Psychosocial impact of paediatric demyelinating disorders: a scoping review.

AIM: To: (1) provide greater insight into the psychological and social impact of a range of demyelinating disorders, (2) explore differences between disorders, and (3) provide direction for future research. METHOD: Studies were identified by searching online databases. Studies that explored the psychological, emotional, or social impact of a range of demyelinating disorders in childhood, including acute disseminated encephalomyelitis (ADEM), optic neuritis, transverse myelitis, and multiple sclerosis, were included and screened independently by three authors. Data on the design, sample characteristics, psychosocial measures, key findings, and methodological strengths and limitations were extracted. Twenty-five studies were included in the narrative synthesis. RESULTS: Demyelinating disorders are associated with lower quality of life, affecting young people's emotional, social, school, and behavioural functioning. There is a high prevalence of psychiatric disorders and fatigue, particularly in multiple sclerosis. Subtle differences exist in the psychological presentation between different demyelinating disorders, with clear gaps in the research for the long-term psychosocial impact of monophasic conditions. INTERPRETATION: The difference between the impact of monophasic and relapsing demyelinating disorders on psychosocial functioning is unclear. Future research should aim to identify the psychosocial impact across disorders and over time, ensure that services are capturing those patients who may benefit from tailored interventions. WHAT THIS PAPER ADDS: Prevalence of psychiatric diagnoses in paediatric demyelinating disorders is higher than controls. Depression and emotional concerns are elevated in paediatric demyelinating disorders. Demyelinating disorders impact children's quality of life across school, social, and physical functioning.

Psychiatric disorders in children with demyelinating diseases of the central nervous system.

INTRODUCTION: The profile of psychiatric disorders associated with multiple sclerosis (MS) may differ in children. We aimed to assess the risk of psychiatric disorders in children with MS and other demyelinating diseases, and vice versa. PATIENTS AND METHODS: We analyzed linked English Hospital Episode Statistics, and mortality data, 1999-2011. Cohorts were constructed of children admitted with MS and other central nervous system (CNS) demyelinating diseases. We searched for any subsequent episode of care with psychiatric disorders in these cohorts and compared to a reference cohort. RESULTS: Children with CNS demyelinating diseases had an increased rate of psychotic disorders (rate ratio (RR) = 5.77 (95% confidence interval (CI) = 2.48-11.41)); anxiety, stress-related, and somatoform disorders (RR = 2.38 (1.39-3.81)); intellectual disability (RR = 6.56 (3.66-10.84)); and other behavioral disorders (RR = 8.99 (5.13-14.62)). In analysis of the pediatric MS cohort as the exposure, there were elevated rates of psychotic disorders (RR = 10.76 (2.93-27.63)), mood disorders (RR = 2.57 (1.03-5.31)), and intellectual disability (RR = 6.08 (1.25-17.80)). In reverse analyses, there were elevated rates of a recorded hospital episode with CNS demyelinating disease after a previous recorded episode with anxiety, stress-related, and somatoform disorders; attention-deficit hyperactivity disorder (ADHD); autism; intellectual disability; and other behavioral disorders. CONCLUSION: This analysis of a national diagnostic database provides strong evidence for an association between pediatric CNS demyelinating diseases and psychiatric disorders, and highlights a need for early involvement of mental health professionals.

Restraint stress fails to render C57BL/6 mice susceptible to Theiler's virus-induced demyelination.

OBJECTIVES: Multiple sclerosis is a degenerative disease of the CNS with a pathology consistent with immunological mediation. Although its cause is unknown, multiple factors are thought to influence both the onset and exacerbation of the disease, including both genetic background as well as environmental factors. METHODS: We are interested in the effect of psychological stress on the onset and exacerbation of Theiler's virus-induced demyelinating disease (TVID), a murine model of MS in which viral persistence facilitates demyelination. In the current study, we determined whether chronic restraint stress (RS)-induced immunosuppression could result in the establishment of a persistent CNS infection in the normally TVID-resistant C57BL/6 mouse strain, resulting in demyelination. RESULTS: Our data indicated that RS repeated over the course of 7 days was not sufficient to cause decreases in virus-specific adaptive immunity, and did not significantly alter CNS viral levels. Furthermore, chronic repeated RS lasting until 4 weeks after infection altered neither the development of virus-specific IgG nor motor function determined by Rotarod analysis. In addition, histological analysis of the CNS of stressed mice indicated no inflammation or demyelination on day 193 after infection. CONCLUSION: These results suggest that stress alone is not sufficient to overcome genetic resistance to TVID in the C57BL/6 mouse strain.

[The mild encephalitis-hypothesis--new findings and studies]. / Die milde Enzephalitishypothese--neue Befunde und Studien.

Causes and pathogenesis of psychiatric disorders is poorly understood. Infections by viruses or other agents may disturb neurotransmitters and elicit behavioral abnormalities, and induce long lasting immune reactions, referred to as mild encephalitis (ME). New findings (pathology, biochemistry, imaging) in schizophrenia and bipolar psychoses are compatible with ME hypothesis. In Chorea Sydenham and PANDAS syndrome autoimmune ME seems to explain anxiety-compulsive-hyperactivity symptoms. Add-on-therapy with Cox-II-blockers or valacyclovir improved acute schizophrenia, CSF filtration some cases of therapy resistant psychoses.

Chronic restraint stress during early Theiler's virus infection exacerbates the subsequent demyelinating disease in SJL mice.

Chronic restraint stress, administered during early infection with Theiler's virus, was found to exacerbate the acute central nervous system (CNS) viral infection and the subsequent demyelinating phase of disease (an animal model of Multiple Sclerosis (MS)) in SJL male and female mice. During early infection, stressed mice displayed decreased body weights and spontaneous activity; while increased behavioral signs of illness and plasma corticosterone (CORT) levels. During the subsequent chronic demyelinating phase of disease, previously stressed mice had greater behavioral signs of the chronic phase, worsened rotarod performance, and increased inflammatory lesions of the spinal cord. In addition, mice developed autoantibodies to myelin basic protein (MBP), proteolipid protein peptide (PLP139-151), and myelin oligodendrocyte glycoprotein peptide (MOG33-55).

Psychiatric presentations of non-HIV infectious diseases. Neurocysticercosis, Lyme disease, and pediatric autoimmune neuropsychiatric disorder associated with streptococcal infection.

Infectious diseases can cause an array of symptoms, including psychiatric symptoms. Psychiatrists serving the medically ill need to be aware not only of classic infectious diseases (e.g., neurosyphilis and HIV), but also of less commonly discussed infectious diseases (e.g., NCC, PANDAS, and Lyme disease). These examples represent an internationally endemic disease (e.g., NCC), a probable immunogenetic disease (e.g., PANDAS), and a frequently overdiagnosed and overtreated disease (Lyme disease).

Demyelination but no cognitive, motor or behavioral deficits after adenovirus-mediated gene transfer into the brain.

Adenovirus-mediated gene transfer of interferon gamma (AdIFN) elicits rejection of intracerebral Lewis lung carcinoma. In this system, gene transfer into brain parenchymal cells is both necessary and sufficient to generate the antitumor response. Despite persistent parenchymal inflammation and demyelination, wild-type mice injected intracerebrally with either AdIFN or beta-galactosidase adenovirus (AdBGAL) perform as well as non-injected animals in behavioral, memory, and motor tests. Both AdIFN and AdBGAL elicit demyelination whose incidence rises sharply when the lowest effective dose of AdIFN is exceeded. Therefore, transfer of interferon gamma into brain parenchyma does not seem to elicit detectable cognitive, behavioral or motor deficits. Furthermore, gene transfer into the brain, by adenoviral vectors currently in clinical trials, is associated with a narrow therapeutic window where the incidence of demyelination rises sharply soon after the effective dose is achieved. Gene Therapy (2000) 7, 2094-2098.