Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:5
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 9 od 40  
Back povratak na rezultate
2021, vol. 54, br. 2, str. 137-154
Predviđanje faktora sposobnosti za vožnju nakon stečene povrede mozga na osnovu kombinovane neuropsihološke i Mediatester procene
University Rehabilitation Institute "Soča", Ljubljana, Slovenia

e-adresaursa.cizman@ir-rs.si
Sažetak
Cilj ove studije je bio da se oceni koliko dobro se na osnovu prediktorskih varijabli koje potiču iz različitih metoda procene (medicinska dokumentacija, neuropsihološka procena i Mediatester procena vožnje) mogu predvideti sposobnosti pacijenata da voze nakon traumatske povrede mozga ili moždanog udara (tj. da polože praktični test vožnje sa profesionalnim instruktorom). U istraživanju je učestvovalo 63 učesnika (54 muškaraca) starosti do 20 do 80 godina (M = 44.4; SD = 16.7). Većina pacijenata je imala neku traumatsku povredu mozga, a njih 18 je uključeno nakon ishemijskog moždanog udara. Pacijenti koji su položili test vožnje su imali značajno viši kompozitni skor na testu razumevanja pravljenja putanja (eng. Comprehensive Trail-Making Test) (srednja ili velika veličina efekta) u odnosu na one koji nisu položili test ili one koji su ga položili sa ograničenjima. Rezultati na testu reakcije na 18 svetala (eng. the 18-light reaction test; 18 LRT) ukazuju da reakciono vreme može takođe imati ulogu u predviđanju sposobnosti za vožnju. Na osnovu modela sa ova dva prediktora uz Glazgov koma skalu, 90% ispitanika je uspešno klasifikovano na one koji su položili vožnju i one koji nisu položili ili položili uz ograničenja. Rezultati ukazuju da su neuropsihološka i procena vožnje na osnovu kognitivnih sposobnosti bolji prediktori ponovnog sticanja sposobnosti za vožnju nakon traumatske povrede mozga nego pojedinačne kognitivne sposobnosti.
Reference
Alexandersen, A., Dalen, K., Brønnick, K. (2009) Prediction of driving ability after inconclusive neuropsychological investigation. Brain Injury, 23(4): 313-321
Bliokas, V.V., Taylor, J.E., Leung, J., Deane, F.P. (2011) Neuropsychological assessment of fitness to drive following acquired cognitive impairment. Brain Injury, 25(5): 471-487
Brickenkamp, R., Zillmer, E. (2002) The d2 test of attention. Oxford
Brouwer, W., Withaar, F., Tant, M., van Zomeren, A. (2002) Attention and driving in traumatic brain injury: A question of coping with time-pressure. Journal of Head Trauma Rehabilitation, 17, 1-15
Brunner, M., Togher, L., Palmer, S., Dann, S., Hemsley, B. (2019) Rehabilitation professionals' views on social media use in traumatic brain injury rehabilitation: Gatekeepers to participation. Disability and Rehabilitation, 41(11): 1313-1320
Classen, S., Levy, C., Mccarthy, D., Mann, W.C., Lanford, D., Waid-Ebbs, J.K. (2009) Traumatic brain injury and driving assessment: An evidence-based literature review. American Journal of Occupational Therapy, 63(5): 580-591
Clay, O.J., Wadley, V.G., Edwards, J.D., Roth, D.L., Roenker, D.L., Ball, K.K. (2005) Cumulative meta-analysis of the relationship between useful field of view and driving performance in older adults: Current and future implications. Optometry and Vision Science, 82(8): 724-731
Coleman, R.D., Rapport, L.J., Ergh, T.C., Hanks, R.A., Ricker, J.H., Millis, S.R. (2002) Predictors of driving outcome after traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 83(10): 1415-1422
Crivelli, L., Russo, M.J., Farez, M.F., Bonetto, M., Prado, C., Calandri, I.L., Campos, J., Cohen, G., Méndez, P.C., Sabe, L.R., Allegri, R.F. (2019) Driving and Alzheimer's disease: A neuropsychological screening battery for the elderly. Dementia & Neuropsychologia, 13(3): 312-320
Culbertson, W.C., Zillmer, E.A. (2005) Tower of London: Drexel University: TOLDX: 2nd edition. Toronto
Cullen, N., Krakowski, A., Taggart, C. (2014) Early neuropsychological tests as correlates of return to driving after traumatic brain injury. Brain Injury, 28(1): 38-43
Cyr, A., Stinchcombe, A., Gagnon, S., Marshall, S., Hing, M.M., Finestone, H. (2009) Driving difficulties of brain-injured drivers in reaction to high-crash-risk simulated road events: A question of impaired divided attention?. Journal of Clinical and Experimental Neuropsychology, 31(4): 472-482
d'Apolito A.-C., Massonneau, A., Paillat, C., Azouvi, P. (2013) Impact of brain injury on driving skills. Annals of Physical and Rehabilitation Medicine, 56, 63-80
Debeljak, M., Vidmar, G., Oberstar, K., Zupan, A. (2019) Simple and choice reaction times of healthy adults and patients after stroke during simulated driving. International Journal of Rehabilitation Research, 42(3): 280-284
Delis, D.C., Kramer, J.H., Kaplan, E., Ober, B.A. (2000) California Verbal Learning Test: Second edition (CVLT-II). San Antonio, TX
Devos, H., Akinwuntan, A.E., Nieuwboer, A., Truijen, S., Tant, M., de Weerdt, W. (2011) Screening for fitness to drive after stroke: A systematic review and meta-analysis. Neurology, 76(8): 747-756
Dubois, B., Slachevsky, A., Litvan, I., Pillon, B. (2000) The FAB: A frontal assessment battery at bedside. Neurology, 55(11): 1621-1626
Field, A. (2011) Discovering Statistics using SPSS. Sage
Fisk, G.D., Novack, T., Mennemeier, M., Roenker, D. (2002) Useful field of view after traumatic brain injury. Journal of Head Trauma Rehabilitation, 17(1): 16-25
Formisano, R., Bivona, U., Brunelli, S., Giustini, M., Longo, E., Taggi, F. (2005) A preliminary investigation of road traffic accident rate after severe brain injury. Brain Injury, 19(3): 159-163
Fox, G.K., Bashford, G.M., Caust, S.L. (1992) Identifying safe versus unsafe drivers following brain impairment: The Coorabel Programme. Disability and Rehabilitation, 14(3): 140-145
Galski, T., Bruno, R.L., Ehle, H.T. (1992) Driving after cerebral damage: A model with implications for evaluation. American Journal of Occupational Therapy, 46(4): 324-332
Galski, T., Ehle, H.T., Bruno, R.L. (1990) An assessment of measures to predict the outcome of driving evaluations in patients with cerebral damage. American Journal of Occupational Therapy, 44(8): 709-713
Hargrave, D.D., Nupp, J.M., Erickson, R.J. (2012) Two brief measures of executive function in the prediction of driving ability after acquired brain injury. Neuropsychological Rehabilitation, 22(4): 489-500
Hawley, C.A. (2001) Return to driving after head injury. Journal of Neurology, Neurosurgery & Psychiatry, 70(6): 761-766
Hooper, H.E. (1983) Hooper Visual Organization Test manual. Los Angeles
Karagkiolidou, Z., Beratis, N., Pavlou, D., Andronas, N., Kontaxopoulou, D., Fragkiadaki, S., Yannis, G., Stefanis, L., Papageorgiou, S.G. (2018) Can brief neuropsychological tests predict the driving behavior of patients with Parkinson's disease?. Dialogues in Clinical Neuroscience & Mental Health, 1(3), supplement 3
Korteling, J.E., Kaptein, N.A. (1996) Neuropsychological driving fitness tests for brain-damaged subjects. Archives of Physical Medicine and Rehabilitation, 77(2): 138-146
Lundqvist, A. (2001) Neuropsychological aspects of driving characteristics. Brain Injury, 15(11): 981-994
Lundqvist, A., Alinder, J., Rönnberg, J. (2008) Factors influencing driving 10 years after brain injury. Brain Injury, 22(4): 295-304
Lundqvist, A., Gerdle, B., Rönnberg, J. (2000) Neuropsychological aspects of driving after a stroke: In the simulator and on the road. Applied Cognitive Psychology, 14(2): 135-150, 10.1002/(sici)1099-0720(200003/04)14:2<135::aid-acp628>3.0.co;2-s
Marshall, S.C., Molnar, F., Man-Son-hing, M., Blair, R., Brosseau, L., Finestone, H.M., Lamothe, C., Korner-Bitensky, N., Wilson, K.G. (2007) Predictors of driving ability following stroke: A systematic review. Topics in Stroke Rehabilitation, 14(1): 98-114
Motta, K., Lee, H., Falkmer, T. (2014) Post-stroke driving: Examining the effect of executive dysfunction. Journal of Safety Research, 49: 33.e1-38
Novack, T.A., Alderson, A., Bush, B., Meythaler, J., Canupp, K. (2000) Cognitive and functional recovery at 6 and 12 month post-TBI. Brain Injury, 14, 987-996
Novack, T.A., Labbe, D., Grote, M., Carlson, N., Sherer, M., Carlos, A.J., Bushnik, T., Cifu, D., Powell, J.M., Ripley, D., Seel, R.T. (2010) Return to driving within 5 years of moderate-severe traumatic brain injury. Brain Injury, 24(3): 464-471
Odenheimer, G.L., Beaudet, M., Jette, A.M., Albert, M.S., Grande, L., Minaker, K.L. (1994) Performance-based driving evaluation of the elderly driver: Safety, reliability, and validity. Journal of Gerontology, 49A(4): M153-M159
Ortoleva, C., Brugger, C., van der Linden, M., Walder, B. (2012) Prediction of driving capacity after traumatic brain injury: A systematic review. Journal of Head Trauma Rehabilitation, 27(4): 302-313
Owsley, C., Ball, K., McGwin, G., Sloane, M.E., Roenker, D.L., White, M.F., Overley, T. (1998) Visual processing impairment and risk of motor vehicle crash among older adults. JAMA, 279(14): 1083-1088
Pietrapiana, P., Tamietto, M., Torrini, G., Mezzanato, T., Rago, R., Perino, C. (2005) Role of premorbid factors in predicting safe return to driving after severe TBI. Brain Injury, 19(3): 197-211
Rapport, L.J., Bryer, R.C., Hanks, R.A. (2008) Driving and community integration after traumatic brain injury. Archives of Physical Medicine and Rehabilitation, 89(5): 922-930
Reynolds, C.R. (2002) Comprehensive trail making test: Examiner's manual. Austin, Texas: PRO-ED
Rothke, S. (1989) The relationship between neuropsychological test scores and performance on driving evaluation. International Journal of Clinical Neuropsychology, 11: 134-136
Saviola, D., de Tanti, A., Conforti, J., Posteraro, L., Manfredini, A., Bagattini, C., Basagni, B. (2018) Safe return to driving following severe acquired brain injury: Role of a short neuropsychological assessment. European journal of physical and rehabilitation medicine, 54(5), 717-723
Schmidt, J.D., Hoffman, N.L., Ranchet, M., Miller, L. S., Tomporowski, P.D., Akinwuntan, A.E., Devos, H. (2017) Driving after concussion: Is it safe to drive after symptoms resolve?. Journal of Neurotrauma, 34(8): 1571-1578
Schuhfried, G. (2005) Manual Expert System Traffic (XPSV). Modling: Schuhfried GmbH
Schultheis, M.T., Whipple, E.K. (2014) Driving after traumatic brain injury: Evaluation and rehabilitation interventions. Current Physical Medicine and Rehabilitation Reports, 2(3): 176-183
Sivak, M. (1996) The information that drivers use: Is it indeed 90% visual?. Perception, 25(9): 1081-1089
Spreen, O., Strauss, E. (1998) A compendium of neuropsychological tests: Administration, norms and commentary. Oxford-New York: Oxford University Press, 2nd ed
van Zomeren, A.H., Brouwer, W.H., Andminderhoud, J.M. (1987) Acquired brain damage and driving: A review. Archives Of Physical Medicine and Rehabilitation, 68, 697-705
Withaar, F.K., Brouwer, W.H., van Zomeren, A.H. (2000) Fitness to drive in older drivers with cognitive impairment. Journal of the International Neuropsychological Society, 6(4): 480-490
Wolfe, P.L., Lehockey, K.A. (2016) Neuropsychological assessment of driving capacity. Archives of Clinical Neuropsychology, 31(6): 517-529
Wood, J.M., Mcgwin, G., Elgin, J., Vaphiades, M.S., Braswell, R.A., Decarlo, D.K., Kline, L.B., Meek, G. C., Searcey, K., Owsley, C. (2009) On-road driving performance by persons with hemianopia and quadrantanopia. Investigative Opthalmology & Visual Science, 50(2): 577-585
Zupan, A., Marinček, Č. (2013) Ocenjevanje vozniških sposobnosti in potrebne prilagoditve avtomobila / Assessment of driving skills and necessary adjustments of the car. Rehabilitacija, XII, supl. 1
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.2298/PSI200408024C
primljen: 08.04.2020.
revidiran: 13.08.2020.
prihvaćen: 13.08.2020.
objavljen u SCIndeksu: 09.04.2021.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0