV-2 infection.
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Methods:
In a multicentre prospective observational study, we profiled the immune response to the Pfizer BioNTech (BNT162b2) vaccine in 5–11-year-old children attending the University Pediatric Hospital of Padua and Bambino-Gesù Hospital in Rome (Italy) from December-2021 to February-2023. Blood samples were collected pre-, 1-, and 6-months after vaccination. Neutralizing antibodies (NAbs) and anti-spike-receptor-binding-domain (anti-S-RBD) IgG titers were analyzed through Plaque Reduction Neutralization Test (PRNT) and chemiluminescent immune-enzymatic assay (CLIA), respectively. Immune cell phenotypes were analyzed by flow cytometry.
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Results:
Sixty children (26 [43 %] female, median age = 8 years [IQR = 7–10.7]) were enrolled in the study, including 46 children with a laboratory-confirmed previous COVID-19 (SARS-CoV-2-recovered) and 14 SARS-CoV-2-naïve participants defined as the absence of antigen-specific antibodies before vaccination. SARS-CoV-2-recovered participants recorded higher anti-S-RBD IgG and Wild-type and Omicron BA.2 NAbs titers than SARS-CoV-2-naïve participants at both 1- and 6-months after vaccination. Antibody titers correlated with T (Tregs) and B (Bregs) regulatory cell frequencies in SARS-CoV-2-recovered children. Both SARS-CoV-2-recovered and SARS-CoV-2-naïve participants decreased antibody titers by approximately 100 to 250 % from 1 to 6 months. While children with immunocompromising underlying conditions developed immune responses comparable to those of healthy children, solid organ transplant recipients exhibited lower levels of NAbs and anti-S-RBD IgG titers, as well as reduced frequencies of Tregs and Bregs.
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Conclusions:
mRNA vaccination triggered a higher production of specific anti-SARS-CoV-2 antibodies along with increased levels of regulatory cells in children with previous SARS-CoV-2 infection up to the following 6 months. These findings provide insights into boosting pre-existing immunity
SARS-CoV-2 infection and replication in human gastric organoids
COVID-19 typically manifests as a respiratory illness, but several clinical reports have described gastrointestinal symptoms. This is particularly true in children in whom gastrointestinal symptoms are frequent and viral shedding outlasts viral clearance from the respiratory system. These observations raise the question of whether the virus can replicate within the stomach. Here we generate gastric organoids from fetal, pediatric, and adult biopsies as in vitro models of SARS-CoV-2 infection. To facilitate infection, we induce reverse polarity in the gastric organoids. We find that the pediatric and late fetal gastric organoids are susceptible to infection with SARS-CoV-2, while viral replication is significantly lower in undifferentiated organoids of early fetal and adult origin. We demonstrate that adult gastric organoids are more susceptible to infection following differentiation. We perform transcriptomic analysis to reveal a moderate innate antiviral response and a lack of differentially expressed genes belonging to the interferon family. Collectively, we show that the virus can efficiently infect the gastric epithelium, suggesting that the stomach might have an active role in fecal-oral SARS-CoV-2 transmission.Several clinical reports have described gastrointestinal symptoms for COVID-19, though whether the virus can replicate within the stomach remains unclear. Here the authors generate gastric organoids from human biopsies and show that the virus can efficiently infect gastric epithelium, suggesting that the stomach might have an active role in fecal-oral transmission
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