Abstract
Chronic hepatitis C virus (HCV) infection is commonly associated with neurocognitive dysfunction, altered neuropsychological performance and neuropsychiatric symptoms. Quantifiable neuropsychological changes in sustained attention, working memory, executive function, verbal learning and recall are the hallmark of HCV-associated neurocognitive disorder (HCV-AND). This constellation is at variance with the neuropsychological complex that is seen in minimal hepatic encephalopathy, which is typified by an array of alterations in psychomotor speed, selective attention and visuo-constructive function. Noncognitive symptoms, including sleep disturbances, depression, anxiety and fatigue, which are less easily quantifiable, are frequently encountered and can dominate the clinical picture and the clinical course of patients with chronic HCV infection. More recently, an increased vulnerability to Parkinson’s disease among HCV-infected patients has also been reported. The degree to which neurocognitive and neuropsychiatric changes are due to HCV replication within brain tissues or HCV-triggered peripheral immune activation remain to be determined. Without absolute evidence that clearly exonerates or indicts HCV, our understanding of the so-called “HCV brain syndrome”, relies primarily on clinical and neuropsychological assessments, although other comorbidities and substance abuse may impact on neurocognitive function, thus confounding an appropriate recognition. In recent years, a number of functional and structural brain imaging studies have been of help in recognizing possible biological markers of HCV-AND, thus providing a rationale for guiding and justifying antiviral therapy in selected cases. Here, we review clinical, neuroradiological, and therapeutic responses to interferon-based and interferon-free regimens in HCV-related cognitive and neuropsychiatric disorder.
Highlights
Chronic hepatitis C virus (HCV) infection is associated with major hepatic and extrahepatic complications, including a number of neurological conditions [1,2].Neuropsychiatric symptoms and neurocognitive dysfunction frequently occur in patients with chronic HCV infection, independent of liver disease severity or the rate of HCV replication
We review the spectrum of HCV-related neuroimaging changes associated with cognitive and neuropsychiatric changes which are subsumed under the terms HCV-associated neurocognitive disorder (HCV-AND) and “HCV brain syndrome”, and we examine the effects of antiviral therapy in subjects treated with old and new anti-HCV drugs
Interferon α (IFN-α) and pegylated IFN-α have been the only effective treatments for HCV, showing rates of sustained virologic response (SVR), i.e., undetectable serum HCV RNA at 24 weeks after treatment completion, as high as 50–80% when associated with ribavirin [59]
Summary
Chronic hepatitis C virus (HCV) infection is associated with major hepatic and extrahepatic complications, including a number of neurological conditions [1,2]. Neuropsychological tests have been used for cognitive assessment in HCV-associated neurocognitive disorder (HCV-AND) and include different batteries for global cognition, frontal-lobe function, mood, attention, memory and behavioral evaluation. MRS uses the magnetic resonance signal of a specific atom, usually hydrogen, to evaluate the concentration of selected cerebral metabolites in a particular volume [13] Both single voxel and multivoxel assessments can be obtained. Regions of interlacing white matter bundles with different orientations, or asymmetric loss of fibers instead result in higher anisotropy due to reduced complexity; · Mean diffusivity (MD): overall spatial restraint due to cellular structures. NAA: N-acetyl-aspartate; MRS: magnetic resonance spectroscopy; DTI: diffusion tensor imaging; PWI: perfusion-weighted imaging; fMRI: functional magnetic resonance imaging; PET: positron emission tomography; SPECT: single photon emission computed tomography DAT: Dopamine Active Transporter; SERT Serotonin Transporter. IFN-α: Interferon α; DAA: direct-acting antiviral agents; MD: mean diffusivity; FA: fractional anisotropy; WM: white matter; CC: corpus callosum; GM: grey matter; Cho: choline; mI: myoinositol
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