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Disability and Rehabilitation Volume 42, 2020 - Issue 11
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From Rehabilitation to Ultrabilitation: Moving Forward

Paradoxes in rehabilitation

Narinder KapurResearch Department of Clinical Psychology, University College London, London, UK; ;Imperial College Healthcare NHS Trust, London, UK; ;Elysium Neurological Services, Daventry, EnglandCorrespondence[email protected]
Pages 1495-1502 | Received 13 Oct 2018, Accepted 04 Jan 2019, Published online: 11 Feb 2019

References

  • Chandrasekhar S. On stars, their evolution and their stability (Nobel Lecture). Science. 1984;226:497–505.
  • Wilczek F. Asymptotic freedom: from paradox to paradigm. Proc Natl Acad Sci USA. 2005;102:8403–8413.
  • Kapur N, Pascual-Leone A, Manly T. The nature of nature. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 1–13.
  • Schwartzbaum J, Karavodin L, Kapur N, et al. Unexpected benefits of allergies and cigarette smoking: two examples of paradox in neuroepidemiology. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 261–273.
  • Tabares-Seisdedos R, Valderas J. Inverse comorbidity: the power of paradox in the advancement of science. J Comorb. 2013;3:13.
  • Zimerman S, Hasher L, Goldstein D. Cognitive ageing: a positive perspective. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 130–150.
  • Lewkowicz D, Ghazanfar A. Paradoxical psychological functioning in early child development. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 110–129.
  • Dror I. The paradox of human expertise: when humans get it wrong. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 177–188.
  • Mauss I, Tamir M, Anderson C, et al. Can seeking happiness make people unhappy? Paradoxical effects of valuing happiness. Emotion. 2011;11:807–815.
  • Sacks O. The man who mistook his wife for a hat. London: Duckworth; 1985.
  • Sacks O. An anthropologist on Mars. London: Picador; 1995.
  • Buetow SA, Martínez-Martín P, McCormack B. Ultrabilitation: beyond recovery-oriented rehabilitation. Disabil Rehabil. 2017;1–5. Epub before print.
  • Akhtar M. What is post-traumatic growth? London: Watkins Publishing; 2017.
  • Rendon JU. The new science of post-traumatic growth. New York: Touchstone; 2016.
  • Moore B, Tedeschi R. The post-traumatic growth workbook. Oakland, California: New Harbinger Publications; 2017.
  • Tedeschi R, Shakespeare-Finch J, Taku K. Posttraumatic growth. Theory, research and applications. New York: Routledge; 2018.
  • Tedeschi R, Calhoun L. The posttraumatic growth inventory: measuring the positive legacy of trauma. J Traum Stress. 1996;9:455–471.
  • Haidt J. The happiness hypothesis: putting ancient wisdom and philosophy to the test of modern science. London: Arrow Books; 2006.
  • Peterson C, Park N, Pole N, et al. Strengths of character and posttraumatic growth. J Trauma Stress. 2008;21:214–217.
  • Leung Y, Gravely-Witte S, Macpherson A, et al. Post-traumatic growth among cardiac outpatients: degree comparison with other chronic illness samples and correlates. J Health Psychol. 2010;15:1049–1063.
  • Joseph S, Linley P, editors. Trauma, recovery and growth. New Jersey: Wiley; 2008.
  • Karagiorgou O, Cullen B. A comparison of post-traumatic growth after acquired brain injury or myocardial infarction. J Loss Trauma. 2016;21:589–600.
  • Taku K, Cann A, Calhoun L, et al. The factor structure of the posttraumatic growth inventory: a comparison of five models using confirmatory factor analysis. J Traum Stress. 2008;21:158–164.
  • Coyne J, Tennen H, Ranchor A. Positive psychology in cancer care: a story line resistant to evidence. Ann Behav Med. 2010;39:35–42.
  • McGrath J, Linley A. Post-traumatic growth in acquired brain injury: a preliminary small scale study. Brain Inj. 2006;20:767–773.
  • Powell T, Ekin-Wood A, Collin C. Post-traumatic growth after head injury: a long-term follow-up. Brain Inj. 2007;21:31–38.
  • Hawley CA, Joseph S. Predictors of positive growth after traumatic brain injury: a longitudinal study. Brain Inj. 2008;22:427–435.
  • Sekely A, Zakzanis K. The relationship between post-traumatic growth and return to work following mild traumatic brain injury. Disabil Rehabil. 2018;1–7. Epub ahead of print.
  • Karagiorgou O, Evans J, Cullen B. Post-traumatic growth in adult survivors of brain injury: a qualitative study of participants completing a pilot trial of brief positive psychotherapy. Disabil Rehabil. 2018;40:655–659.
  • Grace J, Kinsella E, Muldoon O, et al. Post-traumatic growth following acquired brain injury: a systematic review and meta-analysis. Front Psychol. 2015;6:1–16.
  • Gangstad B, Norman P, Barton J. Cognitive processing and post-traumatic growth after stroke. Rehabil Psychol. 2009;54:69–75.
  • Gillen G. Positive consequences of surviving a stroke. Am J Occup Ther. 2005; 59:346–350.
  • Kuenemund A, Zwick S, Rief W, et al. (Re-)defining the self – Enhanced posttraumatic growth and event centrality in stroke survivors: a mixed-method approach and control comparison study. J Health Psychol. 2016;21:679–689.
  • Hallam W, Morris R. Post-traumatic growth in stroke carers: a comparison of theories. Br J Health Psychol. 2014;19:619–635.
  • Peng Z, Wan L. Posttraumatic growth of stroke survivors and its correlation with rumination and social support. J Neurosci Nurs. 2018;50:252–257.
  • Stewart T, Chipperfield J, Ruthig J, et al. Downward social comparison and subjective well-being in late life: the moderating role of perceived control. Aging Ment Health. 2013;17:375–385.
  • Kelly G, Morris R, Shetty H. Predictors of post-traumatic growth in stroke survivors. Disabil Rehabil 2018;40:2916–2924.
  • Manly T, Robertson I, Kapur N. Paradoxes in neurorehabilitation. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 74–92.
  • Champod A, Frank R, Taylor K, et al. The effects of prism adaptation on daily life activities in patients with visuospatial neglect: a systematic review. Neuropsychol Rehabil. 2018;28:491–514.
  • Sumitani M, Miyauchi S, McCabe C, et al. Mirror visual feedback alleviates deafferentation pain, depending on qualitative aspects of the pain: a preliminary report. Rheumatology. 2008;47:1038–1043.
  • Ramachandran V, Brang D, McGeoch P. Size reduction using mirror visual feedback (MVF) reduces phantom limb pain. Neurocase. 2009;15:357–360.
  • Ramadugu S, Nagabushnam S, Katuwal N, et al. Intervention for phantom limb pain: a randomized single crossover study of mirror therapy. Indian J Psychiatry. 2017;59:457–464.
  • Schmalzl L, Ragno C, Ehrsson H. An alternative to traditional mirror therapy: illusory touch can reduce phantom pain when illusory movement does not. Clin J Pain. 2013;29.
  • Ortiz-Catalan M, Guomundsdottir R, Kristoffersen M, et al. Phantom motor execution facilitated by machine learning and augmented reality as treatment for phantom limb pain: a single group, clinical trial in patients with chronic intractable phantom limb pain. Lancet. 2016;388:2885–2894.
  • Rothgangel A, Braun S, Winkens B, et al. Traditional and augmented reality mirror therapy for patients with chronic phantom limb pain (PACT study): results of a three-group, multicentre single-blind randomized controlled trial. Clin Rehabil. 2018;32:1591–1608.
  • Herrador L, Perez J, Marti-Garcia C, et al. Effectiveness of mirror therapy, motor imagery, and virtual feedback on phantom limb pain following amputation: a systematic review. Prosthet Orthot Int. 2018;42:288–298.
  • Vural S, Yuzer G, Ozcan D, et al. Effects of mirror therapy in stroke patients with complex regional pain syndrome Type 1: a randomized control study. Arch Phys Med Rehabil. 2016;97:575–581.
  • Ramachandran V, Altschuler E. The use of visual feedback, in particular mirror visual feedback, in restoring brain function. Brain. 2009;132:1693–1710.
  • Arya K, Pandian S, Kumar V, et al. Task-based mirror therapy augmenting motor recovery in poststroke hemiparesis: a randomized controlled trial. J Stroke Cerebrovasc Dis. 2015;24:1738–1748.
  • Arya K, Pandian S, Kumar V. Effect of activity-based mirror therapy on lower limb motor-recovery and gait in stroke: a randomised controlled trial. Neuropsychol Rehabil. 2017;1–18. Epub ahead of print.
  • Yang Y, Zhao Q, Zhang Y, et al. Effects of mirror therapy on recovery of stroke survivors: a systematic review and network meta-analysis. Neuroscience. 2018;390:318–336.
  • Pandian J, Arora R, Kaur P, et al. Mirror therapy in unilateral neglect after stroke (MUST trial): a randomized controlled trial). Neurology. 2014;83:1012–2017.
  • Christ O, Reiner M. Perspectives and possible applications of the rubber hand and virtual hand illusion in non-invasive rehabilitation: technological improvements and their consequences. Neurosci Biobehav Rev. 2014;44:33–44.
  • Jenkinson P, Haggard P, Ferreira N, et al. Body ownership and attention in the mirror: insights from somatoparaphrenia and the rubber hand illusion. Neuropsychologia. 2013;51:1453–1462.
  • Bolognini N, Russo C, Vallar G. Crossmodal illusions in rehabilitation. Front Behav Neurosci. 2015;9:1–6.
  • Reinersmann A, Landwehrt J, Krumova E, et al. The rubber hand illusion in complex regional pain syndrome: preserved ability to integrate a rubber hand indicates intact multisensory integration. Pain. 2013;154:1519–1527.
  • Leggenhager B, Scivoletto G, Molinari M, et al. Restoring tactile awareness through the rubber hand illusion in cervical spinal cord injury. Neurorehabil Neural Repair. 2013;27:704–708.
  • Kitadono K, Humphreys G. Short-term effects of the “rubber hand” illusion on aspects of visual neglect. Neurocase. 2007;13:260–271.
  • Jha A, Brown P. Paradoxes in Parkinson’s disease and other movement disorders. In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 189–203.
  • Yerdelen D, Yetkinel S, Dogan A. Tremor onset with acute frontal infarct and disappearance with the second stroke. Neurosciences (Riyadh). 2015;20:164–166.
  • Moudrous W, Sluzewski M, Van Asseldonk J-T. Delayed onset hypokinetic-rigid syndrome due to hypoxic-ischemic damage to the striatum. Acta Neurol Belg. 2017;117:733–735.
  • Reilly P, Graham D, Adams J, et al. Patients with head injury who talk and die. Lancet. 1975;2:375–377.
  • Rockswold G, Leonard P, Nagib M. Analysis of management in thirty-three closed head injury patients who “talked and deteriorated”. Neurosurgery. 1987;21:51–55.
  • Baricich A, de SA, Antoniono E, et al. Recovery from vegetative state of patients with a severe brain injury: a 4-year real-practice prospective cohort study. Funct Neurol. 2017;32:131–136.
  • Estraneo A, Moretta P, Loreto V, et al. Late recovery after traumatic, anoxic, or hemorrhagic long-lasting vegetative state. Neurology. 2010;75:239–245.
  • Estraneo A, Moretta P, Loreto V, et al. Clinical and neuropsychological long-term outcomes after late recovery of responsiveness: a case series. Arch Phys Med Rehabil. 2014;95:711–716.
  • Yelden K, Duport S, James L, et al. Late recovery of awareness in prolonged disorders of consciousness – a cross-sectional cohort study. Disabil Rehabil. 2018;40:2433–2438.
  • Wilson B, Hinchcliffe A, Tunnard C, et al. Paradoxical improvement of function more than 2 years after onset of tuberculous meningitis. Brain Inj. 2013;27:944–950.
  • Wilson BA, Dhamapurkar S, Rose A. Surviving brain injury after assault: Gary’s story. Hove: Psychology Press; 2016.
  • Schutz L. Models of exceptional adaptation in recovery after traumatic brain injury: a case series. J Head Trauma Rehabil. 2007;22:48–55.
  • Schutz L, Schutz M. Head injury recovery in real life. San Diego: Plural Publishing; 2010.
  • Potts M, Stewart E, Griesser M, et al. Exceptional neurologic recovery in a teenage football player after second impact syndrome with a thin subdural haematoma. Pm & R. 2012;4:530–532.
  • Kapur N. Injured brains of medical minds: views from within. Oxford: Oxford University Press; 1997.
  • Osborn C. Over my head: a doctor’s own story of head injury from the inside looking out. Kansas City: Andrews McMeel Publishing; 2000.
  • Thomas D. The journey back to effective cognitive function after brain injury. A patient perspective. Int J Ther Rehabil. 2009;16:497–501.
  • Thomas D, Skelton-Robinson M. Recovering from severe brain injury. BMJ. 2010;341:398–399.
  • Clark M. A piece of my mind. No more apologies. JAMA. 2012;308:1983–1984.
  • Warlow C. A (so-called) mild head injury. Pract Neurol. 2013;13:260–262.
  • Liu C. On being a doctor again. Ann Intern Med. 2014;160:286–287.
  • Kushner D. Cautionary case: Low Glasgow Coma Scale scores, brainstem involvement, decompressive craniectomy, full recovery, and one more reason for advocacy/collaboration. Am J Phys Med Rehabil. 2015;94:154–158.
  • Bigler E, Stern Y. Traumatic brain injury and reserve. Handb Clin Neurol. 2015;128:691–710.
  • Mathias J, Wheaton P. Contribution of brain or biological reserve and cognitive or neural reserve to outcome after TBI: a meta-analysis (prior to 2015). Neurosci Biobehavioral Rev. 2015;55:573–593.
  • Donders J, Stout J. The influence of cognitive reserve on recovery from traumatic brain injury. Arch Clin Neuropsychol. 2018; Epub ahead of print.
  • Steward K, Kennedy R, Novack T, et al. The role of cognitive reserve in recovery from traumatic brain injury. J Head Trauma Rehabil. 2018;33:E18–E27.
  • Kapur N, Manly T, Cole J, et al. The paradoxical brain – so what? In: Kapur N, editor. The paradoxical brain. Cambridge: Cambridge University Press; 2011. p. 418–434.
  • Hillary F, Grafman J. Injured brains and adaptive networks: the benefits and costs of hyperconnectivity. Trends Cogn Sci (Regul Ed). 2017;21:385–401.
  • Seeley WW, Matthews BR, Crawford RK, et al. Unravelling Boléro: progressive aphasia, transmodal creativity and the right posterior neocortex. Brain. 2008;131:39–49.
  • Mottron L, Bouvet L, Bonnel A, et al. Veridical mapping in the development of exceptional autistic abilities. Neurosci Biobehav Rev. 2013;37:209–228.
  • Loui P, Li H, Hohmann A, et al. Enhanced cortical connectivity in absolute pitch musicians: a model for local hyperconnectivity. J Cogn Neurosci. 2011;23:1015–1026.
  • Ubel P, Loewenstein G, Schwarz N, et al. Misimagining the unimaginable: the disability paradox and health care decision making. Health Psychol. 2005;24:S57–S62.
  • Fellinghauer B, Reinhardt J, Stucki G, et al. Explaining the disability paradox: a cross-sectional analysis of the Swiss general population. BMC Public Health. 2012;12:1–9.
  • Seligman MEP, Rashid T, Parks AC. Positive psychology: an introduction. Am Psychol. 2006;61:774–788.
  • Wood AM, Tarrier N. Positive clinical psychology: a new vision and strategy for integrated research and practice. Clin Psychol Rev. 2010;30:819–829.
  • Coulombe S, Jutras S, Labbé D, et al. Residential experience of people with disabilities: a positive psychology perspective. J Environ Psychol. 2016;46:42–54.
  • Kapur N, Cole J, Manly T, et al. Positive clinical neuroscience: explorations in positive neurology. Neuroscientist. 2013;19:354–369.
  • Greene JD, Morrison I, Seligman M. Positive neuroscience. New York: Oxford University Press; 2016.
  • Randolph J. Positive neuropsychology: the science and practice of promoting cognitive health. Appl Neuropsychol Adult. 2018;25:287–294.
  • Rabinowitz A, Arnett P. Positive psychology perspective on traumatic brain injury recovery and rehabilitation. Appl Neuropsychol Adult. 2018;25:295–303.
  • Cullen B, Pownall J, Cummings J, et al. Positive PsychoTherapy in ABI Rehab (PoPsTAR): a pilot randomised controlled trial. Neuropsychol Rehabil. 2018;28:17–33.
  • Wardlaw C, Hicks J, Sherer M, et al. Psychological resilience is associated with participation outcomes following mild to severe traumatic brain injury. Front Neurol. 2018;9:1–10.
  • Marwitz J, Sima A, Kreutzer J, et al. Longitudinal examination of resilience after traumatic brain injury: a traumatic brain injury model systems study. Arch Phys Med Rehabil. 2018;99:264–271.
  • Neils-Strunjas J, Paul D, Clark A, et al. Role of resilience in the rehabilitation of adults with acquired brain injury. Brain Inj. 2017;31:131–139.
  • Nalder E, Hartman L, Hunt A, et al. Traumatic brain injury resiliency model: a conceptual model to guide rehabilitation research and practice. Disabil Rehabil. 2018;1–10. Epub before print.
  • Hanks R, Rapport L, Perrine B, et al. Correlates of resilience in the first 5 years after traumatic brain injury. Rehabil Psychol. 2016;61:269–276.
  • Hulbert J, Anderson MC. What doesn’t kill you makes you stronger: psychological trauma and its relationship to enhanced memory control. J Exp Psychol Gen. 2018;147:1931–1949.
  • Seery M, Leo R, Lupien S, et al. An upside to adversity?: moderate cumulative lifetime adversity is associated with resilient responses in the face of controlled stressors. Psychol Sci 2013;24:1181–1189.

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