Schizophrenia Clinical Trial
Official title:
Indicated Prevention With Omega-3 Fatty Acids in Adolescents With 'At-Risk-Mental-State' for Psychosis: A Randomised, Double Blind, Placebo-Controlled Treatment Trial
Early intervention in psychosis might be associated with better outcomes. However, intervention in the pre-psychotic phase has been questioned as, using current criteria, only 20-50% of individuals classified as prodromal develop a psychotic disorder within a 1-2 years period. Treatment agents investigated in the pre-psychotic phase of schizophrenia and other psychotic disorders should, therefore, not have major side effects. This proposal investigates omega-3 fatty acids (1.2 gramm per day eicosapentaenoic acid/docosahexaenoic acid;EPA/DHA) as a beneficial and possible preventive therapeutic agent in young people at ultra high-risk for developing a psychotic disorder.
1. Aims of the study The principal aim is to test if 1.2 g/day EPA/DHA can prevent
transition to first-episode psychosis in 13-25 year old ultra-high risk individuals.
Specifically we propose to investigate:
- The clinical effects of EPA/DHA supplementation as an adjunct to standard therapy
in individuals with 'At-Risk Mental State' (ARMS) for psychosis as defined by the
PACE criteria (Yung et al., 1998).
- Lipid metabolism in peripheral tissue pre/post treatment by 1./analyzing bioactive
lipid composition of red-blood cell membranes, 2./measuring phospholipase A2
(cPLA2) activity in serum (the enzyme responsible for the cleavage of arachidonic
acid (AA) and other precursors of bioactive lipids from glycerophospholipids (GPL)
and 3./the topical niacin flush test (a clinical test of the AA-prostaglandin D2
cascade).
2. Background and evidence that bioactive lipids are altered in schizophrenia and can be
influenced by EPA/DHA supplementation
There is suggestion that early intervention in psychosis might be associated with
better outcomes (Norman & Malla, 2001). However, intervention in the pre-psychotic
phase has been questioned as, using current criteria, only 20-50% of individuals
classified as prodromal develop a psychotic disorder within a 1-2 years period
(McGlashan et al., 2001). Treatment agents investigated in the pre-psychotic phase of
schizophrenia and other psychotic disorders should, therefore, not have major side
effects. This proposal introduces EPA/DHA, two omega-3 essential fatty acids (EFA), as
a beneficial and possible preventative therapeutic agent in young people at ultra
high-risk for developing a psychotic disorder.
Bioactive lipids and their role in the brain Bioactive lipids are molecules that have
both intra- and intercellular roles, including mediation, modulation and control of
neurobiological processes, such as ion channel and receptor activity, neurotransmitter
release, synaptic plasticity, second messenger pathways and neuronal gene expression
(Agranoff et al., 1998). Emphasis has been placed on AA and its metabolites, known
collectively as eicosanoids. A major proportion of lipids in the brain consist of
bioactive lipids such as AA and its metabolites, also referred to as EFA, which are
mainly bound to GPL. Bioactive lipids are released through direct and indirect
enzymatic pathways (e.g., phospholipases) from membrane GPL. AA is a precursor of
prostaglandins, thromboxanes, leukotriens (5-HpETE) and prostacyclins. Animal studies
and preliminary studies in humans have shown an association between bioactive lipid
metabolism, behaviour and cognition (Zimmer et al., 2000).
Reduced membrane EFA in schizophrenia Abnormal membrane GPL EFA metabolism has been
suggested to contribute to the aetiopathophysiology of schizophrenia. A recent review
of 15 published studies confirmed a depletion of bioactive lipids in cell membranes of
patients with schizophrenia (Fenton et al., 2000). The most consistent findings were
reductions in AA and its precursors, and these were independent of drug treatment (Yao
et al., 1996). Reductions in AA and its precursors have also been found in post mortem
brains of patients with schizophrenia, relative to normal control brains [Yao et al.,
2000]. Yao and van Kammen (1996) suggested that defective uptake of AA into membrane
GPL was a possible aetiopathological mechanism in schizophrenia, whereas Peet et al.
(1996), who reported an additional increase of EFA peroxidation products, suggested
there was increased breakdown of membrane GPL.
Khan et al. (2002) reported on erythrocyte membrane EFA levels and levels of plasma
lipid peroxides, products of damaged EFAs, in drug-naive patients within +/-4.5 days of
onset of psychosis. The levels of EFAs, particularly AA and docosahexaenoic acid (DHA)
were significantly lower in drug-naive patients at the onset of psychosis compared to
matched normal controls. These lower EFA levels were associated with significantly
higher levels of lipid peroxides in patients. The levels of AA and DHA were also lower
and lipid peroxides higher in chronic medicated patients than normal controls.
Interestingly in context with this proposal, EFA levels were higher in chronic
medicated patients than drug-naive first-episode patients. Khan et al. concluded that
these findings could indicate that lower membrane AA and DHA most likely predate the
illness and probably contribute to the onset of illness. The lipid peroxidation data
suggest that possible increased oxidative stress may be one of the mechanisms of
reduced membrane EFAs. The findings also imply that supplementation of EFAs and/or
antioxidants might provide effective treatments for early psychosis. This view is
supported by Horrobin et al. (2002) who showed that increase in red cell AA levels
resulted from treatment with the optimal levels of EPA and that, clinical improvement
was highly significantly positively correlated with rises in red cell membrane AA in
individuals with schizophrenia.
Treatment studies in schizophrenia Three randomized controlled treatment studies
conducted over 12 weeks found 2g/day EPA significantly more effective than placebo in
reducing psychopathological symptoms in individuals with schizophrenia (Peet et al.,
2001; Emsley et al., 2002). Symptom improvements in those studies were both, clinically
relevant and statistically significant. A dose-ranging exploratory study of the effects
of EPA in individuals with schizophrenia who experienced persistent symptoms found 2 g
EPA/day significantly more effective in reducing symptom scores on psychiatric rating
scales than 1g and 4g EPA/day (Peet et al., 2002).
On the other hand, Fenton et al. (2002) investigated augmentation of neuroleptics with
3 g/day of EPA on symptoms and cognition in patients with schizophrenia or
schizoaffective disorder and reported a negative finding. The patients in Fenton et
al.s' study had, however, been ill for two decades and had substantial symptoms,
despite treatment with newer neuroleptics, including clozapine. The patients described
as benefiting from EPA in the other studies were younger and had a shorter duration of
illness.
It must be emphasized that in all EPA treatment studies, no treatment-related side
effects or adverse biochemical or haematological effects have been observed. EPA proved
safe to administer to schizophrenic patients as an adjunct therapy. EPA did not cause
side effects other than mild gastrointestinal symptoms by itself, nor did it enhance
the side effects of existing drugs. Patients found EPA highly tolerable. The proportion
of patients who completed 12 weeks (89%) compares favourably with mean withdrawal rates
of 54% in the novel neuroleptic groups and 67% in the placebo groups in trials in the
FDA database (Peet et al., 2002). Acceptance of a substance which is normally found in
the human body without significant side effects, with a potency potentially similar to
the antipsychotic drugs in the early phase of psychotic disorders could contribute to
reduce the duration of untreated psychosis and to increase compliance.
3. Study design We will use a prospective, randomized, double-blind, placebo-controlled,
single-centre study design. Eighty one individuals aged 13-25 will be randomly assigned
in two treatment conditions at the University Clinic for Child and Adolescent
Neuropsychiatry, Vienna, Austria. Randomization codes will be generated and stored off
site. The treatment groups will receive 1.2 gramm per day EPA/DHA or placebo for 12
weeks. Follow-up assessments will be conducted at 1,2,3,4,8,12,26,and 52 weeks. All
patients will receive standard treatment, which includes management by a psychiatrist
or resident psychiatrist and non-neuroleptic pharmacotherapy as clinically indicated.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Prevention
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