Hallucinations and Delusions in Schizophrenia

03 August 2008

Interview with 

Dr Paul Fletcher, Clare College


A PET scan, illustrating of Schizophrenia's effect on the brain


Chris - Our next passenger is from Clare College and the Department of Psychiatry, Paul Fletcher.  Hi, Paul.  

Paul - Hi.

Chris - Welcome to our punt.  I'm sorry this was the best we could do.  It's a low-budget programme.

Paul - This is absolutely beautiful, don't worry.

Chris - What is it you work on?

Paul - I'm especially interested in schizophrenia and in particular the key symptoms of schizophrenia which are delusions and hallucinations.

Chris - What do they actually mean?

A fractal image, often used to represent hallucinationsPaul - They both relate to a very changed experience of the world.  An hallucination is when you hear something or see something that isn't really there.  A delusion is when you believe something that is quite extraordinary and probably untrue.  For example, an hallucination somebody might hear somebody talking to them, criticising them.  A delusion they might come to believe their neighbours are trying to poison them or control their actions.

Chris - Do people develop these delusions to explain the funny hallucinations they're experiencing then?

Paul - Some people think the experiences are abnormal and the explanation is a perfectly logical one for those experiences.  Other people think the experiences are not abnormal but people just reason in very different ways.  Other people think it's a bit of both.

Chris - What's actually going on in the brain of someone, say, who's having an hallucination or producing delusions like this?

A PET scan, illustrating of Schizophrenia's effect on the brainPaul - We know that people with delusions and hallucinations and other symptoms of schizophrenia have changes in the neurotransmitter, dopamine.  We know that it seems to be overactive although it's not entirely clear whether it's the receptors that are oversensitive or there's too much of the chemical.  We know that there are clues that this might be one of the prime suspects.  The real thing we don't know is how something as basic and low-level as that can translate into something as complex and human and social as a belief that someone's trying to harm you.

Chris - It's interesting because schizophrenia is quite genetic.  We know it runs in families but it also tends to come on much late in life even though presumably the genes that cause it are active from the time that you're conceived.  You don't get the disease until your mid-twenties.  In some cases a bit later, in some cases your seventies.  What's going on in the brain to suddenly make this come out when we're that bit older?

Paul - The mere fact that it doesn't tend to manifest in childhood, although it can, is probably giving us some vital clues about what the key problem is.  One possibility is that schizophrenia arises once the brain is fully matured.  It's only at the time that somebody has matured pathways in their brain that they're able to experience and express the sorts of symptoms that people with schizophrenia have.  Another possibility actually is that schizophrenia is present if you scrutinise closely at an earlier age.  In children it manifests in much more simplistic ways: motor abnormalities, speech abnormalities.

Chris - What about the association with various drugs because cannabis has been linked to people getting various psychotic symptoms, if not overt schizophrenia, hasn't it?

A cannabis cigarettePaul - A lot of people are pushing very hard to apply ever greater constraints on the use of cannabis because they believe strongly that it causes psychosis.  In actual fact if you look at the evidence we still don't know whether people use cannabis because they've got schizophrenia or they've got schizophrenia because they use cannabis.  One thing we do know is that the proportion of people using cannabis is much greater among people who are mentally ill.  It's certainly the case that that sort of disruption of a brain that's already vulnerable could precipitate an episode of these unpleasant symptoms.

Chris - If you look at the brains of people who have schizophrenia either with a brain scan or in post-mortem if you look at whole brains do you see any obvious differences with what we would call someone who's normal?

Paul - Up until the seventies people gave an unequivocal no to that.  In the mid-seventies somebody called Eve Johnson in Norfolk Park produced a ground-breaking paper which essentially showed that the ventricles which are fluid-filled spaces in the brain tend to be larger in people with schizophrenia.  This suggests that there's been some degree of shrinkage in the brain.  Most psychiatrists would accept that the brain is different in structure.  There's increasing evidence that it is different in the way it functions.

Chris - There's quite an interesting body of knowledge growing now that some of the genes that are associated with schizophrenia are associated with how cells migrate and move in the brain both during development and perhaps during adulthood.  We know that we continue to make new brain cells throughout life in certain parts of the brain.  Do you think this is something that you grow into?  You slowly accumulate enough cells as your brain ages and produce these new neurons that they make these pathways and perhaps connect up the wrong bits of the brains and disclose schizophrenia?

Paul - The very name schizophrenia itself means a splitting of the mind.  While many lay people would interpret that as a split personality what it actually means is the different faculties of the brain tend not to integrate with each other.  Functional brain imaging, which is what I use to measure whole brain activity in association with a series of challenges and symptoms, that's seeming to suggest that some of the core abnormalities may be manifest not as a failure to be active but as a failure of different regions to speak to each other.

Chris - There's a neurologist who works in Switzerland called Olaf Blanke who I talked to a few years ago.  He discovered when he was treating a lady for epilepsy that if he stimulated a certain part of the brain he could produce this out of body experience in this lady.  She was effectively experiencing her own body but the symptoms of someone touching that body.  She wasn't mapping onto that being her but she was thinking there was another person in the room with her.  Do you think there's a part of the brain that doesn't work properly in schizophrenia which would normally cancel out internally-generated things like voices and other kinds of things and tell you they're coming from you and that just doesn't work?  People think that they're something real.

fMRIPaul - Yeah.  There's good evidence that normally when your or I hopefully speak to ourselves in our mind we actually cancel out the auditory response to that.  It's as though there's a dampening down.  If we hear somebody else speaking then our auditory cortex is very responsive and active.  The suggestion is that in hallucinations it's treating internal speech as though it's external.  Therefore you hear what you say as though it's somebody else.  This would account for many of the phenomena of schizophrenia.  There is another very interesting symptom called a delusion of control where somebody feels that their own movements are actually produced by somebody else.  The same explanation might hold for this.  When I go to generate a movement I know what to expect.  I know the outcome of that movement will result in me being in a different position or my hand being in a different position.  If I fail to make that prediction then it may be that that comes as a surprise to me.  I could then interpret it as somebody else having made the movement.  These are interesting speculations and indeed there is growing evidence that this is may be the case.  I think Olaf Blanke's work is very interesting in that respect.

Chris - Finally, are we closer to helping people to lead a normal life once they're diagnosed with something like schizophrenia?

Paul - I think as we begin to understand the link between a chemical abnormality and a high level expression of a symptom in terms of processes that are very specific like this then we may be in a position to offer newly-targeted therapies.  An example of that is we're now finding we can reproduce some of the symptoms of schizophrenia with a drug called ketamine which has been widely used as an anaesthetic.  Maybe if we can target the same receptors that ketamine works on then we can begin to find new treatments, more acceptable treatments for schizophrenia.  In fact, only last year a paper came out suggesting that may well be the case.


"It's interesting because schizophrenia is quite genetic. `"
Self evident that this is false, as people who can not function could not pay for the expenses associate with having children.
Clinical psychologist Jay Joseph also questions the science behind the genetic link.

This article might help you to understand a bit more about the genetic underpinnings of schizophrenia, Mark:


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