The AES addresses characteristics of goal directed behavior that reflects apathy including behavioral, cognitive, and emotional indicators.
18
10-20 minutes
Initially reviewed by Karen McCulloch, PT, PhD, NCS and the TBI EDGE task force of the Neurology Section of the APTA in 6/2012.
Recommendations for use of the instrument from the Neurology Section of the American Physical Therapy Association’s Multiple Sclerosis Taskforce (MSEDGE), Parkinson’s Taskforce (PD EDGE), Spinal Cord Injury Taskforce (PD EDGE), Stroke Taskforce (StrokEDGE), Traumatic Brain Injury Taskforce (TBI EDGE), and Vestibular Taskforce (Vestibular EDGE) are listed below. These recommendations were developed by a panel of research and clinical experts using a modified Delphi process.
For detailed information about how recommendations were made, please visit:
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Abbreviations: |
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HR |
Highly Recommend |
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R |
Recommend |
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LS / UR |
Reasonable to use, but limited study in target group / Unable to Recommend |
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NR |
Not Recommended |
Recommendations based on level of care in which the assessment is taken:
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Acute Care |
Inpatient Rehabilitation |
Skilled Nursing Facility |
Outpatient Rehabilitation |
Home Health |
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TBI EDGE |
NR |
LS |
LS |
R |
LS |
Recommendations for use based on ambulatory status after brain injury:
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Completely Independent |
Mildly dependant |
Moderately Dependant |
Severely Dependant |
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TBI EDGE |
N/A |
N/A |
N/A |
N/A |
Recommendations for entry-level physical therapy education and use in research:
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Students should learn to administer this tool? (Y/N) |
Students should be exposed to tool? (Y/N) |
Appropriate for use in intervention research studies? (Y/N) |
Is additional research warranted for this tool (Y/N) |
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TBI EDGE |
No |
No |
Yes |
Not reported |
Some items on the AES-I and AES-C involve judging philosophical intention (e.g. “S/he approaches life with intensity”, which may be difficult to judge as an observer. The self-rated version of the AES may be problematic if there are issues with insight into deficits as can occur with TBI.
Translated AES:
Spanish (slide 62-63):
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Acquired brain injury: (Andersson et al, 1999a; n=72; mean age = 30.1 (ages 16-60 years old); mean time post injury = 12.6 months ; TBI, CVA and hypoxic brain damage)
Traumatic brain injury: Andersson et al, 1999b (n=30; mean age = 30.1( ages 16-64); mean time post injury = 10.5 months; inpatient TBI)
Glenn et al, 2002 (n=46; mean age 43.1(14.9) years; mean time since injury 43.0 months; initial injury severity 52% mild, 18% moderate, 30% severe)
(Lane-Brown & Tate, 2009; n=34, mean age=34.4(9.4); mean time post injury= 80.6 months; mean duration of PTA 53.2 (33.5) days)
Traumatic brain injury: (Glenn et al, 2002)
(Kant et al, 1998; n=83; mean age 38 (12.3) years; TBI referrals to neuropsychiatric outpatient clinic)
Acquired brain injury: (Andersson, 1999a)
TBI: (Andersson 1999b)
(Andersson & Bergedalen, 2002; n= 53; mean age = 28.3 years (2.38); mean time post injury= 12.2 months (10.6))
(Lane-Brown, 2009)
Acquired BI: (Andersson et al, 1999a)
TBI: (Andersson et al, 1999b)
(Andersson and Bergedalen, 2002)
(Lane-Brown, 2009)
Possible items for inclusion, described as hundreds, were gleaned from literature review and reduced via expert review based on items that were most clear and demonstrated item to total score correlations of >.4 in pilot testing. (Marin et al, 1991)
Face validity supported by expert review during development.
Young adult controls: (Kant et al, 1998; n=108, age range 20-65 years, 94.5% in 20-49 age range, 49% male) Mean AES-S was 24.4 (4.5), therefore cutoff score of >34 indicating apathy (2 SD above mean)
Young adult controls: (Kant et al, 1998)
Mixed sample: (Marin 1991; n=123; aged 53-85, mixed sample of stroke, AD, depression, community dwelling well older adults)
Mixed sample: (Marin et al, 1991)
Predictive validity:
Mixed sample: (Marin et al, 1991)
Mixed sample: (Marin et al, 1991)
Possible items for inclusion, described as hundreds, were gleaned from literature review and reduced via expert review based on items that were most clear and demonstrated item to total score correlations of >.4 in pilot testing. (Marin et al, 1991)
Face validity supported by expert review during development.
Andersson, A. F. S. (2000). "Coping strategies in patients with acquired brain injury: relationships between coping, apathy, depression and lesion location." Brain Injury 14(10): 887-905.
Andersson, S. and Bergedalen, A. M. (2002). "Cognitive correlates of apathy in traumatic brain injury." Neuropsychiatry, Neuropsychology, and Behavioral Neurology 15(3): 184-191.
Andersson, S., Gundersen, P. M., et al. (1999). "Emotional activation during therapeutic interaction in traumatic brain injury: effect of apathy, self-awareness and implications for rehabilitation." Brain Injury 13(6): 393-404.
Andersson, S., Krogstad, J. M., et al. (1999). "Apathy and depressed mood in acquired brain damage: relationship to lesion localization and psychophysiological reactivity." Psychological Medicine 29(2): 447-456.
Clarke, D. E., Van Reekum, R., et al. (2007). "An appraisal of the psychometric properties of the Clinician version of the Apathy Evaluation Scale (AES-C)." Int J Methods Psychiatr Res 16(2): 97-110.
Glenn, M. (2005). "The Apathy Evaluation Scale." The Center for Outcome Measurement In Brain Injury.
Glenn, M. B., Burke, D. T., et al. (2002). "Cutoff score on the apathy evaluation scale in subjects with traumatic brain injury." Brain Injury 16(6): 509-516.
Kant, R., Duffy, J. D., et al. (1998). "Prevalence of apathy following head injury." Brain Injury 12(1): 87-92.
Lane-Brown, A. T. and Tate, R. L. (2009). "Measuring apathy after traumatic brain injury: Psychometric properties of the Apathy Evaluation Scale and the Frontal Systems Behavior Scale." Brain Injury 23(13-14): 999-1007.
Marin, R. S., Biedrzycki, R. C., et al. (1991). "Reliability and validity of the Apathy Evaluation Scale." Psychiatry 嫩B研究院 38(2): 143-162.
We have reviewed more than 500 instruments for use with a number of diagnoses including stroke, spinal cord injury and traumatic brain injury among several others.