Sindrome di cushing nel cane: Nuove prospettive diagnostiche e terapeutiche

La sindrome di Cushing (SC) è una delle endocrinopatie più comuni nel cane. La diagnosi richiede l'integrazione di anamnesi, segnalamento, segni clinici, esami ematobiochimici, test endocrini specifici e diagnostica per immagini . Nel corso degli anni diversi sono i principi attivi testati per la terapia della SC del cane. In passato, il mitotane è stato il farmaco più utilizzato, sebbene il suo uso risulti complicato e non privo di potenziali effetti collaterali. Recentemente, il trilostano ha dimostrato di essere un trattamento efficace per il controllo dei sintomi ed è stato approvato per tale uso nel cane. Al fine di testare metodiche non invasive per la diagnosi di SC nel cane abbiamo valutato le concentrazioni di cortisolo nel pelo (HCC) .Queste risultavano significativamente più elevate nei cani con SC rispetto ai cani sani e malati. Questo test può essere quindi considerato una procedura diagnostica non invasiva in cani con un elevato sospetto di SC. Inoltre, a causa della difficile reperibilità dell’ACTH esogeno sono state valutate le concentrazioni di cortisolo basale come strumento di monitoraggio in cani con SC trattati con trilostano. Tuttavia la singola valutazione del cortisolo basale non rappresenta un parametro efficace ed accurato per il monitoraggio della terapia con trilostano. Sono stati inoltre valutati i fattori prognostici in cani con SC alla diagnosi. L' iperfosfatemia è risultata un riscontro comune nei cani SC, rappresentando un fattore prognostico negativo. La terapia chirurgica non è una procedura di routine nella SC del cane, tuttavia abbiamo descritto l'approccio di ipofisectomia transsfenoidale in un Galgo spagnolo di 8 anni con SC . Il cane è stato sottoposto per due volte ad ipofisectomia transsfenoidale che ha permesso di rimuovere completamente il macroadenoma ipofisario. In conclusione, questi studi ci hanno permesso di indagare alcuni aspetti patogenetici, clinici e diagnostici della SC del cane.

Synthesis and surface modification of silver and gold nanoparticles. Nanomedicine applications against Glioblastoma Multiforme.

In the last decades noble metal nanoparticles (NPs) arose as one of the most powerful tools for applications in nanomedicine field and cancer treatment. Glioblastoma multiforme (GBM), in particular, is one of the most aggressive malignant brain tumors that nowadays still presents a dramatic scenario concerning median survival. Gold nanorods (GNRs) and silver nanoparticles (AgNPs) could find applications such as diagnostic imaging, hyperthermia and glioblastoma therapy. During these three years, both GNRs and AgNPs were synthesized with the “salt reduction” method and, through a novel double phase transfer process, using specifically designed thiol-based ligands, lipophilic GNRs and AgNPs were obtained and separately entrapped into biocompatible and biodegradable PEG-based polymeric nanoparticles (PNPs) suitable for drug delivery within the body. Moreover, a synergistic effect of AgNPs with the Alisertib drug, were investigated thanks to the simultaneous entrapment of these two moieties into PNPs. In addition, Chlorotoxin (Cltx), a peptide that specifically recognize brain cancer cells, was conjugated onto the external surface of PNPs. The so-obtained novel nanosystems were evaluated for in vitro and in vivo applications against glioblastoma multiforme. In particular, for GNRs-PNPs, their safety, their suitability as optoacoustic contrast agents, their selective laser-induced cells death and finally, a high tumor retention were all demonstrated. Concerning AgNPs-PNPs, promising tumor toxicity and a strong synergistic effect with Alisertib was observed (IC50 10 nM), as well as good in vivo biodistribution, high tumor uptake and significative tumor reduction in tumor bearing mice. Finally, the two nanostructures were linked together, through an organic framework, exploiting the click chemistry azido-alkyne Huisgen cycloaddition, between two ligands previously attached to the NPs surface; this multifunctional complex nanosystem was successfully entrapped into PNPs with nanoparticles’ properties maintenance, obtaining in this way a powerful and promising tool for cancer fight and defeat.

Fattori prognostici in corso di malattia renale cronica (ckd) nel cane

Negli ultimi anni si è assistito ad un miglioramento della qualità di vita dei piccoli animali che, oltre ad aumentarne l'aspettativa di vita, ha determinato un aumento della frequenza di patologie associate all'età medio-avanzata, quali le patologie renali croniche. Il presente studio si fonda sulla necessità, sempre più sentita nella pratica clinica veterinaria, di poter fornire al proprietario del paziente affetto da CKD, una serie di parametri che, oltre a fungere da target terapeutico, possano aiutare a comprenderne la prognosi. Lo studio ha valutato una popolazione di cani affetti da CKD e ne ha seguito o ricostruito il follow-up, per tutto il periodo di sopravvivenza fino al momento dell’exitus. Di tali soggetti sono stati raccolti dati relativi ad anamnesi, esame clinico, misurazione della pressione arteriosa, diagnostica per immagini, esami ematochimici, analisi delle urine ed eventuale esame istologico renale. È stato possibile individuare alcuni importanti fattori prognostici per la sopravvivenza in pazienti con CKD. Oltre a fattori ben noti in letteratura, come ad esempio elevati valori di creatinina e fosforo, o la presenza di proteinuria, è stato possibile anche evidenziare il ruolo prognostico negativo di alcuni parametri meno noti, ed in particolare delle proteine di fase acuta positive e negative, e del rapporto albumina/globuline. Una possibile spiegazione del valore prognostico di tali parametri risiede nel ruolo prognostico negativo dell’infiammazione nel paziente con CKD: tale ruolo è stato suggerito e dimostrato nell’uomo e avrebbe alla base numerosi possibili meccanismi (sviluppo di anemia, complicazioni gastroenteriche, neoplasie, etc.), ma dati analoghi sono mancanti in medicina veterinaria. Una seconda possibile spiegazione risiede nel fatto che potenzialmente i livelli delle proteine di fase acuta possono essere influenzati dalla presenza di proteinuria nel paziente con CKD e di conseguenza potrebbero essere una conferma di come la proteinuria influenzi negativamente l'outcome.

Diagnostic techniques for EHD and MHD interaction

The impact of plasma technologies is growing both in the academic and in the industrial fields. Nowadays, a great interest is focused in plasma applications in aeronautics and astronautics domains. Plasma actuators based on the Magneto-Hydro-Dynamic (MHD) and Electro- Hydro-Dynamic (EHD) interactions are potentially able to suitably modify the fluid-dynamics characteristics around a flying body without utilizing moving parts. This could lead to the control of an aircraft with negligible response time, more reliability and improvements of the performance. In order to study the aforementioned interactions, a series of experiments and a wide number of diagnostic techniques have been utilized. The EHD interaction, realized by means of a Dielectric Barrier Discharge (DBD) actuator, and its impact on the boundary layer have been evaluated by means of two different experiments. In the first one a three phase multi-electrode flat panel actuator is used. Different external flow velocities (from 1 to 20m/s) and different values of the supplied voltage and frequency have been considered. Moreover a change of the phase sequence has been done to verify the influence of the electric field existing between successive phases. Measurements of the induced speed had shown the effect of the supply voltage and the frequency, and the phase order in the momentum transfer phenomenon. Gains in velocity, inside the boundary layer, of about 5m/s have been obtained. Spectroscopic measurements allowed to determine the rotational and the vibrational temperature of the plasma which lie in the range of 320 ÷ 440°K and of 3000 ÷ 3900°K respectively. A deviation from thermodynamic equilibrium had been found. The second EHD experiment is realized on a single electrode pair DBD actuator driven by nano-pulses superimposed to a DC or an AC bias. This new supply system separates the plasma formation mechanism from the acceleration action on the fluid, leading to an higher degree of the control of the process. Both the voltage and the frequency of the nano-pulses and the amplitude and the waveform of the bias have been varied during the experiment. Plasma jets and vortex behavior had been observed by means of fast Schlieren imaging. This allowed a deeper understanding of the EHD interaction process. A velocity increase in the boundary layer of about 2m/s had been measured. Thrust measurements have been performed by means of a scales and compared with experimental data reported in the literature. For similar voltage amplitudes thrust larger than those of the literature, had been observed. Surface charge measurements led to realize a modified DBD actuator able to obtain similar performances when compared with that of other experiments. However in this case a DC bias replacing the AC bias had been used. MHD interaction experiments had been carried out in a hypersonic wind tunnel in argon with a flow of Mach 6. Before the MHD experiments a thermal, fluid-dynamic and plasma characterization of the hypersonic argon plasma flow have been done. The electron temperature and the electron number density had been determined by means of emission spectroscopy and microwave absorption measurements. A deviation from thermodynamic equilibrium had been observed. The electron number density showed to be frozen at the stagnation region condition in the expansion through the nozzle. MHD experiments have been performed using two axial symmetric test bodies. Similar magnetic configurations were used. Permanent magnets inserted into the test body allowed to generate inside the plasma azimuthal currents around the conical shape of the body. These Faraday currents are responsible of the MHD body force which acts against the flow. The MHD interaction process has been observed by means of fast imaging, pressure and electrical measurements. Images showed bright rings due to the Faraday currents heating and exciting the plasma particles. Pressure measurements showed increases of the pressure in the regions where the MHD interaction is large. The pressure is 10 to 15% larger than when the MHD interaction process is silent. Finally by means of electrostatic probes mounted flush on the test body lateral surface Hall fields of about 500V/m had been measured. These results have been used for the validation of a numerical MHD code.

Identification of novel genetic alterations in pediatric cytogenetically normal acute myeloid leukemia by next-generation sequencing

Pediatric acute myeloid leukemia (AML) is a molecularly heterogeneous disease that arises from genetic alterations in pathways that regulate self-renewal and myeloid differentiation. While the majority of patients carry recurrent chromosomal translocations, almost 20% of childhood AML do not show any recognizable cytogenetic alteration and are defined as cytogenetically normal (CN)-AML. CN-AML patients have always showed a great variability in response to therapy and overall outcome, underlining the presence of unknown genetic changes, not detectable by conventional analyses, but relevant for pathogenesis, and outcome of AML. The development of novel genome-wide techniques such as next-generation sequencing, have tremendously improved our ability to interrogate the cancer genome. Based on this background, the aim of this research study was to investigate the mutational landscape of pediatric CN-AML patients negative for all the currently known somatic mutations reported in AML through whole-transcriptome sequencing (RNA-seq). RNA-seq performed on diagnostic leukemic blasts from 19 pediatric CN-AML cases revealed a considerable incidence of cryptic chromosomal rearrangements, with the identification of 21 putative fusion genes. Several of the fusion genes that were identified in this study are recurrent and might have a prognostic and/or therapeutic relevance. A paradigm of that is the CBFA2T3-GLIS2 fusion, which has been demonstrated to be a common alteration in pediatric CN-AML, predicting poor outcome. Important findings have been also obtained in the identification of novel therapeutic targets. On one side, the identification of NUP98-JARID1A fusion suggests the use of disulfiram; on the other, here we describe alteration-activating tyrosine kinases, providing functional data supporting the use of tyrosine kinase inhibitors to specifically inhibit leukemia cells. This study provides new insights in the knowledge of genetic alterations underlying pediatric AML, defines novel prognostic markers and putative therapeutic targets, and prospectively ensures a correct risk stratification and risk-adapted therapy also for the “all-neg” AML subgroup.