The ASIA impairment scale (AIS) classifies motor and sensory impairment that results from a Spinal Cord Injury (SCI).
Varies
10-60 minutes
Child
6 - 12
yearsAdolescent
13 - 17
yearsAdult
18 - 64
yearsElderly Adult
65 +
yearsInitially reviewed by the Rehabilitation Measures Team; Updated by Cara Weisbach PT, DPT, Wendy Romney PT, DPT, NCS, and the SCI EDGE task force of the Neurology section of the APTA in 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:
|
Abbreviations: |
|
|
HR |
Highly Recommend |
|
R |
Recommend |
|
LS / UR |
Reasonable to use, but limited study in target group / Unable to Recommend |
|
NR |
Not Recommended |
Recommendations for use based on acuity level of the patient:
|
|
Acute (CVA < 2 months post) (SCI < 1 month post) (Vestibular < 6 weeks post) |
Subacute (CVA 2 to 6 months) (SCI 3 to 6 months) |
Chronic (> 6 months) |
|
SCI EDGE |
HR |
HR |
HR |
Recommendations based on SCI AIS Classification:
|
|
AIS A/B |
AIS C/D |
|
SCI EDGE |
HR |
HR |
Recommendations for entry-level physical therapy education and use in research:
|
|
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) |
|
SCI EDGE |
Yes |
Yes |
Yes |
Not reported |
Use of the AIS motor scale in a 2-dimensional model (separate UEMS and LEMS) increases the predictive power of the AIS motor scale.
Do you see an error or have a suggestion for this instrument summary? Please e-mail us!
Acute and Chronic SCI: (Marino 2008, n=16)
Chronic SCI: (Clifton 1996, n=160, based on surgical or non-surgical group)
AcuteTetraplegia : (Cifu et al, 1999; n = 375; sample analyzed into three age groups, 18 to 34, 35 to 64, & 65+ years, )
|
Outcome Measures for Each Injury Group: |
|
|
|
|
|
|
AIS Motor Admission |
AIS Motor Discharge |
FIM Motor Admission |
FIM Motor Discharge |
|
AIS A, B C2-C4 |
4.85 |
16.90 |
13.20 |
23.50 |
|
AIS A,B; C5-C8 |
14.62 |
24.33 |
16.53 |
33.58 |
|
AIS C; C2-C4 |
25.08 |
57.21 |
15.55 |
48.58 |
|
AIS C; C5-C8 |
34.31 |
59.93 |
20.89 |
57.75 |
|
AIS D; C2-C4 |
63.12 |
78.07 |
33.63 |
73.62 |
|
AIS D; C5-C8 |
65.32 |
78.63 |
35.53 |
72.43 |
|
ANOVA |
|
|
|
|
|
f |
125.61 |
70.37 |
30.87 |
67.42 |
|
p |
.000 |
.000 |
.000 |
.000 |
|
Admission &Discharge Scores by Age Catagory: |
|
|
|
|
|
Admission |
18-34yrs |
35-64yrs |
65+yrs |
p |
|
AIS Motor |
38.61 |
39.02 |
43.15 |
.239 |
|
FIM Motor |
25.01 |
25.80 |
22.82 |
.201 |
|
FIM Cognitive |
31.02 |
29.54 |
27.65 |
.001 |
|
Discharge |
18-34yrs |
35-64yrs |
65+yrs |
p |
|
AIS Motor |
57.67 |
57.52 |
56.56 |
.914 |
|
FIM Motor |
62.38 |
56.37 |
49.74 |
.000 |
|
FIM Cognitive |
33.86 |
32.54 |
29.86 |
.000 |
*showed greater differences in FIM scores from Admission to Discharge in younger>middle>older age groups
Acute and Chronic SCI: (Curt & Dietz; 1997; n = 70 acute and 34 chronic SCI patients)
|
AIS Scores by Age and Diagnosis: () = ± |
|
|
|
|
|
|
|
|
Tetraplegia |
|
|
Paraple gia |
|
|
|
|
Initial |
6 months |
% Change |
Initial |
6 months |
% Change |
|
N |
31 |
31 |
|
39 |
39 |
|
|
Mean age |
42.6 (22.3) |
|
|
40.3 (17) |
|
|
|
Male/Female |
27/4 |
|
|
30/9 |
|
|
|
Complete / incomplete |
12/19 |
11/20 |
8.3 |
17/22 |
14/25 |
17.6 |
|
AIS Motor |
38.2 (30) |
56.7 (31.7) |
32.7* |
60.2 (13.5) |
68 (17.3) |
11.5* |
|
AIS light touch |
65.2 (35) |
70.6 (35.6) |
7.7 |
86.1 (16.3) |
88.7 (16.5) |
2.9 |
|
AIS pin prick |
54.5 (36.9) |
63.2 (38.1) |
13.7 |
82 (18) |
86.5 (18.5) |
5.2 |
Chronic SCI : (Clifton et al, 1996; n = 19, intervention involved surgical intervention, at least 2 months apart)
Acute to Chronic SCI: (Savic et al. 2007; n=45, 3 months – 45 years post injury)
Interrater Reliability:
Chronic SCI : (Marino et al. 2008; n = 16, Tetraplegia n=10, (complete = 5; incomplete = 5) and paraplegia n=6, (complete = 5, incomplete = 1) rated by 16 raters (8 physicians and 8 physical therapists)
|
|
All |
Complete |
Incomplete |
|
AIS light touch |
0.96? |
0.99? |
0.86? |
|
AIS pin-prick |
0.89? |
0.99? |
0.69? |
|
AIS total motor |
0.98? |
1.00? |
0.95? |
|
UEMS (tetra) |
0.96? |
n/a |
n/a |
|
LEMS |
n/a |
n/a |
0.98? |
|
a- Excellent reliability(ICC ≥0.75) b- Adequate reliability(ICC 0.4<0.74) |
|
|
|
Intra-rater Reliability:
Acute and Chronic SCI: (Curt et al, 1998, n=36 acute, n= 34 chronic)
Tetraplegia : (Cifu et al, 1999)
Acute & Chronic SCI : (Marino et al, 2004, n=4338, at discharge from inpatient rehabilitation from Model SCI centers ) –
Acute SCI : (van Hedel et al. 2009; n = 886 European participants; assessed at 2 weeks, 1, 3, 6 and 12 months post SCI; p<0.001)
|
|
|
AIS C |
|
|
AIS D |
|
|
|
When assessed, mo |
Test |
Indoor Mobility |
Moderate Distance |
Outdoor Mobility |
Indoor Mobility |
Moderate Distance |
Outdoor Mobility |
|
< 1 |
10MWT |
-- |
-- |
-- |
0.68 |
0.60 |
0.41 |
|
|
WISCI II |
-- |
-- |
-- |
0.74 |
0.65 |
0.42 |
|
1 |
10MWT |
0.39 |
0.38 |
0.37 |
0.82a |
0.82 a |
0.69 |
|
|
WISCI II |
0.44 |
0.44 |
0.49 |
0.82 a |
0.80 a |
0.68 |
|
3 |
10MWT |
0.66 |
0.66 |
0.53 |
0.79 a |
0.83 a |
0.82 a |
|
|
WISCI II |
0.66 |
0.65 |
0.51 |
0.85 a |
0.81 a |
0.79 a |
|
6 |
10MWT |
0.84a |
0.81a |
0.69 |
0.58 |
0.69 |
0.72 |
|
|
WISCI II |
0.75a |
0.73 |
0.62 |
0.74 |
0.75 a |
0.72 |
|
12 |
10MWT |
0.90a |
0.89 a |
0.84 a |
0.47 |
0.62 |
0.67 |
|
|
WISCI II |
0.91a |
0.89 |
0.81 a |
0.75 a |
0.80 a |
0.76 a |
10MWT = 10-m walking test
WISCI II = Walking Index for Spinal Cord Injury.
a = Excellent Correlations ≥ 0.75
SCI: (Graves et al, 2006; n=6,116 from National Spinal Cord Injury Statistical Center Database)
Not statistically assessed
Cifu, D. X., Seel, R. T., et al. (1999). "A multicenter investigation of age-related differences in lengths of stay, hospitalization charges, and outcomes for a matched tetraplegia sample." Archives of physical medicine and rehabilitation 80(7): 733-740.
Clifton, G. L., Donovan, W. H., et al. (1996). "Omental transposition in chronic spinal cord injury." Spinal Cord 34(8963963): 193-203.
Curt, A. and Dietz, V. (1997). "Ambulatory capacity in spinal cord injury: significance of somatosensory evoked potentials and ASIA protocol in predicting outcome." Arch Phys Med Rehabil 78(9014955): 39-43.
Furlan, J. C., Fehlings, M. G., et al. (2008). "Motor and sensory assessment of patients in clinical trials for pharmacological therapy of acute spinal cord injury: psychometric properties of the ASIA Standards." J Neurotrauma 25(11): 1273-1301.
Graves, D. E., Frankiewicz, R. G., et al. (2006). "Construct validity and dimensional structure of the ASIA motor scale." J Spinal Cord Med 29(1): 39-45.
Marino, R. J. and Graves, D. E. (2004). "Metric properties of the ASIA motor score: subscales improve correlation with functional activities." Arch Phys Med Rehabil 85(15520975): 1804-1810.
Marino, R. J., Jones, L., et al. (2008). "Reliability and repeatability of the motor and sensory examination of the international standards for neurological classification of spinal cord injury." J Spinal Cord Med 31(2): 166-170.
Savic, G., Bergstrom, E. M., et al. (2007). "Inter-rater reliability of motor and sensory examinations performed according to American Spinal Injury Association standards." Spinal Cord 45(6): 444-451.
van Hedel, H. J. and Dietz, V. (2009). "Walking during daily life can be validly and responsively assessed in subjects with a spinal cord injury." Neurorehabil Neural Repair 23(2): 117-124.
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.