Muscle depletion increases the risk of overt and minimal hepatic encephalopathy: results of a prospective study.
about
Nutritional assessment in cirrhotic patients with hepatic encephalopathyReprint of: Nutrition in the Management of Cirrhosis and its Neurological ComplicationsClinical relevance of sarcopenia in patients with cirrhosis.Changes in skeletal muscle mass after endoscopic treatment in patients with esophageal varices.Changes in nutritional status after liver transplantationMicrobiota and the gut-liver axis: bacterial translocation, inflammation and infection in cirrhosis.Inclusion of Sarcopenia Within MELD (MELD-Sarcopenia) and the Prediction of Mortality in Patients With CirrhosisFrailty is independently associated with increased hospitalisation days in patients on the liver transplant waitlist.Nutrition in the management of cirrhosis and its neurological complications.Review article: sarcopenia in cirrhosis--aetiology, implications and potential therapeutic interventions.Sarcopenia in Alcoholic Liver Disease: Clinical and Molecular Advances.Cause and management of muscle wasting in chronic liver disease.Clinical utility of bioimpedance analysis in liver cirrhosis.Lower values of handgrip strength and adductor pollicis muscle thickness are associated with hepatic encephalopathy manifestations in cirrhotic patients.Nutrition and Alcoholic Liver Disease: Effects of Alcoholism on Nutrition, Effects of Nutrition on Alcoholic Liver Disease, and Nutritional Therapies for Alcoholic Liver Disease.Sarcopenia from mechanism to diagnosis and treatment in liver disease.A practical approach to nutritional screening and assessment in cirrhosis.Low phase angle is associated with the development of hepatic encephalopathy in patients with cirrhosis.Sarcopenia predicts minimal hepatic encephalopathy in patients with liver cirrhosis.What is new about diet in hepatic encephalopathy.Subjective Global Assessment and Handgrip Strength as Predictive Factors in Patients with Liver Cirrhosis.Protein restriction in hepatic encephalopathy is appropriate for selected patients: a point of view.Metabolic adaptation of skeletal muscle to hyperammonemia drives the beneficial effects of l-leucine in cirrhosis.Treatment to improve nutrition and functional capacity evaluation in liver transplant candidates.Predictors Associated with Increase in Skeletal Muscle Mass after Sustained Virological Response in Chronic Hepatitis C Treated with Direct Acting Antivirals.The Challenges of Nutritional Assessment in Cirrhosis.Myostatin and beyond in cirrhosis: all roads lead to sarcopenia.Nutrition and Muscle in Cirrhosis.Interventions to improve physical function and prevent adverse events in cirrhosis.Ammonia lowering reverses sarcopenia of cirrhosis by restoring skeletal muscle proteostasis.Diagnostic Criteria and Clinical Outcomes in Sarcopenia Research: A Literature Review.Nutritional issues in patients with obesity and cirrhosis
P2860
Q26771155-EC1B8F84-763B-4A7C-AF78-09E10972FC6AQ28087493-5D7F318E-F40A-473E-B2B3-0E32934FB7D6Q33845474-4DA58EE0-853A-4858-932F-CC2C362FB7A2Q33879877-FBBC2754-6C29-4D10-9118-CC9BC4B4C3B1Q34067831-302767B5-4156-4815-B5C4-F3F3643E9FD3Q34647371-9153F263-AFFC-4BE8-8D87-982B5DB6FC37Q36752026-7A6EBEE7-74B3-40FD-BCD6-C1145D83A526Q37629725-8380CF6A-3AF4-4102-8F67-A2B51C0ACBA4Q38371556-8BFE08B7-D646-4D6D-8276-F016EBBFC45CQ38723591-854C6D17-6E76-4814-AF0A-EF953EB1DD60Q38756962-282263A0-3714-4E34-A4D0-796017FBE39DQ38773837-0EC14662-7B05-4EA2-8676-049BF847AFFAQ38858744-33FCEED2-34E9-444F-BF32-EC2B91585093Q38883833-1BAED62F-C7FD-4238-A12B-3FD4B60BBB3AQ38884714-EF1377FA-2913-43C6-94B1-0C3E2CA7A55FQ38925372-E28F3A05-69ED-4291-9437-21C97C830F35Q39058937-580F6A51-891B-4BA7-92DD-8A59BC70E646Q40395597-7AABAD66-C77D-4E9F-9679-BC1D5DA7DA10Q40443991-AB41100D-41E8-4BA9-BFF1-D501B702A4B8Q40486028-F7AB7F90-C905-46ED-9515-F2ECEE5D32D9Q41215505-8FD2F8AF-771B-4CD0-B44B-35CD5B48F68FQ42694796-709C033D-1202-430D-850E-BFECAB7A2237Q42707372-F6B02C66-06CD-4A86-937F-5BBC0B572269Q42722393-5ACFD3BC-2AE8-40E9-9036-2A59E0666924Q45372289-EAFF02DB-E1E6-4FA6-BEFC-82B81A9E065DQ46847997-8D11E5C0-01B1-4EF8-9D58-1EA2D13DDC16Q47172232-6EA395BE-208C-432A-950B-CBAD09298FD9Q47300465-6585BB70-8805-4206-9191-67068790EB26Q50233423-783F82CF-9950-4C8D-A342-394512E31149Q51138513-F1FBA1CA-813C-44D5-AB1C-BF2E85ECC30EQ54979042-7CECA021-6CB4-4623-9076-3E41D1CE33A9Q58782777-D16549AC-E4E3-41A9-8BA9-C98CDF7E600F
P2860
Muscle depletion increases the risk of overt and minimal hepatic encephalopathy: results of a prospective study.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Muscle depletion increases the ...... esults of a prospective study.
@en
Muscle depletion increases the ...... esults of a prospective study.
@nl
type
label
Muscle depletion increases the ...... esults of a prospective study.
@en
Muscle depletion increases the ...... esults of a prospective study.
@nl
prefLabel
Muscle depletion increases the ...... esults of a prospective study.
@en
Muscle depletion increases the ...... esults of a prospective study.
@nl
P2093
P2860
P50
P1476
Muscle depletion increases the ...... esults of a prospective study.
@en
P2093
Cristina Lucidi
Ilaria Pentassuglio
Michela Giusto
Valerio Giannelli
Vincenza Di Gregorio
P2860
P2888
P304
P356
10.1007/S11011-012-9365-Z
P577
2012-12-07T00:00:00Z