Detection of the BRAF(V600E) Mutation in Fine Needle Aspiration Cytology of Thyroid Papillary Microcarcinoma Cells Selected by Manual Macrodissection: An Easy Tool to Improve the Preoperative Diagnosis.

Background: Papillary carcinomas with diameters that are less than or equal to 1 cm (thyroid papillary microcarcinoma [mPTC]) are quite common but can carry more risk than previously thought. The proper treatment and management of these lesions is still being debated. Even though fine needle aspiration cytology (FNAC) is considered the best method for the diagnosis of thyroid nodules, its efficacy is still questioned for mPTC. We investigated the role of BRAF gene status in preoperative cytological samples, using manual macrodissection as an additional tool to improve the diagnostic accuracy of mPTC. Methods: DNA was extracted directly from stained FNAC smears of 95 patients including 85 with histological diagnoses of papillary thyroid carcinoma (PTC) ≤1 cm and 10 with goiters. The cytological diagnoses of the 95 cases included the following: 42 samples were suspicious for papillary carcinoma, 38 were PTCs, and 15 were indeterminate lesions. DNA was then extracted from the FNAC slides after performing a "manual macrodissection" procedure. The BRAF(V600E) mutational status was determined by sequence analysis in all the patients. Results: In this study, we showed that the BRAF(V600E) mutation was present with a high frequency in patients with mPTC (74%). The presence of the mutation was independent of the size of the tumor. In our study, the combination of the cytological diagnosis and the molecular analysis was able to identify 82% of all cases of mPTC, with an increase of 37% compared with a morphological diagnosis alone. The morpho-molecular analysis was able to reduce the number of suspicious cases by >70%. All of the goiters had a wild-type BRAF status. Conclusions: The analysis of BRAF mutational status in FNAC obtained from papillary microcarcinomas demonstrates that molecular pathology, combined with morphology and molecular biology is a powerful tool for cytological diagnosis of mPTC. Our results also confirm the data supporting the biological relevance of PTCs with diameters that are ≤1 cm and the importance of "manual macrodissection" in the molecular analysis of cytological material

Brain hemodynamic intermediate phenotype links Vitamin B12 to cognitive profile of healthy and mild cognitive impaired subjects

Vitamin B12, folate, and homocysteine are implicated in pivotal neurodegenerative mechanisms and partake in elders' mental decline. Findings on the association between vitamin-related biochemistry and cognitive abilities suggest that the structural and functional properties of the brain may represent an intermediate biomarker linking vitamin concentrations to cognition. Despite this, no previous study directly investigated whether vitamin B12, folate, and homocysteine levels are sufficient to explain individual neuropsychological profiles or, alternatively, whether the activity of brain regions modulated by these compounds better predicts cognition in elders. Here, we measured the relationship between vitamin blood concentrations, scores at seventeen neuropsychological tests, and brain activity of sixty-five elders spanning from normal to Mild Cognitive Impairment. We then evaluated whether task-related brain responses represent an intermediate phenotype, providing a better prediction of subjects' neuropsychological scores, as compared to the one obtained considering blood biochemistry only. We found that the hemodynamic activity of the right dorsal anterior cingulate cortex was positively associated (p value < 0 05 cluster corrected) with vitamin B12 concentrations, suggesting that elders with higher B12 levels had a more pronounced recruitment of this salience network region. Crucially, the activity of this area significantly predicted subjects' visual search and attention abilities (p value = 0 0023), whereas B12 levels per se failed to do so. Our results demonstrate that the relationship between blood biochemistry and elders' cognitive abilities is revealed when brain activity is included into the equation, thus highlighting the role of brain imaging as intermediate phenotype.Vitamin B12, folate, and homocysteine are implicated in pivotal neurodegenerative mechanisms and partake in elders' mental decline. Findings on the association between vitamin-related biochemistry and cognitive abilities suggest that the structural and functional properties of the brain may represent an intermediate biomarker linking vitamin concentrations to cognition. Despite this, no previous study directly investigated whether vitamin B12, folate, and homocysteine levels are sufficient to explain individual neuropsychological profiles or, alternatively, whether the activity of brain regions modulated by these compounds better predicts cognition in elders. Here, we measured the relationship between vitamin blood concentrations, scores at seventeen neuropsychological tests, and brain activity of sixty-five elders spanning from normal to Mild Cognitive Impairment. We then evaluated whether task-related brain responses represent an intermediate phenotype, providing a better prediction of subjects' neuropsychological scores, as compared to the one obtained considering blood biochemistry only. We found that the hemodynamic activity of the right dorsal anterior cingulate cortex was positively associated (p value < 0 05 cluster corrected) with vitamin B12 concentrations, suggesting that elders with higher B12 levels had a more pronounced recruitment of this salience network region. Crucially, the activity of this area significantly predicted subjects' visual search and attention abilities (p value = 0 0023), whereas B12 levels per se failed to do so. Our results demonstrate that the relationship between blood biochemistry and elders' cognitive abilities is revealed when brain activity is included into the equation, thus highlighting the role of brain imaging as intermediate phenotype

Randomized trial on the effects of a combined physical/cognitive training in aged MCI subjects: the Train the Brain study

Age-related cognitive impairment and dementia are an increasing societal burden. Epidemiological studies indicate that lifestyle factors, e.g. physical, cognitive and social activities, correlate with reduced dementia risk; moreover, positive effects on cognition of physical/cognitive training have been found in cognitively unimpaired elders. Less is known about effectiveness and action mechanisms of physical/cognitive training in elders already suffering from Mild Cognitive Impairment (MCI), a population at high risk for dementia. We assessed in 113 MCI subjects aged 65-89 years, the efficacy of combined physical-cognitive training on cognitive decline, Gray Matter (GM) volume loss and Cerebral Blood Flow (CBF) in hippocampus and parahippocampal areas, and on brain-blood-oxygenation-level-dependent (BOLD) activity elicited by a cognitive task, measured by ADAS-Cog scale, Magnetic Resonance Imaging (MRI), Arterial Spin Labeling (ASL) and fMRI, respectively, before and after 7 months of training vs. usual life. Cognitive status significantly decreased in MCI-no training and significantly increased in MCI-training subjects; training increased parahippocampal CBF, but no effect on GM volume loss was evident; BOLD activity increase, indicative of neural efficiency decline, was found only in MCI-no training subjects. These results show that a non pharmacological, multicomponent intervention improves cognitive status and indicators of brain health in MCI subjects

LONG-TERM FOLLOW-UP-STUDY OF ADENOMATOUS HYPERPLASIA IN LIVER-CIRRHOSIS

The purpose of this study was to investigate the natural history of adenomatous hyperplasia (AH) in liver cirrhosis, which is suspected of being a precancerous condition of hepatocellular carcinoma (HCC). Sixteen patients with 19 histologically proven AH nodules were followed-up over time with ultrasonographic (US) examinations performed every 3-4 months. The biopsy was repeated whenever the volume of the lesion increased, its US pattern changed, or there was a change in the alpha-fetoprotein values. Thirteen out of 19 AH (68.4%) evolved toward HCC after 8-31 months (mean 14.2 months). Malignant transformation was proved in 7/18 AH within 1 year of its initial detection, in 12/15 AH within 2 years, and in 13/14 AH within 4 years. Six AH remained unchanged in size and US pattern for 9-70 months (mean 29.5 months). Long term follow-up of AH confirms that this lesion is a precursor of HC