Memory Interventions

Christine H. Koterba; Kristen R. Hoskinson

doi:10.1017/9781316855683.004

2 - Memory Interventions

from Section 1 - Evidence-based Cognitive Rehabilitation

Published online by Cambridge University Press: 25 June 2018

Christine H. Koterba and

Kristen R. Hoskinson

Edited by

Gianna Locascio and

Beth S. Slomine

Show author details

Gianna Locascio: Affiliation:
NYU Langone Health, New York
Beth S. Slomine: Affiliation:
Kennedy Krieger Institute, Baltimore

Book contents

Get access

Summary

A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'

Type: Chapter
Information: Cognitive Rehabilitation for Pediatric Neurological Disorders , pp. 28 - 50

DOI: https://doi.org/10.1017/9781316855683.004 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2018

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.Glisky, E. L. In: Ponsford, J., editor. Cognitive and Behavioral Rehabilitation: From Neurobiology to Clinical Practice. New York City, NY: The Guilford Press; 2004. pp. 100–28.Google Scholar

2.Haskins, E. C., Cicerone, K., Dams-O’Connor, K., Eberle, R., Langenbahn, D., Shapiro-Rosenbaum, A. Cognitive Rehabilitation Manual: Translating Evidence-Based Recommendations into Practice. Reston, VA: American Congress of Rehabilitation Medicine; 2012.Google Scholar

3.Velikonja, D., Tate, R., Ponsford, J., McIntyre, A., Janzen, S., Bayley, M., et al. INCOG recommendations for management of cognition following traumatic brain injury, part V: Memory. J Head Trauma Rehabil 2014;29(4):369–86.CrossRef Google Scholar PubMed

4.Van Den Broek, M. D., Downes, J., Johnson, Z., Dayus, B., Hilton, N. Evaluation of an electronic memory aid in the neuropsychological rehabilitation of prospective memory deficits. Brain Inj 2000;14(5):455–62.Google Scholar

5.Schoenberg, M. R. and Scott, J. G., editors. The Little Black Book of Neuropsychology: A Syndrome-Based Approach. New York, NY: Springer; 2011.Google Scholar

6.Valitchka, L., Turkstra, L. S. Communicating with inpatients with memory impairments. Semin Speech Lang 2013;34(3):142–53.Google Scholar

7.Schaffer, Y., Geva, R. Memory outcomes following cognitive interventions in children with neurological deficits: A review with a focus on under-studied populations. Neuropsychol Rehabil 2016;26(2):286–317.Google Scholar

8.Hayne, H., Scarf, D., Imuta, K. Childhood memories. In Wright, J. D., editor. International Encyclopedia of the Social and Behavioral Sciences. 3rd ed. Oxford, UK: Elsevier; 2015.Google Scholar

9.Courage, M., Cowan, N., editors. Studies in Developmental Psychology: The Development of Memory in Infancy and Childhood. New York, NY: Psychology Press; 2009.Google Scholar

10.Babikian, T., Asarnow, R. Neurocognitive outcomes and recovery after pediatric TBI: Meta-analytic review of the literature. Neuropsychology 2009;23(3):283–96.Google Scholar

11.Massagli, T. L., Jaffe, K. M., Fay, G. C., Polissar, N. L., Liao, S. Q., Rivara, J. B. Neurobehavioral sequelae of severe pediatric traumatic brain injury: A cohort study. Arch Phys Med Rehabil 1996;77(3):223–31.CrossRef Google Scholar PubMed

12.Catroppa, C., Anderson, V. Recovery in memory function, and its relationship to academic success, at 24 months following pediatric TBI. Child Neuropsychol 2007;13(3):240–61.Google Scholar

13.Pauly-Takacs, K., Moulin, C. J., Estlin, E. J. Benefits and limitations of errorless learning after surviving pediatric brain tumors: A case study. J Clin Exp Neuropsychol 2012;34(6):654–66.CrossRef Google Scholar PubMed

14.Carpentieri, S. C., Waber, D. P., Scott, R. M., Goumnerova, L. C., Kieran, M. W., Cohen, L. E., et al. Memory deficits among children with craniopharyngiomas. Neurosurgery 2001;49(5):1053–7.Google Scholar PubMed

15.Lansing, A. E., Max, J. E., Delis, D. C., Fox, P. T., Lancaster, J., Manes, F. F., et al. Verbal learning and memory after childhood stroke. J Int Neuropsychol Soc 2004;10(5):742–52.Google Scholar

16.Kolk, A., Ennok, M., Laugesaar, R., Kaldoja, M. L., Talvik, T. Long-term cognitive outcomes after pediatric stroke. Pediatr Neurol 2011;44(2):101–9.Google Scholar

17.Yeates, K. O., Enrile, B. G. Implicit and explicit memory in children with congenital and acquired brain disorder. Neuropsychology 2005;19(5):618–28.Google Scholar

18.Lindquist, B., Persson, E. K., Uvebrant, P., Carlsson, G. Learning, memory and executive functions in children with hydrocephalus. Acta Paediatr 2008;97(5):596–601.CrossRef Google Scholar PubMed

19.Vicari, S., Brizzolara, D., Carlesimo, G. A., Pezzini, G., Volterra, V. Memory abilities in children with Williams syndrome. Cortex 1996;32(3):503–14.Google Scholar

20.Vinter, A., Detable, C. Implicit and explicit motor learning in children with and without Down’s syndrome. Br J Dev Psychol 2008;26(4):507–23.Google Scholar

21.Lah, S., Epps, A., Levick, W., Parry, L. Implicit and explicit memory outcome in children who have sustained severe traumatic brain injury: Impact of age at injury (preliminary findings). Brain Inj 2011;25(1):44–52.Google Scholar

22.Hersh, N. A., Treadgold, L. G. NeuroPage: The rehabilitation of memory dysfunction by prosthetic memory and cueing. NeuroRehabilitation 1994;4(3):187–97.Google Scholar

23.Robinson, K. E., Kaizar, E., Catroppa, C., Godfrey, C., Yeates, K. O. Systematic review and meta-analysis of cognitive interventions for children with central nervous system disorders and neurodevelopmental disorders. J Pediatr Psychol 2014;39(8):846–65.Google Scholar

24.Cicerone, K. D., Langenbahn, D. M., Braden, C., Malec, J. F., Klamar, K., Fraas, M., et al. Evidence-based cognitive rehabilitation: Updated review of the literature from 2003 through 2008. Arch Phys Med Rehabil 2011;92(4):519–30.Google Scholar

25.Slomine, B., Locascio, G. Cognitive rehabilitation for children with acquired brain injury. Dev Disabil Res Rev 2009;15(2):133–43.CrossRef Google Scholar PubMed

26.Glasgow, R. E., Zeiss, R. A., Barrera, M., Jr., Lewinsohn, P. M. Case studies on remediating memory deficits in brain-damaged individuals. J Clin Psychol 1977;33(4):1049–54.Google Scholar

27.Ryan, T. V., Ruff, R. M. The efficacy of structured memory retraining in a group comparison of head trauma patients. Arch Clin Neuropsychol 1988;3(2):165–79.Google Scholar

28.Crosson, B., Buenning, W. An individualized memory retraining program after closed-head injury – A single case study. J Clin Neuropsychol 1984;6(3):287–301.Google Scholar

29.Crovitz, H. F., Harvey, M. T., Horn, R. W. Problems in the acquisition of imagery mnemonics – 3 brain damaged cases Cortex. 1979;15(2):225–34.Google Scholar

30.Gianutsos, R., Gianutsos, J. Rehabilitating the verbal recall of brain-damaged patients by mnemonic training: An experimental demonstration using single-case methodology. J Clin Neuropsychol 1979;1:117–35.Google Scholar

31.Malec, J., Questad, K. Rehabilitation of memory after craniocerebral trauma – Case-report. Arch Phys Med Rehabil 1983;64(9):436–8.Google Scholar

32.Schacter, D. L., Crovitz, H. F. Memory function after closed head injury – review of quantitative research. Cortex 1977;13(2):150–76.Google Scholar

33.Berg, I. J., Koning-haanstra, M., Deelman, B. G. Long-term effects of memory rehabilitation: A controlled study. Neuropsychol Rehabil 1991;1(2):97–111.Google Scholar

34.Kaschel, R., Della Sala, S., Cantagallo, A., Fahlbock, A., Laaksonen, R., Kazen, M. Imagery mnemonics for the rehabilitation of memory: A randomised group controlled trial. Neuropsychol Rehabil 2002;12(2):127–53.Google Scholar

35.O’Neil-Pirozzi, T. M., Strangman, G. E., Goldstein, R., Katz, D. I., Savage, C. R., Kelkar, K., Supelana, C., Burke, D., Rauch, S. L., Glenn, M. B. A controlled treatment study of internal memory strategies (I-MEMS) following traumatic brain injury. J Head Trauma Rehabil 2010;25(1):43–51.Google Scholar

36.Potvin, M. J., Rouleau, I., Senechal, G., Giguere, J. F. Prospective memory rehabilitation based on visual imagery techniques. Neuropsychol Rehabil 2011;21(6):899–924.CrossRef Google Scholar PubMed

37.Yerys, B. E., White, D. A., Salorio, C. F., McKinstry, R., Moinuddin, A., DeBaun, M. Memory strategy training in children with cerebral infarcts related to sickle cell disease. J Pediatr Hematol Oncol 2003;25(6):495–8.Google Scholar

38.Patel, S. K., Katz, E. R., Richardson, R., Rimmer, M., Kilian, S. Cognitive and problem solving training in children with cancer: A pilot project. J Pediatr Hematol Oncol. 2009;31(9):670–7.Google Scholar

39.Butler, R. W., Copeland, D. R. Attentional processes and their remediation in children treated for cancer: A literature review and the development of a therapeutic approach. J Int Neuropsychol Soc 2002;8(1):115–24.Google Scholar

40.Sumowski, J. F., Coyne, J., Cohen, A., Deluca, J. Retrieval practice improves memory in survivors of severe traumatic brain injury. Arch Phys Med Rehabil 2014;95(2):397–400.Google Scholar

41.Coyne, J. H., Borg, J. M., DeLuca, J., Glass, L., Sumowski, J. F. Retrieval practice as an effective memory strategy in children and adolescents with traumatic brain injury. Arch Phys Med Rehabil 2015;96(4):742–5.CrossRef Google Scholar PubMed

42.Roediger, H. L., 3rd, Butler, A. C. The critical role of retrieval practice in long-term retention. Trends Cogn Sci 2011;15(1):20–7.Google Scholar

43.van’t Hooft, I., Andersson, K., Bergman, B., Sejersen, T., von Wendt, L., Bartfai, A. Sustained favorable effects of cognitive training in children with acquired brain injuries. NeuroRehabilitation 2007;22(2):109–16.Google Scholar

44.Catroppa, C., Stone, K., Hearps, S. J., Soo, C., Anderson, V., Rosema, S. Evaluation of an attention and memory intervention post-childhood acquired brain injury: Preliminary efficacy, immediate and 6 months post-intervention. Brain Inj 2015;29(11):1317–24.Google Scholar

45.Butler, R. W., Copeland, D. R., Fairclough, D. L., Mulhern, R. K., Katz, E. R., Kazak, A. E., et al. A multicenter, randomized clinical trial of a cognitive remediation program for childhood survivors of a pediatric malignancy. J Consult Clin Psychol 2008;76(3):367–78.Google Scholar

46.Sohlberg, M., Mateer, C. A. Attention Process Training I (APT-I). Wake Forest, NC: Lash & Associates; 1999.Google Scholar

47.McDonald, A., Haslam, C., Yates, P., Gurr, B., Leeder, G., Sayers, A. Google Calendar: a new memory aid to compensate for prospective memory deficits following acquired brain injury. Neuropsychol Rehabil 2011;21(6):784–807.CrossRef Google Scholar

48.Depompei, R., Gillette, Y., Goetz, E., Xenopoulos-Oddsson, A., Bryen, D., Dowds, M. Practical applications for use of PDAs and smartphones with children and adolescents who have traumatic brain injury. NeuroRehabilitation 2008;23(6):487–99.Google Scholar

49.Schmitter-Edgecombe, M., Fahy, J. F., Whelan, J. P., Long, C. J. Memory remediation after severe closed head injury: Notebook training versus supportive therapy. J Consul Clin Psychol 1995;63(3):484–9.Google Scholar

50.Ownsworth, T. L., McFarland, K. Memory remediation in long-term acquired brain injury: Two approaches in diary training. Brain Inj 1999;13(8):605–26.Google Scholar

51.Wilson, B. A., Emslie, H., Evans, J. J., Quirk, K., Watson, P., Fish, J. The NeuroPage system for children and adolescents with neurological deficits. Develop Neurorehabil 2009;12(6):421–6.Google Scholar

52.Wilson, B. A., Evans, J. J., Emslie, H., Malinek, V. Evaluation of NeuroPage: A new memory aid. J Neurol Neurosurg Psychiatr 1997;63(1):113–5.Google Scholar

53.Hart, T., Hawkey, K., Whyte, J. Use of a portable voice organizer to remember therapy goals in traumatic brain injury rehabilitation: A within-subjects trial. J Head Trauma Rehabil 2002;17(6):556–70.Google Scholar

54.Kim, H. J., Burke, D. T., Dowds, M. M., Robinson Boone, K. A., Park, G. J. Electronic memory aids for outpatient brain injury: Follow-up findings. Brain Inj 2000;14(2):187–96.Google Scholar

55.Gillette, Y., Depompei, R. Do PDAs enhance the organization and memory skills of students with cognitive disabilities? Psychol Schools 2008;45(7):665–77.Google Scholar

56.Plackett, R., Thomas, S., Thomas, S. Professionals’ views on the use of smartphone technology to support children and adolescents with memory impairment due to acquired brain injury. Disability Rehabil Assistive Technol 2016:1–8.Google Scholar PubMed

57.Ehlhardt, L. A., Sohlberg, M. M., Kennedy, M., Coelho, C., Ylvisaker, M., Turkstra, L., et al. Evidence-based practice guidelines for instructing individuals with neurogenic memory impairments: What have we learned in the past 20 years? Neuropsychol Rehabil 2008;18(3):300–42.Google Scholar

58.Baddeley, A. Implicit memory and errorless learning: A link between cognitive theory and neuropsychological rehabilitation? In Squire, L. R. and Butters, N., editors. Neuropsychology of Memory. 2nd ed. New York: Guilford Press; 1992.Google Scholar

59.Kessels, R. P. C., Haan, E. H. F. Implicit learning in memory rehabilitation: A meta-analysis on errorless learning and vanishing cues methods. J Clin Exp Neuropsychol 2003;25(6):805–14.Google Scholar

60.Baddeley, A., Wilson, B. A. When implicit learning fails – Amnesia and the problem of error elimination. Neuropsychologia 1994;32(1):53–68.Google Scholar

61.Landis, J., Hanten, G., Levin, H. S., Li, X., Ewing-Cobbs, L., Duron, J., et al. Evaluation of the errorless learning technique in children with traumatic brain injury. Arch Phys Med Rehabil 2006;87(6):799–805.Google Scholar

62.Evans, J. J., Wilson, B. A., Schuri, U., Andrade, J., Baddeley, A., Bruna, O., et al. A comparison of “errorless” and “trial-and-error” learning methods for teaching individuals with acquired memory deficits. Neuropsychol Rehabil 2000;10(1):67–101.CrossRef Google Scholar

63.Haslam, C, Bazen-Peters, C, Wright, I. Errorless learning improves memory performance in children with acquired brain injury: A controlled comparison of standard and self-generation techniques. Neuropsychol Rehabil 2012;22(5):697–715.CrossRef Google Scholar PubMed

64.Haslam, C., Wagner, J., Wegener, S., Malouf, T. Elaborative encoding through self-generation enhances outcomes with errorless learning: Findings from the Skypekids memory study. Neuropsychol Rehabil 2017;27(1):60–79.Google Scholar

65.Boosman, H., Visser-Meily, J. M. A., Winkens, I., van Heugten, C. M. Clinicians’ views on learning in brain injury rehabilitation. Brain Inj 2013;27(6):685–8.CrossRef Google Scholar PubMed

66.Jennings, K. D., Connors, R. E., Stegman, C. E. Does a physical handicap alter the development of mastery motivation during the preschool years? J Am Acad Child Adolesc Psychiatr 1988;27(3):312–7.Google Scholar

67.van den Broek, M. D. Why does neurorehabilitation fail? J Head Trauma Rehab 2005;20(5):464–73.Google Scholar

68.Tatla, S. K., Sauve, K., Jarus, T., Virji-Babul, N., Holsti, L. The effects of motivating interventions on rehabilitation outcomes in children and youth with acquired brain injuries: A systematic review. Brain Inj 2014;28(8):1022–35.Google Scholar

69.McCauley, S. R., Pedroza, C., Chapman, S. B., Cook, L. G., Hotz, G., Vasquez, A. C., et al. Event-based prospective memory performance during subacute recovery following moderate to severe traumatic brain injury in children: Effects of monetary incentives. J Int Neuropsychol Soc 2010;16(2):335–41.Google Scholar

70.McCauley, S. R., Pedroza, C., Chapman, S. B., Cook, L. G., Vásquez, A. C., Levin, H. S. Monetary incentive effects on event-based prospective memory three months after traumatic brain injury in children. J Clin Exp Neuropsychol 2011;33(6):639–46.Google Scholar

71.McCauley, S. R., McDaniel, M. A., Pedroza, C., Chapman, S. B., Levin, H. S. Incentive effects on event-based prospective memory performance in children and adolescents with traumatic brain injury. Neuropsychology 2009;23(2): 201–9.Google Scholar

Book contents

2 - Memory Interventions

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive