Dysfunctional metal homeostasis contributes to oxidativestress and neuronal damage. These have been implicatedin hepatic encephalopathy pathogenesis. To investigatewhether altered metal metabolism is associated with hepaticencephalopathy. Twenty-one controls and 34 HCV-cirrhoticpatients (ENC/NEC patients according to presence/absenceof previous overt episodes of hepatic encephalopathy) and acontrol group were studied. Serum iron, copper, ceruloplasmin,ceruloplasmin activity, transferrin, and ceruloplasmin/transferrin ratio were determined. Neuropsychological testswere performed by the repeatable battery of neuropsychologicalstatus. Magnetic resonance assessed basal ganglia volumesand metal deposition (pallidal index and T2*). Cirrhoticpatients performed worse than controls at cognitive tests, especiallyENC patients,. At biochemical analysis copper concentrations,ceruloplasmin activity and transferrin levels werelower in ENC than in NEC patients and controls (p<0.05 andp<0.01, respectively). Ceruloplasmin/transferrin ratio washigher in ENC compared to NEC patients (p<0.05), and controls(p<0.01). By brain magnetic resonance, ENC patientsshowed reduced caudate and globus pallidus volumes comparedto controls (p<0.05), and ENC and NEC patients anincreased pallidal index compared to controls (p<0.01). InENC patients, ceruloplasmin activity correlated with caudatevolume and pallidal index (ρ=0.773 and ρ=−0.683, p<0.05).Altered metal metabolism likely contributes to cirrhotic hepaticencephalopathy.

Altered metal metabolism in patients with HCV-related cirrhosis and hepatic encephalopathy

Vespasiani Gentilucci U;Quintiliani L;Greco F;Quattrocchi CC;Picardi A;Vernieri F
2015-01-01

Abstract

Dysfunctional metal homeostasis contributes to oxidativestress and neuronal damage. These have been implicatedin hepatic encephalopathy pathogenesis. To investigatewhether altered metal metabolism is associated with hepaticencephalopathy. Twenty-one controls and 34 HCV-cirrhoticpatients (ENC/NEC patients according to presence/absenceof previous overt episodes of hepatic encephalopathy) and acontrol group were studied. Serum iron, copper, ceruloplasmin,ceruloplasmin activity, transferrin, and ceruloplasmin/transferrin ratio were determined. Neuropsychological testswere performed by the repeatable battery of neuropsychologicalstatus. Magnetic resonance assessed basal ganglia volumesand metal deposition (pallidal index and T2*). Cirrhoticpatients performed worse than controls at cognitive tests, especiallyENC patients,. At biochemical analysis copper concentrations,ceruloplasmin activity and transferrin levels werelower in ENC than in NEC patients and controls (p<0.05 andp<0.01, respectively). Ceruloplasmin/transferrin ratio washigher in ENC compared to NEC patients (p<0.05), and controls(p<0.01). By brain magnetic resonance, ENC patientsshowed reduced caudate and globus pallidus volumes comparedto controls (p<0.05), and ENC and NEC patients anincreased pallidal index compared to controls (p<0.01). InENC patients, ceruloplasmin activity correlated with caudatevolume and pallidal index (ρ=0.773 and ρ=−0.683, p<0.05).Altered metal metabolism likely contributes to cirrhotic hepaticencephalopathy.
2015
Ammonia; Ceruloplasmin; Copper
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12610/7465
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