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Our findings reveal alterations in error detection and performance monitoring of RTHβ patients, likely indicating reduced error awareness. The electrophysiological phenotype of RTHß subjects with regard to action monitoring is indistinguishable from ADHD. SB590885 OBJECTIVE Transthyretin familial amyloid polyneuropathy (TTR-FAP) is an aggressive hereditary neuropathy characterized by sensory and autonomic dysfunction. There are numerous reports of TTR-FAP misdiagnosed and treated as chronic inflammatory demyelinating polyneuropathy (CIDP), leading to delayed diagnosis, risk of iatrogenic adverse events and increased socio-economic costs. Quantitative sudomotor function measured by electrochemical skin conductance (ESC) appears to be a sensitive test in TTR-FAP. We aimed to evaluate the performance of ESC in differentiating TTR-FAP from CIDP. METHODS Thirty-eight patients with genetically confirmed hereditary TTR amyloidosis and 26 with definite CIDP according to the EFNS/PNS guidelines and negative TTR-FAP genetic testing were involved in this study. We compared the ESC for feet and hands measured by Sudoscan for each patient. RESULTS ESC (µS) was significantly lower in TTR-FAP for both hands (72 vs 45, p  less then  0.0001) and feet (77 vs 35, p  less then  0.0001). Feet ESC  less then  64 µS had a 89% sensitivity and a 96% specificity to differentiate between CIDP and TTR-FAP. CONCLUSION Sudoscan is a fast, non-invasive and easy to perform test, able to distinguish CIDP and TTR-FAP patients with good sensitivity and specificity. SIGNIFICANCE Sudoscan can be helpful in distinguishing between CIDP and TTR-FAP. Luffa cylindrica is a nutrient-dense vegetable with medical properties and can alleviate metabolic diseases. Numerous evidences demonstrated gut microbiota impacted the progress of nonalcoholic fatty liver disease (NAFLD). This study was to investigate the underlying mechanism of L. cylindrica supplementation against NALFD via gut microbiota from hepatic transcriptional and metabolic analysis. In diet-induced obese mice, we observed L. cylindrica supplementation (2 g/kg body weight) effectively alleviated high-fat diet-induced obese symptoms such as body weight, fat deposition, and insulin resistance. Notably, L. cylindrica supplementation significantly relieved hepatic steatosis and inflammation infiltration to decrease hepatic toxicity. RNA-sequencing analysis showed that 130 hepatic genes in total significantly altered responding to L. cylindrica supplementation. And signaling pathway analysis revealed that L. cylindrica supplementation down-regulated the transcriptional expressions of CD36 and Rxrg to inhibit hepatic lipid synthesis. Moreover, L. cylindrica supplementation increased the transcriptional expressions of Ass1, Cps1, Cth, Got1, Tat, and Gls2 to enhance amino acid levels (Gly, Ala, Pro, Val, Ile, Asn, Met, and Phe) and improve hepatic abnormal gluconeogenesis. Furthermore, in antibiotic-treated obese mice, L. cylindrica supplementation did not change these gene expressions along with the hepatic levels of lipid and amino acids. Taken together, L. cylindrica supplementation could effectively suppress hepatic steatosis in diet-induced obese mice through inhibiting lipid synthesis and enhancing amino acid levels in liver, which depended on gut microbiota. Thus, L. cylindrica might be one promising dietary supplementation targeting at gut microbiota to reduce NAFLD risk. Notwithstanding the fact that dietary branched-chain amino acids (BCAAs) have been considered to be a cause of insulin resistance (IR), evidence indicates that BCAA-rich whey proteins (WPs) do not lead to IR in animals consuming high-fat (HF) diets and may instead improve glucose homeostasis. To address the role of BCAA-rich WP as dietary protein in IR and inflammatory response, we fed C57BL/6J mice either high-fat (HF) or low-fat (LF) diets formulated with moderate protein levels (13% w/w) of either WP or hydrolyzed WP (WPH) and compared them with casein (CAS) as a reference. The muscle and plasma free amino acid profiles, inflammatory parameters and glycemic homeostasis were examined. While the LF/CAS diet promoted the rise in triglycerides and inflammatory parameters, the HF/CAS induced typical IR responses and impaired biochemical parameters. No differences in plasma BCAAs were detected, but the HF/WPH diet led to a twofold increase in gastrocnemius muscle free amino acids, including BCAAs. In general, ingestion of WPH was effective at averting or attenuating the damage caused by both the LF and HF diets. No high concentrations of BCAAs in the plasma or signs of IR were found in those mice fed an HF diet along with the hydrolyzed whey proteins. It is concluded that consumption of BCAA-rich whey proteins, especially WPH, does not result in the development of IR. BACKGROUND Tumefactive demyelination presents as an aggressive, fast progressive focal demyelinating lesion in the central nervous system, with often devastating clinical outcome if not acutely treated. Correct and early treatment is threatened by its real diagnostic challenge. CASE REPORT We describe a 47-year-old man with tumefactive demyelination and testicular seminoma. He presented with aphasia, cognitive impairment and right sided weakness of the arm and lower face. MRI revealed a lesion characteristic of tumefactive demyelination. Cerebral biopsy confirmed this diagnosis. In addition, a testicular seminoma was diagnosed. Temporal association of demyelination and malignancy was highly suggestive for a paraneoplastic syndrome. He responded well to corticosteroid therapy plus orchiectomy, but a behavioral disturbance remained. DISCUSSION A good knowledge of specific imaging characteristics of tumefactive demyelination can help in early diagnosis. Multiple underlying causes should be considered, including, but not limited to multiple sclerosis. A paraneoplastic syndrome should not be overlooked. This is the fifth case in which seminoma is associated with a paraneoplastic tumefactive demyelination lesion. SIRT1 (NAD+-dependent deacetylase) plays a suppressive role during the late stages of adipogenesis. However, the effects of SIRT1 on the early phases of adipogenic differentiation from embryonic stem cells (ESCs) are poorly understood. We employed Sirt1+/+ and Sirt1-/- mouse embryonic stem cells (mESCs) to evaluate the role of SIRT1 during the early stage mESC differentiation to adipocytes in response to retinoic acid (RA) treatment. Treatment with EX527 (a SIRT1 inhibitor) during the early phase and SIRT1 knockout both significantly diminished differentiation to mature adipocytes. Expressions of marker genes of preadipocytes, brown adipocytes, and brite cells were significantly lower in Sirt1-/- mESCs than in Sirt1+/+ mESCs. Furthermore, SIRT1 knockout reduced RA-induced RA receptor (RAR)α and RARβ mRNA and protein expressions during early adipocyte differentiation. Nuclear receptor corepressor 1 (NCOR1), a negative regulator of RAR signaling, expression, and acetylation levels were higher in Sirt1-/- than in Sirt1+/+ mESCs.

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