Bibliography
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Cerebrospinal fluid cell-free mitochondrial DNA is associated with HIV replication, iron transport, and mild HIV-associated neurocognitive impairment. J Neuroinflammation. 2017 ;14(1):72.
Genome-wide association study of HIV-associated neurocognitive disorder (HAND): A CHARTER group study. Am J Med Genet B Neuropsychiatr Genet. 2017 ;174(4):413-426.
MMPs/TIMPs imbalances in the peripheral blood and cerebrospinal fluid are associated with the pathogenesis of HIV-1-associated neurocognitive disorders. Brain Behav Immun [Internet]. 2017 ;65:161-172. Available from: https://www.ncbi.nlm.nih.gov/pubmed/28487203
. Modifications in acute phase and complement systems predict shifts in cognitive status of HIV-infected patients. AIDS. 2017 ;31(10):1365-1378.
Personalized Risk Index for Neurocognitive Decline Among People With Well-Controlled HIV Infection. J Acquir Immune Defic Syndr. 2017 ;76(1):48-54.
. Plasma soluble CD163 is associated with postmortem brain pathology in human immunodeficiency virus infection. AIDS. 2017 ;31(7):973-979.
Predictors and Impact of Self-Reported Suboptimal Effort on Estimates of Prevalence of HIV-Associated Neurocognitive Disorders. J Acquir Immune Defic Syndr. 2017 ;75(2):203-210.
. Screening for neurocognitive impairment in HIV-positive adults aged 50 years and older: Montreal Cognitive Assessment relates to self-reported and clinician-rated everyday functioning. J Clin Exp Neuropsychol. 2017 ;39(9):842-853.
. Anemia and Red Blood Cell Indices Predict HIV-Associated Neurocognitive Impairment in the Highly Active Antiretroviral Therapy Era. J Infect Dis. 2016 ;213(7):1065-73.
Expression of CHRFAM7A and CHRNA7 in neuronal cells and postmortem brain of HIV-infected patients: considerations for HIV-associated neurocognitive disorder. J Neurovirol. 2016 ;22(3):327-35.
. HIV-associated neurocognitive disorder is associated with HIV-1 dual infection. AIDS. 2016 ;30(17):2591-2597.
Identifying Neurocognitive Decline at 36 Months among HIV-Positive Participants in the CHARTER Cohort Using Group-Based Trajectory Analysis. PLoS One. 2016 ;11(5):e0155766.
. Increased Intrathecal Immune Activation in Virally Suppressed HIV-1 Infected Patients with Neurocognitive Impairment. PLoS One. 2016 ;11(6):e0157160.
Lower CSF Aβ is Associated with HAND in HIV-Infected Adults with a Family History of Dementia. Curr HIV Res. 2016 ;14(4):324-30.
Multilevel analysis of neuropathogenesis of neurocognitive impairment in HIV. J Neurovirol. 2016 ;22(4):431-41.
. Neuropsychological, Neurovirological and Neuroimmune Aspects of Abnormal GABAergic Transmission in HIV Infection. J Neuroimmune Pharmacol. 2016 ;11(2):279-93.
. Role of Sigma Receptor in Cocaine-Mediated Induction of Glial Fibrillary Acidic Protein: Implications for HAND. Mol Neurobiol. 2016 ;53(2):1329-1342.
. The Veterans Aging Cohort Study (VACS) Index and Neurocognitive Change: A Longitudinal Study. Clin Infect Dis. 2016 ;63(5):694-702.
. Abdominal obesity contributes to neurocognitive impairment in HIV-infected patients with increased inflammation and immune activation. J Acquir Immune Defic Syndr. 2015 ;68(3):281-8.
Cortical neurons are a prominent source of the proinflammatory cytokine osteopontin in HIV-associated neurocognitive disorders. J Neurovirol. 2015 ;21(2):174-85.
. CSF biomarkers of monocyte activation and chemotaxis correlate with magnetic resonance spectroscopy metabolites during chronic HIV disease. J Neurovirol. 2015 ;21(5):559-67.
Factors related to HIV-associated neurocognitive impairment differ with age. J Neurovirol. 2015 ;21(1):56-65.
. HIV-1 Tat alters neuronal autophagy by modulating autophagosome fusion to the lysosome: implications for HIV-associated neurocognitive disorders. J Neurosci. 2015 ;35(5):1921-38.
HIV-infected microglia mediate cathepsin B-induced neurotoxicity. J Neurovirol. 2015 ;21(5):544-58.
. Mitochondrial DNA Haplogroups and Neurocognitive Impairment During HIV Infection. Clin Infect Dis. 2015 ;61(9):1476-84.