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Impaired gallbladder motility and delayed orocecal transit contribute to pigment gallstone and biliary sludge formation in beta-thalassemia major adults.Epidemiological transition of colorectal cancer in developing countries: environmental factors, molecular pathways, and opportunities for prevention.Clustering nuclear receptors in liver regeneration identifies candidate modulators of hepatocyte proliferation and hepatocarcinomaModulation of cholesterol crystallization in bile. Implications for non-surgical treatment of cholesterol gallstone disease.Intestinal mucosal damage caused by non-steroidal anti-inflammatory drugs: role of bile salts.Current treatments of primary sclerosing cholangitis.Integrative genetic, epigenetic and pathological analysis of paraganglioma reveals complex dysregulation of NOTCH signaling.Lipid-sensing nuclear receptors in the pathophysiology and treatment of the metabolic syndrome.Fatty Acid and Glucose Sensors in Hepatic Lipid Metabolism: Implications in NAFLD.Phenyl-γ-valerolactones, flavan-3-ol colonic metabolites, protect brown adipocytes from oxidative stress without affecting their differentiation or function.Polyphenol administration impairs T-cell proliferation by imprinting a distinct dendritic cell maturational profile.Age-related changes in basal substrate oxidation and visceral adiposity and their association with metabolic syndrome.Lipid zonation and phospholipid remodeling in nonalcoholic fatty liver disease.Down-regulation of the LXR transcriptome provides the requisite cholesterol levels to proliferating hepatocytes.Long-term functional assessment of antegrade colonic enema for combined incontinence and constipation using a modified Marsh and Kiff technique.Beneficial effects of oral tilactase on patients with hypolactasia.Pericardial Adipose Tissue Regulates Granulopoiesis, Fibrosis and Cardiac Function After Myocardial Infarction.Nuclear receptors expression chart in peripheral blood mononuclear cells identifies patients with Metabolic Syndrome.Short-term benefits of an unrestricted-calorie traditional Mediterranean diet, modified with a reduced consumption of carbohydrates at evening, in overweight-obese patients.Identification of miR-9-5p as direct regulator of ABCA1 and HDL-driven reverse cholesterol transport in circulating CD14+ cells of patients with metabolic syndrome.Genes and miRNA expression signatures in peripheral blood mononuclear cells in healthy subjects and patients with metabolic syndrome after acute intake of extra virgin olive oil.Multidetector computed tomography in the preoperative evaluation of retrosternal goiters: a useful procedure for patients for whom magnetic resonance imaging is contraindicated.Identification of peculiar gene expression profile in peripheral blood mononuclear cells (PBMC) of celiac patients on gluten free diet.Hepatic steatosis risk is partly driven by increased de novo lipogenesis following carbohydrate consumption.The inulin hydrogen breath test predicts the quality of colonic preparationPrevention of spontaneous hepatocarcinogenesis in farnesoid X receptor-null mice by intestinal-specific farnesoid X receptor reactivationParallel intestinal and liver injury during early cholestasis in the rat: modulation by bile salts and antioxidantsUse of Proxis for percutaneous coronary intervention in patients with totally occluded saphenous vein grafts: an alternative approachAdipose Tissue-Liver Cross Talk in the Control oef Whole-Body Metabolism: Implications in Nonalcoholic Fatty Liver DiseaseHepatic microRNA Expression by PGC-1α and PGC-1β in the Mouse
P50
Q30402581-E575B9FB-6323-41D7-9D1A-4A520423C1AFQ33661094-EE7118B1-CF83-485B-9789-CA805C70A632Q34035095-D5CFAF58-7150-4B22-986E-6A5CAE8D1FA7Q36223448-F1ED19E1-EB44-4283-9CC3-8F3CEEB5DEF9Q36744903-9E9566AB-6237-42AC-B87B-935353031710Q36907309-5AEECDDF-D9D3-400D-A1A1-3DCA47E695B1Q37213634-65799DDF-857A-4E6D-8000-E65D96254912Q37900938-03DF5541-DAF4-408F-A0B2-196FE06E1229Q38588334-7B6F8A56-7AAE-4C1A-B3AE-F034D06F56B4Q38918998-CE573791-C071-42F6-9AA8-3477E9467E36Q40814414-F1A540B9-F944-4A41-A3DB-7945EF8622CFQ41522422-58EE9147-BEFF-4704-9257-747AD0D18478Q42014196-66CD1DEE-5081-4012-B51C-3104C15BCF01Q43203668-5CD44DEB-45EC-40C1-A6B0-7A814737F257Q43344541-92D55BBF-B81E-4262-87DA-29884C9DA202Q46236344-422AF023-5DB3-4F0D-BCF0-337541D29E90Q47322640-5AA6AC45-0B24-4964-AEA7-493F746832EFQ50720066-9F69DA49-AA90-447F-93F1-8DA8035D5A07Q51521179-5A920059-A9A5-4DA8-9D1C-BB6C8211E0F8Q52627907-D39F6404-7930-425C-8979-5FE88F45C3C9Q53060696-56214080-3E72-45B5-BD03-CB6AB3770894Q53309932-3B6F6BB1-6405-43ED-9B2C-B0CF4AD41C63Q55213658-D8BF4F04-2A01-408A-92EF-BBF2800A1814Q55315063-58044D29-9C77-46B1-9885-B405AD9EF58FQ57110644-57169204-7479-4475-AC77-22E5493ED476Q57147768-943F0814-E0B9-4CF6-86D7-1EBAEDC13788Q80063796-1E59B1D1-DCD8-4FB7-A93C-EE56F939E123Q84075490-9D853F4B-7475-46D2-9178-4977F8822E21Q89728172-8FD37C2E-011A-433B-BF99-CF8E55EAD00BQ91299330-02A53DB5-CCFF-430D-A034-56996F2BDE49
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Michele Vacca
@ast
Michele Vacca
@en
Michele Vacca
@es
Michele Vacca
@nl
Michele Vacca
@sl
type
label
Michele Vacca
@ast
Michele Vacca
@en
Michele Vacca
@es
Michele Vacca
@nl
Michele Vacca
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prefLabel
Michele Vacca
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Michele Vacca
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Michele Vacca
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Michele Vacca
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Michele Vacca
@sl
P1053
B-4736-2013
P106
P1153
35785284900
P31
P496
0000-0002-1973-224X