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Barnemedisin (HSØ)BHL ervervet hjerneskade for barn og unge 0-18 årFase 1 og 2 - Akutt/intensivbehandling og tidligre-/habilitering Referanser

Referanser

Dette emnet er hentet fra
08.01.2022Versjon 0.1

  1. Cantore, L., K. Norwood, and P. Patrick, Medical aspects of pediatric rehabilitation after moderate to severe traumatic brain injury. NeuroRehabilitation, 2012. 30(3): p. 225-234.
  2. Ivanhoe, C.B. and E.T. Hartman, Clinical caveats on medical assessment and treatment of pain after TBI. J Head Trauma Rehabil, 2004. 19(1): p. 29-39.
  3. Blackman, J.A., et al., Paroxysmal autonomic instability with dystonia after brain injury. Arch Neurol, 2004. 61(3): p. 321-8.
  4. Baguley, I.J., et al., Paroxysmal sympathetic hyperactivity after acquired brain injury: consensus on conceptual definition, nomenclature, and diagnostic criteria. J Neurotrauma, 2014. 31(17): p. 1515-20.
  5. Burton, J.M. and O.M. Morozova, Calming the Storm: Dysautonomia for the Pediatrician. Curr Probl Pediatr Adolesc Health Care, 2017. 47(7): p. 145-150.
  6. Casano-Sancho, P., Pituitary dysfunction after traumatic brain injury: are there definitive data in children? Arch Dis Child, 2017. 102(6): p. 572-577.
  7. Personnier, C., et al., Prevalence of pituitary dysfunction after severe traumatic brain injury in children and adolescents: a large prospective study. J Clin Endocrinol Metab, 2014. 99(6): p. 2052-60.
  8. Kaulfers, A.M., et al., Endocrine dysfunction following traumatic brain injury in children. J Pediatr, 2010. 157(6): p. 894-9.
  9. Kjaersgaard, A., L.H. Nielsen, and B.H. Sjolund, Randomized trial of two swallowing assessment approaches in patients with acquired brain injury: Facial-Oral Tract Therapy versus Fibreoptic Endoscopic Evaluation of Swallowing. Clin Rehabil, 2014. 28(3): p. 243-53.
  10. Williamson, D., et al., Pharmacological interventions for agitated behaviours in patients with traumatic brain injury: a systematic review. BMJ Open, 2019. 9(7): p. e029604.
  11. Armstrong, R.A., Visual problems associated with traumatic brain injury. Clin Exp Optom, 2018. 101(6): p. 716-726.
  12. Riggio, S., Traumatic brain injury and its neurobehavioral sequelae. Neurol Clin, 2011. 29(1): p. 35-47, vii.
  13. Peragallo, J.H., Visual function in children with primary brain tumors. Curr Opin Neurol, 2019. 32(1): p. 75-81.
  14. Perheentupa, U., et al., Management and outcome of pediatric skull base fractures. Int J Pediatr Otorhinolaryngol, 2010. 74(11): p. 1245-50.
  15. Bergemalm, P.O. and B. Lyxell, Appearances are deceptive? Long-term cognitive and central auditory sequelae from closed head injury. Int J Audiol, 2005. 44(1): p. 39-49.
  16. Pomerleau, G., et al., Developmental trajectories of infants and toddlers with good initial presentation following moderate or severe traumatic brain injury: a pilot clinical assessment project. J Pediatr Rehabil Med, 2012. 5(2): p. 89-97.
  17. Bratt, M., et al., Frequency and prognostic factors of olfactory dysfunction after traumatic brain injury. Brain Inj, 2018. 32(8): p. 1021-1027.
  18. Arbour, C., et al., Detecting pain in traumatic brain-injured patients with different levels of consciousness during common procedures in the ICU: typical or atypical behaviors? Clin J Pain, 2014. 30(11): p. 960-9.
  19. Faltynek, P., Marshall S., Sequeira, K. and Teasell, R. , Motor and sensory dysfunction following aquired brain injury. Clinical Guidebook ERABI, 2019. Versjon 13.0.
  20. Hebert, D., et al., Canadian stroke best practice recommendations: Stroke rehabilitation practice guidelines, update 2015. Int J Stroke, 2016. 11(4): p. 459-84.
  21. Rivara, F.P., et al., Quality of care indicators for the rehabilitation of children with traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 2012. 93(3): p. 381-385.e9.
  22. Katz-Leurer M, R.H., Acquired Brain Injuries: Trauma, Near-Drowning and Tumors. 5th edition, in Campbell`s Physical Therapy for Children, O.M. Palisano R, Schreiber J, Editor. 2017, Elsevier.
  23. Enslin, J.M.N., U.K. Rohlwink, and A. Figaji, Management of Spasticity After Traumatic Brain Injury in Children. Front Neurol, 2020. 11: p. 126.
  24. Carr J., S.R., Neurological Rehabilitation. Optimizing Motor Performance. 2.ed. 2011: Churchill Livingstone Elsevier.
  25. Leung, J., et al., The prevalence and characteristics of shoulder pain after traumatic brain injury. Clin Rehabil, 2007. 21(2): p. 171-81.
  26. Giacino, J.T., et al., The minimally conscious state: definition and diagnostic criteria. Neurology, 2002. 58(3): p. 349-53.
  27. Lovstad, M., S.L. Hauger, and F. Becker, [Persistent consciousness disorders after brain injury--need for specialized assessment]. Tidsskr Nor Laegeforen, 2012. 132(23-24): p. 2596-7.
  28. Lovstad, M., et al., Reliability and diagnostic characteristics of the JFK coma recovery scale-revised: exploring the influence of rater's level of experience. J Head Trauma Rehabil, 2010. 25(5): p. 349-56.
  29. Schnakers, C., et al., Diagnostic accuracy of the vegetative and minimally conscious state: clinical consensus versus standardized neurobehavioral assessment. BMC Neurol, 2009. 9: p. 35.
  30. van Erp, W.S., et al., The vegetative state: prevalence, misdiagnosis, and treatment limitations. J Am Med Dir Assoc, 2015. 16(1): p. 85 e9-85 e14.
  31. Giacino, J.T., K. Kalmar, and J. Whyte, The JFK Coma Recovery Scale-Revised: measurement characteristics and diagnostic utility. Arch Phys Med Rehabil, 2004. 85(12): p. 2020-9.
  32. Seel, R.T., et al., Assessment scales for disorders of consciousness: evidence-based recommendations for clinical practice and research. Arch Phys Med Rehabil, 2010. 91(12): p. 1795-813.
  33. Slomine, B.S., et al., Preliminary validation of the coma recovery scale for pediatrics in typically developing young children. Brain Inj, 2019: p. 1-6.
  34. Chatelle, C., et al., A sensitive scale to assess nociceptive pain in patients with disorders of consciousness. J Neurol Neurosurg Psychiatry, 2012. 83(12): p. 1233-7.
  35. Stuss, D.T., et al., The acute period of recovery from traumatic brain injury: posttraumatic amnesia or posttraumatic confusional state? J Neurosurg, 1999. 90(4): p. 635-43.
  36. Nakase-Thompson, R., et al., Acute confusion following traumatic brain injury. Brain Inj, 2004. 18(2): p. 131-42.
  37. Briggs, R., et al., Duration of post-traumatic amnesia as a predictor of functional outcome in school-age children: a systematic review. Dev Med Child Neurol, 2015. 57(7): p. 618-627.
  38. Ewing-Cobbs, L., et al., The Children's Orientation and Amnesia Test: relationship to severity of acute head injury and to recovery of memory. Neurosurgery, 1990. 27(5): p. 683-91; discussion 691.
  39. Iverson, G.L., T.S. Woodward, and A.M. Iverson, Regression-predicted age norms for the Children's Orientation and Amnesia Test. Arch Clin Neuropsychol, 2002. 17(2): p. 131-42.
  40. Levin, H.S., V.M. O'Donnell, and R.G. Grossman, The Galveston Orientation and Amnesia Test. A practical scale to assess cognition after head injury. J Nerv Ment Dis, 1979. 167(11): p. 675-84.
  41. Sherer, M., et al., Multidimensional assessment of acute confusion after traumatic brain injury. Arch Phys Med Rehabil, 2005. 86(5): p. 896-904.
  42. Tepas, J.J., 3rd, et al., The effect of delay in rehabilitation on outcome of severe traumatic brain injury. J Pediatr Surg, 2009. 44(2): p. 368-72.
  43. Niedzwecki, C.M., A.T. Rogers, and M.E. Fallat, Using Rehabilitation along the Pediatric Trauma Continuum as a Strategy to Define Outcomes in Traumatic Brain Injury. Clinical Pediatric Emergency Medicine, 2018. 19(3): p. 260-271.
  44. Buhl, I. and H. Pallesen, Early rehabilitation of patients with severe acquired brain injury: strategies to promote participation. Scand J Occup Ther, 2015. 22(3): p. 181-95.
  45. Ylvisaker, M., et al., Rehabilitation and ongoing support after pediatric TBI: twenty years of progress. J Head Trauma Rehabil, 2005. 20(1): p. 95-109.
  46. Pickenbrock, H., et al., Conventional versus neutral positioning in central neurological disease: a multicenter randomized controlled trial. Dtsch Arztebl Int, 2015. 112(3): p. 35-42.
  47. Pickenbrock, H.M., A. Zapf, and D. Dressler, Effects of therapeutic positioning on vital parameters in patients with central neurological disorders: a randomised controlled trial. J Clin Nurs, 2015. 24(23-24): p. 3681-90.
  48. Waehrens, E.E., Neurologi og Neurohabilitering, 2.utgave. 2013: Munskgaard.
  49. Rivara, F.P., et al., Incidence of disability among children 12 months after traumatic brain injury. Am J Public Health, 2012. 102(11): p. 2074-9.
  50. Mugglestone, M.A., et al., Spasticity in children and young people with non-progressive brain disorders: summary of NICE guidance. BMJ, 2012. 345: p. e4845.
  51. Katz-Leurer, M., et al., The effects of a 'home-based' task-oriented exercise programme on motor and balance performance in children with spastic cerebral palsy and severe traumatic brain injury. Clin Rehabil, 2009. 23(8): p. 714-24.
  52. Forløbsprogram for rehabilitering af børn og unge med erhvervet hjerneskade. 2011; Available from: http://www.sst.dk.
  53. Greenham, M., et al., Australian clinical consensus guideline for the subacute rehabilitation of childhood stroke. Int J Stroke, 2021. 16(3): p. 311-320.
  54. Health, R.R.C.o.P.a.C. Stroke in childhood. Clinical guideline for diagnosis, management and rehabilitation. 2017; Available from: https://www.rcpch.ac.uk/resources/stroke-in-childhood-clinical-guideline.
  55. Pallesen, H., Lund, L.B., Jensen, M. Roenn-Smidt, H., The body participating: a qualitative study of early rehabilitation participation for patientswith severe brain injury and low level of consciousness. . European Journal of Physiotherapy, 2018. 20: p. 2-11.
  56. Andersen, A.B.L., L.B., Arentsen, K.H., Om Affolter modellen® -Guidet interaktionsterapi. 2008.
  57. Bischofsberger W, A.F., Guided interaction therapy: principles of intervention, i "I Movement and action in learning and development", ed. I.J. Stockman. 2004: Elsevier Academic Press.
  58. Lund, L.B., An observation based intervention study: clinical changes in interaction behaviour as response to Guided Tactual Interaction Therapy in 5 adults with acquired severe brain injury. Novel Physiotherapies, 2013.
  59. deVeber, G.A., et al., Epidemiology and Outcomes of Arterial Ischemic Stroke in Children: The Canadian Pediatric Ischemic Stroke Registry. Pediatr Neurol, 2017. 69: p. 58-70.
  60. Morgan, A.T., Dysphagia in childhood traumatic brain injury: a reflection on the evidence and its implications for practice. Dev Neurorehabil, 2010. 13(3): p. 192-203.
  61. Kjærsgaard, A., Ansikt, munn og svelg. Undersøkelse og behandling efter Coombes konceptet. 2005, Copenhagen: FADL's forlag Aktieselskab.
  62. Hansen, T.S. and D. Jakobsen, A decision-algorithm defining the rehabilitation approach: 'Facial oral tract therapy'. Disabil Rehabil, 2010. 32(17): p. 1447-60.
  63. Choong, K., et al., Practice Recommendations for Early Mobilization in Critically Ill Children. J Pediatr Intensive Care, 2018. 7(1): p. 14-26.
  64. Ista, E., et al., Mobilization practices in critically ill children: a European point prevalence study (EU PARK-PICU). Crit Care, 2020. 24(1): p. 368.
  65. Cameron, S., et al., Early mobilization in the critical care unit: A review of adult and pediatric literature. J Crit Care, 2015. 30(4): p. 664-72.
  66. Arteaga, G., Kawai, Y, Rowekamp, D., Rohlik, G. Matzke, N., Fryer, K., Feigal, S., Neu, L., Graner, K. Olson, A. Zimmermann, J., Lin, J. , 1289: THE PEDIATRIC ICU LIBERATION PROJECT IMPACT ON PATIENT OUTCOMES: THE MAYO EXPERIENCE. Critical Care Medicine, 2018. 46(1).
  67. Fink, E.L., et al., Early Protocolized Versus Usual Care Rehabilitation for Pediatric Neurocritical Care Patients: A Randomized Controlled Trial. Pediatr Crit Care Med, 2019. 20(6): p. 540-550.
  68. Cuello-Garcia, C.A., et al., Early Mobilization in Critically Ill Children: A Systematic Review. J Pediatr, 2018. 203: p. 25-33 e6.
  69. Olkowski, B.F. and S.O. Shah, Early Mobilization in the Neuro-ICU: How Far Can We Go? Neurocrit Care, 2017. 27(1): p. 141-150.
  70. Moreno, N.V., Faltynek, P., Gofton, T., Boulton, M. Sequeira, K., Teasell, R., Acute Interventions for Acquired Brain Injury. 2019.
  71. Padilla, R. and A. Domina, Effectiveness of Sensory Stimulation to Improve Arousal and Alertness of People in a Coma or Persistent Vegetative State After Traumatic Brain Injury: A Systematic Review. Am J Occup Ther, 2016. 70(3): p. 7003180030p1-8.
  72. Cheng, L., et al., Do Sensory Stimulation Programs Have an Impact on Consciousness Recovery? Front Neurol, 2018. 9: p. 826.
  73. Anderson, V., et al., Predictors of cognitive function and recovery 10 years after traumatic brain injury in young children. Pediatrics, 2012. 129(2): p. e254-61.
  74. Schwartz, L., et al., Long-term behavior problems following pediatric traumatic brain injury: prevalence, predictors, and correlates. J Pediatr Psychol, 2003. 28(4): p. 251-63.
  75. Eichler, S., Elseth Fjellheim, M., Pediatric Traumatic Brain Injury - Neurocognitiv and Psychosocial Outcome 6 Months Post-Injury: A Follow-Up STudy in a Norwegian Pediatric Sample. Master Thesis - Department of Psychology, University of Oslo, 2018.

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