Clinical Test of Sensory Interaction on Balance

Last Updated

November 14, 2013

Purpose

The CTSIB provides the clinician with a means to quantify postural control under various sensory conditions.

Link to Instrument

Instrument Details

Acronym CTSIB

Area of Assessment

Balance �C Vestibular
Balance �C Non-vestibular

Assessment Type

Performance Measure

Administration Mode

Paper & Pencil

Cost

Free

Diagnosis/Conditions

Brain Injury Recovery
Multiple Sclerosis
Parkinson's Disease & Movement Disorders
Stroke Recovery
Vestibular Disorders

Non-Specific Patient Population

Older Adults and Geriatric Care

Stroke

Vestibular Disorders

The CTSIB was developed as a clinical version of the Sensory Organization Test and was developed to assess sensory contributions to postural control and involves the observing a patient's attempt to maintain balance.
Patients stand with their hands at their sides, feet together and perform the following 6 sensory conditions:
1) Stand on firm surface, eyes open
2) Stand on firm surface, eyes closed
3) Stand on firm surface, visual conflict dome
4) Stand on foam surface, eyes open
5) Stand on foam surface, eyes closed
6) Stand on foam surface, visual conflict dome
Patient performance is timed for 30 seconds. The test is terminated when a subject's arms or feet change position. If a patient is unable to maintain the position for 30 seconds they are provided with 2 additional attempts. The scores of the 3 trials are averaged (Shumway-Cook & Horak, 1986).
Conditions and Dysfunctions:
1) Patients dependent on vision become unstable in conditions 2,3, 5 & 6 with either eyes closed or a conflict between vision and the vestibular system
2) Patients dependent on surface/somatosensory inputs become unstable in conditions 4,5 & 6 because they stand on a soft surface (foam)
3) Patients with vestibular loss become unstable in conditions 5 &6 because they can��t rely on vision or surface / somatosensory function
4) Patients with sensory selection problems become unstable in conditions 3-6
If one or both knees flex condition 1 is a baseline, and changes in sway direction and amount are noted in conditions 2-6 (if unable to maintain 30 seconds on 1st trial, given 2nd trial, and 3rd if needed), then trials are averaged.
Conditions 1 thru 4:
-Record the time (in seconds) the patient was able to maintain the starting position (maximum of 30 seconds)
Equilibrium Score: quantifies the center of gravity (COG) sway or postural stability under each of the three trials of each of six sensory conditions (higher scores indicative of better balance).
Composite equilibrium scores and the weighted averages of the scores are computed for each of six conditions.
Ratios are also computed to identify impairments of individual sensory systems.
Center of Gravity (COG) Alignment computed for individual��s COG position relative to center of base of support at the start of the trial.
A pediatric version has been developed.

Number of Items

Stopwatch
40.64 x 40.64 x 7.62cm piece of medium density viscoelastic (Temper) foam, visual conflict dome: a modified 16�� Japanese lantern with horizontal ribs, holes are cut for the patient��s neck and head leaving about 270�� circumference (for instructions see Shu

20 minutes

9 MINUTES FOR TESTING ALL CONDITIONS (6 CONDITIONS * 3 TRIALS * 30 SECONDS), WITH ADDITIONAL TIME FOR SETUP AND EXPLANATION; 3 TRIALS OF FULL TEST IN 20 MIN (COHEN, BLATCHLY ET AL, 1993)

Required Training

Reading an Article/Manual

Child

6 - 12

years

Adolescent

13 - 17

years

Adult

18 - 64

years

Elderly Adult

65 +

years

Instrument Reviewers

Diane Wrisley, PT, PhD, NCS and Elizabeth Dannenbaum, MScPT for the Vestibular EDGEtask force of the Neurology section of the APTA.

ICF Domain

Body Function
Activity

Measurement Domain

Motor
Sensory

Professional Association Recommendation

Measure: Clinical Test of Sensory Interaction in Balance

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 months post)

Subacute

(CVA 2 to 6 months)

(SCI 3 to 6 months)

Chronic

(> 6 months)

Vestibular EDGE

Recommendations based on level of care in which the assessment is taken:

Acute Care

Inpatient Rehabilitation

Skilled Nursing Facility

Outpatient

Rehabilitation

Home Health

MS EDGE

TBI EDGE

Recommendations for use based on ambulatory status after brain injury:

	Completely Independent	Mildly dependant	Moderately Dependant	Severely Dependant
TBI EDGE	LS	LS	LS	NR

Recommendations based on EDSS Classification:

	EDSS 0.0 �C 3.5	EDSS 4.0 �C 5.5	EDSS 6.0 �C 7.5	EDSS 8.0 �C 9.5
MS EDGE	UR	UR	UR	NR

Recommendations based on vestibular diagnosis

	Peripheral	Central	Benign Paroxysmal Positional Vertigo (BPPV)	Other
Vestibular EDGE	LS	LS	LS	LS

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)
MS EDGE	No	No	No	Yes
TBI EDGE	Yes	Yes	No	Not reported
Vestibular EDGE	Yes	Yes	Yes	Yes

Considerations

CTSIB was developed to evaluate the relative contributions of sensory systems involved in the maintenance of balance, not to evaluate change over time.
For test batteries, Bernhardt et al, 1998 recommend one component of the CTSIB
- The Repetitive Reach (RR, step stance)
- Step Test (ST) and
- Gait velocity assessments
The CTSIB initially required participants to remove their shoes prior to administration. However, research suggests that CTSIB scores with low-heeled shoes are not significantly different from no-shoe administrations (Whitney & Wrisley, 2004).
Some research evaluates performance on the scale in terms of sway (e.g., degrees/second) instead of the time the subject maintains the starting position.
The modified Clinical Test of Sensory Interaction on Balance is more commonly used currently.

Do you see an error or have a suggestion for this instrument summary? Please e-mail us!

Cut-Off Scores

Community-Dwelling Elderly:

(Di Fabio and Anacker, 1996; n = 47 adults with falls n = 16 vs. no falls n = 31; mean age = 80.5(9.0); fall group had > 2 falls in past 6 months, Community-Dwelling Elderly)

A composite score < 260 seconds (summing all 3, 30sec trials for each of 6 conditions) has specificity of 90% and sensitivity of 44% for identifying fallers
If average score below 81s in compliant surface conditions, relative risk of falling is 8.67 (age adjusted odds ratio)

Normative Data

Elderly Adults

(Ricci et al, 2009; n = 96 independent elderly; mean age = 74.81 (7.25), 75.19 (7.32) and 74.47 (6.39) years for groups 1 (no falls),2 (one fall), and 3 (recurrent falls), respectively, Elderly Adults)

Mean Scores for Elderly Adults Depending on Individual Fall History:
CTSIB Domain	Groups	Time (s)	anova p-value
Firm; eyes open	Group 1 (no falls)	30 (0)	0.5
	Group 2 (one fall)	29.9 (0.56)	0.5
	Group 3 (recurrent falls)	29.7 (1.68)	0.5
Firm; eyes closed	Group 1 (no falls)	29.74 (1.05)	0.079
	Group 2 (one fall)	29.57 (2.38)	0.079
	Group 3 (recurrent falls)	27.93 (5.44)	0.079
Firm; dome	Group 1 (no falls)	29.21 (4.36)	0.177
	Group 2 (one fall)	28.76 (5)	0.177
	Group 3 (recurrent falls)	26.53 (8.25)	0.177
Foam; eyes open	Group 1 (no falls)	30 (0)	0.043
	Group 2 (one fall)	29.27 (4.08)	0.043
	Group 3 (recurrent falls)	26.85 (4.95)	0.043
Foam; eyes closed	Group 1 (no falls)	26.22 (8.38)	0.042
	Group 2 (one fall)	25.96 (7.45)	0.042
	Group 3 (recurrent falls)	20.97 (11.38)	0.042
Foam; dome	Group 1 (no falls)	26.86 (7.65)	0.052
	Group 2 (one fall)	25.15 (8.86)	0.052
	Group 3 (recurrent falls)	21.09 (11.8)	0.052

Test/Retest Reliability

Community dwelling adults:

(Anacker and Di Fabio, 1992; n = 47 adults with falls n = 16 vs no falls n = 31; mean age = 80.5 (9.0); fall group had > 2 falls in past 6 months, Community Dwelling Elderly)

Excellent test-retest reliability (r = 0.75)

Criterion Validity (Predictive/Concurrent)

Community-Dwelling Elderly:

(Di Fabio and Anacker, 1996, Community-Dwelling Elderly)

Cross validation analyses predicted 75% fallers and 60% of non-fallers

Construct Validity

Older adult fallers:

Ricci et al 2009 found significant differences between older adults who fell 2 or more times in the past year, 1 time in the past year and did not fall in the past year on conditions 4-6 of the CTSIB p < 0.05

Community-Dwelling Elderly:

(Di Fabio and Anacker, 1996, Community-Dwelling Elderly)

Discriminant functions classified 63% of fallers and 77% of non-fallers

Normative Data

(Bernhardt et al, 1998; n = 29; mean age = 71.8 (10.5) years; < 4 weeks post onset, Acute Stroke)

CTSIB domain	Week 4: mean (SD)	Week 8: mean (SD)
Firm; eyes open	25.2 (10.7)	28.5 (6.1)
Firm; eyes closed	24.0 (11.3)	28.1 (6.4)
Firm; dome	23.2 (11.9)	26.7 (8.8)
Foam; eyes open	23.5 (11.9)	27.0 (7.7)
Foam; eyes closed	19.8 (13.3)	24.3 (10.7)
Foam; dome	18.5 (13.6)	23.2 (11.9)

Interrater/Intrarater Reliability

Hemiplegia:

(DiFabio & Badke, 1990; tested on subset of subjects: n = 5, mean age = 58 (12) years, hemiparesis, Chronic Stroke)

Excellent interrater reliability: kappa = 0.77 (tested on a different sample of individuals with hemiparesis

Construct Validity

Stroke:

Significant positive correlations were found by DiFabio and Badke, 1990 between the CTSIB and Fugl-Meyer Sensorimotor Assessment (FMSA) sensory subscore (r = 0.55), the FMSA balance subscores (r = 0.77), and the FMSA lower extremity recovery score (r = 0.69) in 10 subjects post stroke.

Anacker and DiFabio, 1992, found a significant group by surface interaction (p = 0.048) when comparing CTSIB scores between 16 older adults with a history of falling and 31 older adults without a history of falling. Older adults with a history of falling demonstrated a reduction in stance duration on a compliant surface compared to non-fallers.

Floor/Ceiling Effects

Stroke:

(Bernhardt et al, 1998, Acute Stroke)

Floor effects at 4 weeks & ceiling effects at 8 weeks:

CTSIB domain	Week 4: mean (SD)	% Floor	Week 8: mean (SD)	%Ceiling
Firm; eyes open	25.2 (10.7)	10	28.5 (6.1)	93
Firm; eyes closed	4.0 (11.3)	14	28.1 (6.4)	90
Firm; dome	23.2 (11.9)	17	26.7 (8.8)	86
Foam; eyes open	23.5 (11.9)	14	27.0 (7.7)	83
Foam; eyes closed	19.8 (13.3)	21	24.3 (10.7)	72
Foam; dome	18.5 (13.6)	24	23.2 (11.9)	72

Responsiveness

Stroke:

(Bernhardt et al, 1998, Acute Stroke)

Standard Responsiveness Measures (SRM)

CTSIB domain	SRM
Firm; eyes open	0.38
Firm; eyes closed	0.48
Firm; dome	0.45
Foam; eyes open	0.34
Foam; eyes closed	0.46
Foam; dome	0.44

Normative Data

(Cohen et al, 1993, n = 17, mean age 59.8 (18.9), Vestibular Impairment):

Condition 1: 30 seconds
Condition 2: 30 seconds
Condition 3: 30 seconds
Condition 4: 25.7 (8.8), 27.6 (7.3), 26.6 (8.4) seconds across trials
Condition 5: 11.4 (12.6), 14.0 (13.0), 16.1 (13.3) seconds across trials
Condition 6: 8.0 (11.1), 12.9 (13.5), 12.5 (13.7) seconds across trials

Criterion Validity (Predictive/Concurrent)

Vestibular Disorders:

El-Kashlan et al (1998) compared scores on CTSIB with scores on the Sensory Organization Test (SOT) in adults with vestibular disorders. They found significant correlations between total scores on both tests r-values ranged from 0.41 to 0.89 depending on the time period during rehabilitation the tests were performed. When the SOT is used as the gold standard, the CTSIB demonstrates a Cohen��s k (measure of agreement) of 0.80; specificity of 87% and sensitivity of 60%, positive predictive value was 89% and negative predictive value was 55%. When comparing response patterns elicited by the SOT and CTSIB in 21 patients who demonstrated abnormalities in both tests, the CTSIB was significantly less sensitive in identifying more subtle patterns of balance dysfunction (p < 0.05)

Construct Validity

Vestibular Disorders:

(Cohen et al, 1993, n = 17, mean age 59.8 (18.9), Vestibular Impairment):

People with vestibular disorders scored significantly lower than 45 healthy adults aged 25-84 years on conditions 5,and 6. Subjects with vestibular disorders had greater variability than the healthy adults.

Normative Data

Healthy Adults:

Normative data for the CTSIB were determined by El-Kashlan et al, 1998, using 69 healthy adults aged 20-79 years. Normative scores are listed below, maximum score is 180, 30 seconds for each condition. Scores of < 180 are recommended for ages 20-49 even though the 5% is 176.5.

	Age 20-49	Age 50-59	Age 60-69	Age 70-79
Mean	179.7	180	179.9	177.4
SD	1.6	0	0.5	8.7
5%	176.5 (180)	180	178	151.3

Cohen et al, 1993; pilot study with n = 22 healthy adults; mean age = 21.3 (0.85); experiment compares neurologically asymptomatic adults to adults diagnosed with vestibular disorders, Healthy Adults)

Mean Balance Scores
Age	Time	Conditions
25-44 yrs	30 secs	4,5 & 6
45-64 yrs	30 secs	4 & 5
45-64 yrs	28-30 secs	6
65-84 yrs	26-28 secs	4
65-84 yrs	13-19 secs	5
65-84 yrs	14-24secs	6

Test/Retest Reliability

Healthy young adults:

Test-retest reliability was reported as high by Cohen et al, 1993 based on their pilot study (r = 0.99). Healthy young adults were tested twice by the same investigator.

Interrater/Intrarater Reliability

Healthy Young Adults:

(Cohen et at, 1993, Healthy Young Adults)

Excellent interrater reliability (r = 0.99)

Criterion Validity (Predictive/Concurrent)

Healthy Young Adults:

(Cohen et al, 1993, Healthy Young Adults)

CTSIB scores for healthy adults compared to those with vestibular impairments were found to be significantly different

Bibliography

Anacker, S. L. and Di Fabio, R. P. (1992). "Influence of sensory inputs on standing balance in community-dwelling elders with a recent history of falling." Phys Ther 72(8): 575-581; discussion 581-574.

Bernhardt, J., Ellis, P., et al. (1998). "Changes in balance and locomotion measures during rehabilitation following stroke." Physiother Res Int 3(2): 109-122.

Cohen, H., Blatchly, C. A., et al. (1993). "A study of the clinical test of sensory interaction and balance." Phys Ther 73(6): 346-351; discussion 351-344.

Di Fabio, R. P. and Badke, M. B. (1990). "Relationship of sensory organization to balance function in patients with hemiplegia." Phys Ther 70(9): 542-548.

El-Kashlan, H. K., Shepard, N. T., et al. (1998). "Evaluation of clinical measures of equilibrium." Laryngoscope 108(3): 311-319.

Horak, F. B. (1987). "Clinical measurement of postural control in adults." Physical Therapy 67(12): 1881-1885.

Ricci, N. A., de Faria Figueiredo Goncalves, D., et al. (2009). "Sensory interaction on static balance: a comparison concerning the history of falls of community-dwelling elderly." Geriatr Gerontol Int 9(2): 165-171.

Shumway-Cook, A. and Horak, F. B. (1986). "Assessing the influence of sensory integration on balance. Suggestions from the field." Physical Therapy 66: 1548-1549.

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Last Updated

Purpose

Link to Instrument

Area of Assessment

Assessment Type

Administration Mode

Cost

Diagnosis/Conditions

Number of Items

Required Training

Instrument Reviewers

ICF Domain

Measurement Domain

Professional Association Recommendation

Considerations

Cut-Off Scores

Normative Data

Test/Retest Reliability

Criterion Validity (Predictive/Concurrent)

Construct Validity

Normative Data

Interrater/Intrarater Reliability

Construct Validity

Floor/Ceiling Effects

Responsiveness

Normative Data

Criterion Validity (Predictive/Concurrent)

Construct Validity

Normative Data

Test/Retest Reliability

Interrater/Intrarater Reliability

Criterion Validity (Predictive/Concurrent)

Bibliography

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