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14 - Neurological disorders

from Part III - Working with specific units

Published online by Cambridge University Press:  10 December 2009

By
Alan Carson ,
Adam Zeman ,
Lynn Myles  and
Michael Sharpe
Edited by
Geoffrey Lloyd  and
Elspeth Guthrie
Geoffrey Lloyd
Affiliation:
Priory Hospital, London
Elspeth Guthrie
Affiliation:
University of Manchester
Get access

Summary

Introduction

In practice the psychiatrist working in a clinical neurosciences centre is likely to have to address three main categories of clinical problems on a daily basis:

  • patients with cognitive impairment either as a primary presentation or as a secondary complication of a known condition, such as multiple sclerosis

  • patients who present with neurological disease but in whom there is emotional disturbance in excess of the clinical norm

  • patients who present with physical symptoms which do not correspond to any recognized pattern of neurological disease.

The approach to such cases should include a neuropsychiatric as well as a standard psychiatric assessment. The neuropsychiatric assessment depends upon the observation that predictable patterns of symptoms will result from damage to specific brain areas. The summary of the clinical assessment should include not only a ‘headline’ diagnosis but also a clinical problem list of the impairments and consequent disabilities that the patient suffers (Table 14.1). It is often the latter that will dictate the management of the individual patient. For example, a psychiatrist will seldom make the diagnosis of multiple sclerosis (MS) but will be frequently asked to assess patients with MS and to comment on their cognitive impairment, depressive and other emotional disorders and maladaptive coping strategies.

Treatments, and in particular psychological treatments, are not discussed in detail as they are covered in other chapters. Whilst we have described specific drug therapies the reader should be aware that in many neuropsychiatric conditions the mainstays of patient management are behavioural and environmental manipulation.

Keywords

cognitive impairmentdrug therapiesMELAS syndromemultiple sclerosisneurological diseasepsychiatrists
Type
Chapter
Information
Handbook of Liaison Psychiatry , pp. 305 - 364
Publisher: Cambridge University Press
Print publication year: 2007

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References

Andersen, G., Vestergaard, K. and Lauritzen, L. (1994a). Effective treatment of post-stroke depression with the selective reuptake inhibitor citalopram. Stroke, 25, 1099–104.Google Scholar
Andersen, G., Ingemann-Nielsen, M., Vestergaard, K., et al. (1994b). Pathoanatomic correlation between poststroke pathological crying and damage to brain areas involved in serotoninergic neurotransmission. Stroke, 25, 1050–2.Google Scholar
Andersen, G., Vestergaard, K., Ingemann-Nielsen, M., et al. (1995). Risk factors for post-stroke depression. Acta Psychiatrica Scandinavica, 92, 193–8.CrossRefGoogle Scholar
Angunawela, I. I. and Barker, A. (2001). Anticholinesterase drugs for alcoholic Korsakoff syndrome. International Journal of Geriatric Psychiatry, 16, 338–9.CrossRefGoogle Scholar
Astrom, M. (1996). Generalised anxiety disorder in stroke patients: a 3-year longitudinal study. Stroke, 27, 270–5.CrossRefGoogle Scholar
Bahra, A., Walsh, M., Menon, S., et al. (2000). Does chronic daily headache arise de novo in association with regular analgesic use?Cephalagia, 20, 294.Google Scholar
Bamford, J., Sandercock, P., Dennis, M., et al. (1988). A prospective study of acute cerebrovascular disease in the community: the Oxfordshire Community Stroke Project 1981–86, I: methodology, demography and incident cases of first-ever stroke. Journal of Neurology, Neurosurgery and Psychiatry, 51, 1373–80.CrossRefGoogle Scholar
Barsky, A. J. and Borus, J. F. (1999). Functional somatic syndromes. Annals of Internal Medicine, 130, 910–21.CrossRefGoogle Scholar
Berthier, M. L., Kulisevsky, J., Gironell, A., et al. (1996). Poststroke bipolar affective disorder: clinical subtypes, concurrent movement disorders, and anatomical correlates. Journal of Neuropsychiatry and Clinical Neuroscience, 8, 160–70.Google Scholar
Brewer, G. J. and Askari, F. K. (2005). Wilson's disease: clinical management and therapy. Journal of Hepatology, 42 (Suppl. 1), S13–21.CrossRefGoogle Scholar
Binzer, M. and Kullgren, G. (1998). Motor conversion disorder: a prospective 2–5 year follow-up study. Psychosomatics, 39, 519–27.CrossRefGoogle Scholar
Bogousslavsky, J. and Cummings, J. L. (2000). Behavior and Mood Disorders in Focal Brain Lesions. New York: Cambridge University Press.CrossRef
Brandt, J., Celentano, D., Stewart, W., et al. (1990). Personality and emotional disorder in a community sample of migraine headache patients. Cephalagia, 19, 566–74.Google Scholar
Burvill, P. W., Johnson, G. A., Jamrozik, K. D., et al. (1995). Anxiety disorders after stroke: results from the Perth Community Stroke Study. British Journal of Psychiatry, 166, 328–32.CrossRefGoogle Scholar
Carota, A., Rossetti, O. A., Karapanayiotides, T., et al. (2001). Catastrophic reaction in acute stroke: a reflex behaviour in aphasic patients. Neurology, 57, 1902–6.CrossRefGoogle Scholar
Carota, A., Staub, F. and Bogousslavsky, J. (2002). Emotions, behaviours and mood changes in stroke. Current Opinion in Neurology, 15, 57–9.CrossRefGoogle Scholar
Carson, A. J., Machale, S., Allen, K., et al. (2000a). Depression after stroke and lesion location: a systematic review. Lancet, 356, 122–6.Google Scholar
Carson, A. J., Ringbauer, B., Stone, J., et al. (2000b). Do medically unexplained symptoms matter? A study of 300 consecutive new referrals to neurology outpatient clinics. Journal of Neurology, Neurosurgery and Psychiatry, 68, 207–10.Google Scholar
Carson, A. J., Postmas, K., Stone, J., et al. (2003). The outcome of neurology patients with medically unexplained symptoms: a prospective cohort study. Journal of Neurology, Neurosurgery and Psychiatry, 74, 897–900.CrossRefGoogle Scholar
Chabolla, D. R. and Cascino, G. D. (1997). Interpretation of extracranial EEG. In The Treatment of Epilepsy: Principles and Practice, 2nd edn., ed. Wylie, E.. Baltimore, MD: Williams & Wilkins, pp. 264–79.
Chemerinski, E., Robinson, R. G. and Kosier, J. T. (2001). Improved recovery in activities of daily living associated with remission of PSD. Stroke, 32, 113–17.CrossRefGoogle Scholar
Clauw, D. J. and Chrousos, G. P. (1997). Chronic pain and fatigue syndromes: overlapping clinical and neuroendocrine features and potential pathogenic mechanisms. Neuroimmunomodulation, 4, 134–53.CrossRefGoogle Scholar
Crimlisk, H., Bhatia, K., Cope, H., et al. (1998). Slater revisited: 6 year follow up study of patients with medically unexplained motor symptoms. British Medical Journal, 316, 582–6.CrossRefGoogle Scholar
Cummings, J. L. and Mendez, M. F. (1984). Secondary mania with focal cerebrovascular lesions. American Journal of Psychiatry, 141, 1084–7.CrossRefGoogle Scholar
Cutrer, F. M. (2003). Migraine: does one size fit all?Current Opinion in Neurology, 16, 315–17.Google Scholar
Damasio, A. R. (1994). Emotion, Reason and the Human Brain. New York: GP Putman & Sons.
Derex, L., Ostrowsky, K., Nighoghossian, N., et al. (1997). Severe pathological crying after left anterior choroidal artery infarct: reversibility with paroxetine treatment. Stroke, 28, 1464–9.CrossRefGoogle Scholar
Duyao, M., Ambrose, C., Myers, R., et al. (1993). Trinucleotide repeat length: instability and age of onset of Huntington's disease. Nature Genetics, 4, 387–92.CrossRefGoogle Scholar
Ehde, D. M., Gibbons, L. E., Chwastiak, L., et al. (2003). Chronic pain in a large community sample of persons with multiple sclerosis. Multiple Sclerosis, 9, 605–11.CrossRefGoogle Scholar
Feinstein, A., O'Connor, P. and Feinstein, K. (2002). Multiple sclerosis, interferon beta-1b and depression: a prospective investigation. Journal of Neurology, 249, 815–20.CrossRefGoogle Scholar
Fink, P. (1992). Surgery and medical treatment in persistent somatizing patients. Journal of Psychosomatic Research, 36, 439–47.CrossRefGoogle Scholar
Folstein, M. F., Folstein, S. E.and McHugh, P. R. (1975). Mini-Mental State Examination: a practical method for grading the cognitive state of patients for clinicians. Journal of Psychosomatic Research, 11, 189–98.CrossRefGoogle Scholar
Gainotti, G., Azzoni, A., Razzano, C., et al. (1997). The Post-Stoke Depression Scale: a test specifically devised to investigate affective disorders of stroke patients. Journal of Clinical and Experimental Neuropsychology, 19, 340–56.CrossRefGoogle Scholar
Gainotti, G., Antonucci, G., Marra, C., et al. (2001). Relation between depression after stroke, antidepressant therapy and functional recovery. Journal of Neurology, Neurosurgery & Psychiatry, 71 (2), 258–61.CrossRefGoogle Scholar
Goldstein, K. (1939). The Organism: a Holistic Approach to Biology Derived from Pathological Data in Man. New York: American Books.
Gony, M., Lapeyre-Mestre, M. and Montastruc, J.-L. (2003). Risk of serious extrapyramidal symptoms in patients with Parkinson's disease receiving antidepressant drugs: a pharmacoepidemiologic study comparing serotonin reuptake inhibitors and other antidepressant drugs. Clinical Neuropharmacology, 26 (3), 142–5.CrossRefGoogle Scholar
Gould, R., Miller, B. L., Goldberg, M. A., et al. (1986). The validity of hysterical signs and symptoms. Journal of Nervous and Mental Disorders, 174, 593–7.CrossRefGoogle Scholar
Graff-Radford, S. B. (2000). Facial pain. Current Opinion in Neurobiology, 13, 291–6.CrossRefGoogle Scholar
Herrmann, M., Bartels, C., Schumacher, M., et al. (1995). Poststroke depression: is there a pathoanatomic correlate for depression in the postacute stage of stroke?Stroke, 26, 850–6.Google Scholar
Hodges, J. R. (1994). Cognitive Assessment for Clinicians. Oxford: Oxford University Press.
Holroyd, K. A., France, J. L., Nash, J. M., et al. (1993). Pain state as artifact in the psychological assessment of recurrent headache sufferers. Pain, 53, 229–35.CrossRefGoogle Scholar
House, A., Dennis, M., Molyneux, A., et al. (1989). Emotionalism after stroke. British Medical Journal, 298, 991–4.CrossRefGoogle Scholar
House, A., Knapp, P., Bamford, J., et al. (2001). Mortality at 12 and 24 months after stroke may be associated with depressive symptoms at 1 month. Stroke, 32, 696–701.CrossRefGoogle Scholar
Irani, D. N. (2003). The classic and variant forms of Creutzfeldt–Jakob disease. Seminars in Clinical Neuropsychiatry, 8 (1), 71–9.CrossRefGoogle Scholar
Kales, H. C. and Mellow, A. M. (2003). Psychiatric assessment and treatment of depression in dementia. In Handbook of Dementia: Psychological, Neurological, and Psychiatric Perspectives, ed. Lichtenberg, P. A, Murman, D. L. and Mellow, A. M.. Hoboken, NJ: John Wiley & Sons, Inc, pp. 269–307.
Kim, J. S. and Choi-Kwon, S. (2000). Poststroke depression and emotional incontinence: correlation with lesion location. Neurology, 54, 1805–10.CrossRefGoogle Scholar
Kneebone, I. I. and Dunmore, E. (2000). Psychological management of post-stroke depression. British Journal of Clinical Psychology, 39, 53–65.CrossRefGoogle Scholar
Knutsson, E. and Martensson, A. (1985). Isokinetic measurements of muscle strength in hysterical paresis. Electroencephalography and Clinical Neurophysiology, 61, 370–4.CrossRefGoogle Scholar
Kraus, J. F. and Chu, L. D. (2005). Epidemiology. In Textbook of Traumatic Brain Injury, ed. Silver, J. M, McAllister, T. W. and Yudofsky, S. C. American Psychiatric Publishing, pp. 3–26.
Kroenke, K. (2002). Integrating psychological care into general medical practice. British Medical Journal, 324, 1536–7.CrossRefGoogle Scholar
Kroenke, K. and Swindle, R. (2000). Cognitive behavioural therapy for somatization and symptom syndromes: a critical review of controlled clinical trials. Psychotherapy and Psychosomatics, 69, 205–15.CrossRefGoogle Scholar
Krupp, L. B., Coyle, P. K., Doscher, C., et al. (1995). Fatigue therapy in multiple sclerosis: results of a double-blind, randomized, parallel trial of amantadine, permoline and placebo. Neurology, 45, 1956–61.CrossRefGoogle Scholar
Kudrow, L. (1982). Paradoxical effects of frequent analgesic use. Advances in Neurology, 33, 335–41.Google Scholar
Lance, F., Parkes, C. and Wilkinson, M. (1988). Does analgesic abuse cause headaches de novo?Headache, 28, 61–2.Google Scholar
Lincoln, N. B., Flannagan, T., Sutcliff, L., et al. (1997). Evaluation of cognitive behavioural treatment for depression after stroke: a pilot study. Clinical Rehabilitation, 11, 114–22.CrossRefGoogle Scholar
Lindesay, J. (1991). Phobic disorders in the elderly. British Journal of Psychiatry, 159, 531–41.CrossRefGoogle Scholar
Lipsey, J. R., Robinson, R. G., Pearlson, G. D., et al. (1984). Nortriptyline treatment of post-stroke depression: a double blind treatment trial. Lancet, S2, 297–300.CrossRefGoogle Scholar
Lipton, R. B., Hamelsky, S. W., Kolodner, K. B., et al. (2000). Migraine, quality of life, and depression: a population-based case-control study. Neurology, 55, 629–35.CrossRefGoogle Scholar
Maraganore, D. M., Lees, A. J. and Marsden, C. D. (1991). Complex stereotypies after right putaminal infarction: a case report. Movement Disorders, 6, 358–61.CrossRefGoogle Scholar
Mathuranath, P. S., Nestor, P., Berrios, G. E., et al. (2000). A brief cognitive test battery to differentiate Alzheimer's disease and frontotemporal dementia. Neurology, 55, 1613–20.CrossRefGoogle Scholar
May, A. and Goadsby, P. J. (1998). Cluster headache: imaging and other developments. Headache, 11, 199–203.CrossRefGoogle Scholar
McEwen, B. (1996). Stressful experience, brain and emotions: developmental genetic and hormonal influences. In The Cognitive Neurosciences, ed. Gazzaniga, M. S.. Cambridge, MA: MIT Press, pp. 1117–35.
Merikangas, K. R. (1994). Psychopathology and headache syndromes in the community. Headache, 34, S17–22.CrossRefGoogle Scholar
Mitsikostas, D. D. and Thomas, A. M. (1999). Comorbidity of headache and depressive disorders. Cephalagia, 19, 211–17.CrossRefGoogle Scholar
Morris, P. L., Robinson, R. G. and Raphael, B. (1993). Emotional lability after stroke. Australian and New Zealand Journal of Psychiatry, 27, 601–5.CrossRefGoogle Scholar
Nimnuan, C., Hotopf, M. and Wessely, S. (2000). Medically unexplained symptoms: how often and why are they missed?Quarterly Journal of Medicine, 93, 21–8.Google Scholar
O'Malley, P. G., Jackson, J. L., Santoro, J., et al. (1999). Antidepressant therapy for unexplained symptoms and symptom syndromes. Journal of Family Practice, 48, 980–90.Google Scholar
Patten, S. B. and Metz, L. M. (2001). Interferon beta-1 and depression in relapsing-remitting multiple sclerosis: an analysis of depression data from the PRISMS clinical trial. Multiple Sclerosis, 7, 243–8.Google Scholar
Peroutka, S. J., Wilhoit, T. and Jones, K. (1997). Clinical susceptibility to migraine with aura is modified by dopamine D2 receptor (DRD2) NcoI alleles. Neurology, 49, 201–6.CrossRefGoogle Scholar
Pohjasvaara, T., Vataja, R., Leppavuori, A., et al. (2001). Depression is an independent predictor of poor long-term functional outcome poststroke. European Journal of Neurology, 8, 315–19.CrossRefGoogle Scholar
Polman, C. H., Bertelsmann, E. W., Loenen, A. C., et al. (1994). 4-Aminopyridine in the treatment of patients with multiple slerosis: long-term efficacy and safety. Archives of Neurology, 51, 292–6.CrossRefGoogle Scholar
Ramasubbu, R. (1994). Denial of illness and depression in stroke (letter). Stroke, 25, 226–7.Google Scholar
Rammohan, K. W., Rosenburgh, J. H., Lynn, D. J., et al. (2002). Efficacy and safety of modafinil (Provigil) for the treatment of fatigue in multiple sclerosis: a two centre phase 2 study. Journal of Neurology, Neurosurgery and Psychiatry, 72, 179–83.CrossRefGoogle Scholar
Rasmussen, B. K. (1992). Migraine and tension-type headache in a general population: psychosocial factors. International Journal of Epidemiology, 21, 1138–43.CrossRefGoogle Scholar
Robertson, M. M., Schull, D. A., Eapen, V., et al. (1996). Risperidone in the treatment of Tourette syndrome: a retrospective case note study. Journal of Psychopharmacology, 10, 317–20.CrossRefGoogle Scholar
Robinson, R. G., Parikh, R. M., Lipsey, J. R., et al. (1993). Pathological laughing and crying following stroke: validation of a measurement scale and a double-blind treatment study. American Journal of Psychiatry, 150, 286–93.CrossRefGoogle Scholar
Robinson, R. G., Schultz, S. K., Castillo, C., et al. (2000). Nortriptyline versus fluoxetine in the treatment of depression and in short-term recovery after stroke: a placebo-controlled, double-blind investigation. American Journal of Psychiatry, 157, 351–9.CrossRefGoogle Scholar
Rodrigo, E. P., Adair, J. C., Roberts, B. B., et al. (1997). Obsessive-compulsive disorder following bilateral globus pallidus infarction. Biological Psychiatry, 42, 410–12.CrossRefGoogle Scholar
Sharpe, M. and Carson, A. (2000). Unexplained somatic symptoms, functional syndromes and somatization: do we need a paradigm shift?Annals of Internal Medicine, 134, 926–30.Google Scholar
Sheean, G. L., Murray, N. M., Rothwell, J. C., et al. (1997). An electrophysiological study of the mechanism of fatigue in multiple sclerosis. Brain, 120, 299–315.CrossRefGoogle Scholar
Spencer, M. D., Knight, R. S. G. and Will, R. G. (2002). First hundred cases of variant Creutzfeldt–Jakob disease: retrospective case note review of early psychiatric and neurological features. British Medical Journal, 324, 1479–82.CrossRefGoogle Scholar
Starkstein, S. E. (1998). Mood disorders after stroke. In Cerebrovascular Disease, ed. Grinsberg, M. and Bogousslavsky, J.. Oxford: Blackwell Science, pp. 131–8.
Starkstein, S. E. and Robinson, R. G. (1989). Affective disorders and cerebral vascular disease. British Journal of Psychiatry, 154, 170–82.CrossRefGoogle Scholar
Starkstein, S. E., Pearlson, G. D., Boston, J., et al. (1987). Mania after brain injury: a controlled study of causative factors. Archives of Neurology, 44, 1069–73.CrossRefGoogle Scholar
Starkstein, S. E., Berthier, M. I., Fedoroff, P., et al. (1990). Anosognosia and major depression in 2 patients with cerebrovascular lesions. Neurology, 40, 1380–2.CrossRefGoogle Scholar
Starkstein, S. E., Fedoroff, J. P., Price, T. R., et al. (1993a). Apathy following cerebrovascular lesions. Stroke, 24, 1625–30.Google Scholar
Starkstein, S. E., Fedoroff, J. P., Price, T. R., et al. (1993b). Catastrophic reaction after cerebrovascular lesions: frequency, correlates, and validation of a scale. Journal of Neuropsychiatry and Clinical Neuroscience, 5, 189–94.Google Scholar
Stein, D. J., Bouwer, C., Hawkridge, S., et al. (1997). Risperidone augmentation of serotonin reuptake inhibitors in obsessive-compulsive and related disorders. Journal of Clinical Psychiatry, 58, 119–22.CrossRefGoogle Scholar
Stone, V. E., Baron-Cohen, S. and Knight, R. T. (1998). Frontal lobe contributions to theory of mind. Journal of Cognitive Neuroscience, 10, 640–56.CrossRefGoogle Scholar
Stone, J., Zeman, A. and Sharpe, M. (2002). Physical signs: functional weakness and sensory disturbance. Journal of Neurology, Neurosurgery and Psychiatry, 73, 241–5.CrossRefGoogle Scholar
Stronks, D. L., Tulen, J. H., Pepplinkhuizen, L., et al. (1999). Personality sufferers. American Journal of Psychiatry, 147, 303–8.Google Scholar
Thornhill, S., Teasdale, G. M., Murray, G. D., et al. (2000). Disability in young people and adults one year after head injury: perspective cohort study. British Medical Journal, 320, 1631.CrossRefGoogle Scholar
Vein, A. M., Djukova, G. M. and Vorobieva, O. V. (1994). Is panic attack a mask of psychogenic seizures? A comparative analysis of phenomenology of psychogenic seizures and panic attacks. Functional Neurology, 9, 153–9.Google Scholar
Vuilleumier, P., Chicherio, C., Assal, F., et al. (2001). Functional neuroanatomical correlates of hysterical sensorimotor loss. Brain, 124, 1077–90.CrossRefGoogle Scholar
Wessely, S., Nimnuan, C. and Sharpe, M. (1999). Functional somatic syndromes: one or many?Lancet, 354 (9182), 936–9.Google Scholar
Wiart, L., Petit, H., Joseph, P. A., et al. (2000). Fluoxetine in early poststroke depression: a double-blind placebo-controlled study. Stroke, 31 (8), 1829–32.CrossRefGoogle Scholar
Zephir, H., Seze, J., Stojkovic, T., et al. (2003). Multiple sclerosis and depression: influence of interferon beta therapy. Multiple Sclerosis, 9 (3), 284–8.CrossRefGoogle Scholar
Ziv, I., Djaldetti, R., Zoldan, Y., et al. (1998). Diagnosis of ‘non-organic’ limb paresis by a novel objective motor assessment: the quantitative Hoover's test. Journal of Neurology, 245 (12), 797–802.CrossRefGoogle Scholar

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