ECOGRAFIA CLINICA E COLOR DOPPLER IN NEFROLOGIA

PRIMO VOLUME DI DUE. IL SECONDO VOLUME INCENTRATO SULL'ECOGRAFIA CLINICA IN NEFROLOGIA VERRA' STAMPATO FINE 2008-INIZIO 200

Nutrition and Physical Activity in CKD patients

Chronic kidney disease (CKD) patients are at risk for protein-energy wasting, abnormal body composition and impaired physical capacity. These complications lead to increased risk of hospitalization, morbidity and mortality.In CKD patient as well as in healthy people, there is a close association between nutrition and physical activity. Namely, inadequate nutrient (energy) intake impairs physical performance thus favoring a sedentary lifestyle: this further contributes to loss of muscle strength and mass, which limit the quality of life and rehabilitation of CKD patients. In CKD as well as in end-stage-renal-disease patients, regular physical activity coupled with adequate energy and protein intake counteracts protein-energy wasting and related comorbidity and mortality. In summary, exercise training can positively influence nutritional status and the perception of well-being of CKD patients and may facilitate the anabolic effects of nutritional interventions

Ruolo dell'imaging nella diagnosi di iperparatiroidismo

Abstract non disponibil

Brain connectomics' modification to clarify motor and nonmotor features of myotonic dystrophy type 1

The adult form of myotonic dystrophy type 1 (DM1) presents with paradoxical inconsistencies between severity of brain damage, relative preservation of cognition, and failure in everyday life. This study, based on the assessment of brain connectivity and mechanisms of plasticity, aimed at reconciling these conflicting issues. Resting-state functional MRI and graph theoretical methods of analysis were used to assess brain topological features in a large cohort of patients with DM1. Patients, compared to controls, revealed reduced connectivity in a large frontoparietal network that correlated with their isolated impairment in visuospatial reasoning. Despite a global preservation of the topological properties, peculiar patterns of frontal disconnection and increased parietal-cerebellar connectivity were also identified in patients' brains. The balance between loss of connectivity and compensatory mechanisms in different brain networks might explain the paradoxical mismatch between structural brain damage and minimal cognitive deficits observed in these patients. This study provides a comprehensive assessment of brain abnormalities that fit well with both motor and nonmotor clinical features experienced by patients in their everyday life. The current findings suggest that measures of functional connectivity may offer the possibility of characterizing individual patients with the potential to become a clinical tool

Sperimentazione in mesocosmo per la valutazione degli effetti di sostanze nutraceutiche sul bioaccumulo di mercurio in esemplari di Sparus aurata

CIRCLES “Controlling mIcRobiomes CircuLations for bEtter food Systems” è un progetto Europeo che nasce con l’obiettivo generale di fornire le conoscenze scientifiche necessarie a sfruttare i microbiomi naturali per la produzione sostenibile di alimenti di alta qualità, con l'obiettivo finale di fornire applicazioni alimentari nuove e più sane. Valutare gli effetti del microbioma sul bioaccumulo di sostanze tossiche nei tessuti di specie ittiche commerciali potrebbe rappresentare una strategia innovativa per produrre “cibo” sicuro, sostenibile e di qualità superiore. Nello specifico, le attività sperimentali di seguito descritte sono state eseguite allo scopo di determinare gli effetti di mangimi innovativi arricchiti con sostanze nutraceutiche nel contrastare/modulare il bioaccumulo di mercurio (Hg) nei tessuti della specie commerciale Sparus aurata

A 14-Year Italian Experience in DM2 Genetic Testing: Frequency and Distribution of Normal and Premutated CNBP Alleles

Myotonic dystrophy type 2 (DM2) is a multisystemic disorder caused by a (CCTG)n in intron 1 of the CNBP gene. The CCTG repeat tract is part of a complex (TG)v(TCTG)w(CCTG)x(NCTG)y(CCTG)z motif generally interrupted in CNBP healthy range alleles. Here we report our 14-year experience of DM2 postnatal genetic testing in a total of 570 individuals. The DM2 locus has been analyzed by a combination of SR-PCR, TP-PCR, LR-PCR, and Sanger sequencing of CNBP alleles. DM2 molecular diagnosis has been confirmed in 187/570 samples analyzed (32.8%) and is mainly associated with the presence of myotonia in patients. This set of CNBP alleles showed unimodal distribution with 25 different alleles ranging from 108 to 168 bp, in accordance with previous studies on European populations. The most frequent CNBP alleles consisted of 138, 134, 140, and 136 bps with an overall locus heterozygosity of 90%. Sequencing of 103 unexpanded CNBP alleles in DM2-positive patients revealed that (CCTG)5(NCTG)3(CCTG)7 and (CCTG)6(NCTG)3(CCTG)7 are the most common interruption motifs. We also characterized five CNBP premutated alleles with (CCTG)n repetitions from n = 36 to n = 53. However, the molecular and clinical consequences in our cohort of samples are not unequivocal. Data that emerged from this study are representative of the Italian population and are useful tools for National and European centers offering DM2 genetic testing and counseling