Neuropsychology of Huntington's Disease

Huntington's Disease (HD) is a genetic degenerative disorder, normally of middle adulthood onset typified by three neurologic deteriorations upon cognition, movement and psychiatric health. The disease is eventually fatal and there is no known cure. 

The movement disorder consists of chorea involuntary movements which are often sudden, irregular and purposeless/semi-purposeful. Often this includes extremities first such as facial grimacing, eyelid elevation and neck movements followed by shoulder, trunk, and leg movements as the disease progresses.

Neuropsychology can provide expertise with the assessment of HD's cognitive and psychiatric effects. The neurological pathology of HD is best conceptualised as a subcortical process of degeneration. Imaging evidence suggests initial metabolic underactivity in the caudate. Atrophy has also been consistently imaged through MRI in this basal ganglia structure and often in the putamen and thereafter in the wider structures of the basal ganglia and the striatum. Although HD is regarded as a subcortical degenerative disorder the striatum is heavily networked in to the frontal lobes and therefore executive function is often affected in addition. 

As HD can now be genetically detected and anticipated through generation research has studied prodromal stages of HD patients. It now appears cognitive changes in rigidity of thought and depression may preclude the first visible chorea by a decade or more. Sensitive psychometric tests for early indications include executive tasks, particularly stroop and counting backwards in sevens from 100.

The cognitive profile of HD includes underperformance in speed of information processing, visuo-spatial processing, concentration and executive function. Although learning and memory is often affected in HD in comparison to other cortical dementias, such as alzheimers, the nature of the deficits is slightly different and HD is less typified by features such as aphasia, amnesia, or agnosia.

Cognitive changes in HD are now regarded as the most disabling of the triad of degenerative areas. HD's deleterious effect upon implicit memory (remembering how to do things) causes significant disability and this is exponentially compounded by HD's biological causation of loss of awareness and insight. HD sufferers also tend to experiences particular difficulties with splitting attention and retrieving memories without the benefit of prompting and support.

The psychiatric changes involved in HD mean that people who have not had hereditary history available often become misdiagnosed. Psychiatric symptoms often include mood dysregulation and mood disorder. 

Positive psychiatric symptoms manifest in a significant minority to include paranoia, thought disorder and hallucinations. Part of the perpetuation of these beliefs is thought to be exacerbated by other people's responses to HD's unusual features, particularly the facial grimacing, reduction in socio-emotional processing and mood dysregulation. 

Mood stabilising and antidepressant medication has some limited benefit and often this helps to lessen the risk of suicide, which is of statistical increase in HD populations. Psychotherapeutic intervention is compounded by cognitive changes, particularly executive deficits and loss of insight. 

Results of cognitive assessments can sometimes be helpful to HD patients but sometimes total loss of awareness makes this impossible. However, carers often benefit from the feed back of neuropsychological assessment and particular clarification of the organic nature of the unawareness, rather than understanding the person to be in emotional denial.  

UK Neuropsychologist: How to become one.

In the United kingdom clinical neuropsychologists must complete many years of training. Often early within education carefully selected A-levels and good grades provide an appropriate start point. The future clinical neuropsychologists will then complete a BPS accredited degree in psychology, this is normally a bachelor of science. Following the completion of the psychology degree with first of upper second grading, few will be lucky enough to secure  a number of years working within the field of psychology. Often this will be as an assistant psychologist or similarly responsible reseracher and clinician. In a competitive market the best  candidates at this stage will be selected to conduct their three-year doctoral degree in clinical psychology. This involves an integration of academic and clinical experiences and placements within the NHS. Once the trainee clinical psychologist completes their doctoral training they often begin a clinical career within the field of neuropsychology. Often potential clinical neuropsychologists will work a number of years as a clinical psychologist gaining further experience and knowledge and will then embark in a two-year postdoctoral diploma in clinical neuropsychology. This training is provided by only three institutions, including Bristol University, UCL and Glasgow University. Once the potential clinical neuropsychologist has satisfactorily completed this training day they then choose whether to enter the specialist register for clinical neuropsychologists by submitting payments, case studies and completing a viva.Those that do can use the title of clinical neuropsychologist.

CBT for TBI

A useful paper discussing the adaptions making CBT interventions efficacious for traumatic brain injury.
http://www.psychology.org.au/publications/inpsych/2012/april/wong/

Challenging Behaviour following headinjury

Headway have made publicly available a concise guide of challenging behaviour following acquired brain injury:
http://www.headway.ie/download/pdf/15_behaviour.pdf

Expert psychologist: Exploring quality

Research at the University of Central Lancashire has now been made available online detailing the wide variation in quality of expert psychologist reports. According to the research: "Results indicated wide variability in report quality with evidence of unqualified experts being instructed to provide psychological opinion. One fifth of instructed psychologists were not deemed qualified on the basis of their submitted Curriculum Vitae, even on the most basic of applied criteria. Only around one tenth of instructed experts maintained clinical practice external to the provision of expert witness work. Two thirds of the reports reviewed were rated as „poor‟ or „very poor‟, with one third between good and excellent (Ireland, Pinschoff and Trainor, 2012)". The full report, as a pdf, can be found at: http://www.uclan.ac.uk/news/files/FINALVERSIONFEB2012.pdf

The Bell Curve and Standarised Scores

In order to assert clinical opinion toward a patients raw data test results from varying sources should be assimilated into a common metric (standardisation). Percentiles tell us the rarity or abnormality of an individual's score. They are easily understandable and communicable but are not linear and so the difference between the 10-20th percentile in comparison to the 20-30th percentile is not necessarily the same. Z scores on the other hand, are linear transformations. They indicate with positive and negative values how many standard deviations a score is away from its mean. However, working in negative can present communication problems and z scores tend to get lost in translation when communicating with non-neuropsychologists. A common alternative is to use T scores (mean=50, SD=10) which offers a balanced level of incrementation. Others prefer index scales (mean 100, SD 15) which are often received with familiarity as they are used in the measurement if IQ. However, the fact that they are used in IQ can bring unwanted misconception when communicating interpretation and opinion.

Executive Function Brief Conceptualisation

Executive function is sometimes thought of as the functional equivalent of the frontal lobes. In 1982 Cummings proposed a fronto-straital circuits account of executive functioning and how it relates to structural circuits between the straitum located subcortically as part of the input to the basal ganglia, and the frontal lobes. In terms of executive function three specific areas are important within the fronto-straital circuits: the dorsolateral prefrontal cortex, which is typically concerned with tradional executive functions of planning, organisation and regulation. The orbitofrontal cortex (behind the orbits of the eye sockets) is more concenred with inhibition and decision making and social cogntion. Whilst the anterior cingulate is concerned with motivation. Dr Simon Gerhand of Bristol's Frenchay Brain Injury Rehabilitation Centre, practically summarises executive tests into the following: Executive function test types. Generativety: verbal fluency, design fluency. These are probably the only executive tests which lateralise. Planning: Tower test, zoo map test, Key search test, SET. Judgement: cognitive estimates, 20 questions, temporal judgement. Inhibition: Stroop, Hayling. Mental flexibility: Trails, Brixton, rule shift, WCST. Social-emotional: Baron Cohen E-Q and faux pas (not standardised) A way of remembering these dichotomies is: 'GP Jim's' model of executive function tests.