Modified Clinical Test for Sensory Interaction on Balance: Difference between revisions
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<div class="editorbox"> '''Original Editor '''- [[User:Memoona Awan| | <div class="editorbox"> '''Original Editor '''- [[User:Memoona Awan|Memoona Awan]] '''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div> | ||
== Purpose | ==Purpose== | ||
Physiotherapists ShumwayCook and Horak, invented this test in 1986 to devise fall risk assessments for older adults and 10 rehabilitation guidelines for balance deficits and lower extremity injuries. The test has changed over the years to include four conditions. It tests the static stability and dynamic stability utilizing foam pads<ref name=":0">Hathiram, Bachi. [https://www.researchgate.net/publication/299392395_The_Clinical_Test_for_the_Sensory_Interaction_of_Balance The Clinical Test for the Sensory Interaction of Balance.] Otorhinolaryngology Clinics. 2012 Apr;4:41– 45.</ref>. | |||
It is used for balance analysis and to determine the dependence of the individual on all sensory systems ( vision, vestibular and somatosensory ) which maintain balance.<ref>[https://www.worldscientific.com/doi/epdf/10.1142/S1013702520500134 The e®ect of the type of foam pad used in the modi ̄edClinical Test of Sensory Interaction and Balance (mCTSIB)on the accuracy in identifying older adults with fall history.] Hong Kong Physiotherapy Journal. 2020;40(2):133–143.</ref> It can also be used as balance training/ rehabilitation as it provides multiple conditions which challenge the sensory feedback system needed to maintain balance<ref name=":1">Ashley Carroll , Emily Brocht , Emily Walter , H. Scott Kieffer , Paula Johnson. [https://digitalcommons.wku.edu/cgi/viewcontent.cgi?article=3512&context=ijesab Test-Retest Reliability and Learning Effect of the Modified CTSIB Balance Protocol in a Geriatric Population.] International Journal of Exercise Science. 2017 Nov;6(9).</ref>. Studies suggest that a decrease in sway can be achieved with a 1-week training program<ref name=":1" />. | It is used for balance analysis and to determine the dependence of the individual on all sensory systems ( vision, vestibular and somatosensory ) which maintain balance.<ref>[https://www.worldscientific.com/doi/epdf/10.1142/S1013702520500134 The e®ect of the type of foam pad used in the modi ̄edClinical Test of Sensory Interaction and Balance (mCTSIB)on the accuracy in identifying older adults with fall history.] Hong Kong Physiotherapy Journal. 2020;40(2):133–143.</ref> It can also be used as balance training/ rehabilitation as it provides multiple conditions which challenge the sensory feedback system needed to maintain balance<ref name=":1">Ashley Carroll , Emily Brocht , Emily Walter , H. Scott Kieffer , Paula Johnson. [https://digitalcommons.wku.edu/cgi/viewcontent.cgi?article=3512&context=ijesab Test-Retest Reliability and Learning Effect of the Modified CTSIB Balance Protocol in a Geriatric Population.] International Journal of Exercise Science. 2017 Nov;6(9).</ref>. Studies suggest that a decrease in sway can be achieved with a 1-week training program<ref name=":1" />. | ||
===== Population ===== | =====Population===== | ||
Older adults, Vestibular disorders, Stroke, Pediatric disorder, Alzheimer's and Progressive dementia. | Older adults, Vestibular disorders, Stroke, Pediatric disorder, Alzheimer's and Progressive dementia. | ||
== Technique | ==Technique== | ||
{| class="wikitable" | {| class="wikitable" | ||
|+ | |+'''M-CTSIB''' | ||
! colspan="2" | | ! colspan="2" |'''On Floor''' | ||
! colspan="2" | | ! colspan="2" |'''Complain surface ( Foam )''' | ||
|- | |- | ||
!'''Condition 1''' | !'''Condition 1''' | ||
| Line 22: | Line 22: | ||
|- | |- | ||
|Feet together on the floor, Arms across the chest. | |Feet together on the floor, Arms across the chest. | ||
|Feet together on the floor, Arms across the chest. | |Feet together on the floor, Arms across the chest. | ||
|Feet together on the foam, Arms across the chest. | |Feet together on the foam, Arms across the chest. | ||
|Feet together on the foam, Arms across the chest. | |Feet together on the foam, Arms across the chest. | ||
|- | |- | ||
|30-second hold | |30-second hold | ||
| 30-second hold | |30-second hold | ||
| 30-second hold | |30-second hold | ||
| 30-second hold | |30-second hold | ||
|- | |- | ||
|Open eyes | |Open eyes | ||
| Line 37: | Line 37: | ||
|} | |} | ||
===== Interpretation ===== | =====Interpretation===== | ||
* Equipment: Stopwatch | *Equipment: Stopwatch | ||
* Each condition is tested 3 times and a value of 1 to 4 to characterize the sway. 1= minimal, 2-sway, 4 = a fall<ref name=":0" />. | *Each condition is tested 3 times and a value of 1 to 4 to characterize the sway. 1= minimal, 2-sway, 4 = a fall<ref name=":0" />. | ||
* The timer stops when the patient opens their eyes, moves their arms, or loses balance<ref name=":3">Pritt RJP Patrick J Loughlin. [https://journals.physiology.org/doi/full/10.1152/jn.00516.2003 Dynamic Regulation of Sensorimotor Integration in Human Postural Control.] Journal of Neurophysiology. 2004 Jan;91(1):410–423.</ref><ref name=":4">Pritt Brent. [https://scienceoffalling.com/articles/modified-clinical-test-of-sensory-interaction-in-balance#:~:text=CTSIB%2DM%20Overview&text=Each%20condition%20is%20timed%20for,more%20trials%20of%20that%20condition. Modified Clinical Test of Sensory Interaction in Balance (CTSIB-M)] [Internet]. Science of Falling. 2010 [cited 2023 Nov 28]. </ref>. | *The timer stops when the patient opens their eyes, moves their arms, or loses balance<ref name=":3">Pritt RJP Patrick J Loughlin. [https://journals.physiology.org/doi/full/10.1152/jn.00516.2003 Dynamic Regulation of Sensorimotor Integration in Human Postural Control.] Journal of Neurophysiology. 2004 Jan;91(1):410–423.</ref><ref name=":4">Pritt Brent. [https://scienceoffalling.com/articles/modified-clinical-test-of-sensory-interaction-in-balance#:~:text=CTSIB%2DM%20Overview&text=Each%20condition%20is%20timed%20for,more%20trials%20of%20that%20condition. Modified Clinical Test of Sensory Interaction in Balance (CTSIB-M)] [Internet]. Science of Falling. 2010 [cited 2023 Nov 28]. </ref>. | ||
* The therapist adds up total times (30s max per condition) for a score out of 120s once all conditions are tested<ref name=":3" /><ref name=":4" />. | *The therapist adds up total times (30s max per condition) for a score out of 120s once all conditions are tested<ref name=":3" /><ref name=":4" />. | ||
* Composite sway is the mean sway speed averaged over the 4 conditions<ref name=":2">Dawson, N, Dzurino, D, Karleskint, M, Tucker, J. [https://onlinelibrary.wiley.com/doi/10.1002/hsr2.98 Examining the reliability, correlation, and validity of commonly used assessment tools to measure balance]. Health Sci Reports. 2018;1(12):e98.</ref>. | *Composite sway is the mean sway speed averaged over the 4 conditions<ref name=":2">Dawson, N, Dzurino, D, Karleskint, M, Tucker, J. [https://onlinelibrary.wiley.com/doi/10.1002/hsr2.98 Examining the reliability, correlation, and validity of commonly used assessment tools to measure balance]. Health Sci Reports. 2018;1(12):e98.</ref>. | ||
* The Sway Index recorded over the 4 conditions. The higher the sway index, the more unsteady balance a person has during the test. <ref name=":2" /> | *The Sway Index recorded over the 4 conditions. The higher the sway index, the more unsteady balance a person has during the test. <ref name=":2" /> | ||
* Instrumenting m-CTSIB using body-worn inertial sensors improves the scale of measure from ordinal to ratio, thus test precision, which allows clinicians to quantify sway with accuracy in patients with mild impairments<ref>Freeman, L., Gera, G., Horak, F. B., Blackinton, M. T., Besch, M., & King, L. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441972/ Instrumented Test of Sensory Integration for Balance: A Validation Study.] Journal of geriatric physical therapy. 2019;41(2):77–84.</ref>. | *Instrumenting m-CTSIB using body-worn inertial sensors improves the scale of measure from ordinal to ratio, thus test precision, which allows clinicians to quantify sway with accuracy in patients with mild impairments<ref>Freeman, L., Gera, G., Horak, F. B., Blackinton, M. T., Besch, M., & King, L. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5441972/ Instrumented Test of Sensory Integration for Balance: A Validation Study.] Journal of geriatric physical therapy. 2019;41(2):77–84.</ref>. | ||
<div class="row"> | <div class="row"> | ||
| Line 60: | Line 60: | ||
==Resources== | ==Resources== | ||
# https://www.sralab.org/sites/default/files/2017-06/204Lmctsib.pdf | #M- CTSIB [https://www.sralab.org/sites/default/files/2017-06/204Lmctsib.pdf PDF] | ||
# https://www.mdapp.co/mctsib-modified-clinical-test-of-sensory-interaction-in-balance-calculator-404/ | #M-CTSIB [https://www.mdapp.co/mctsib-modified-clinical-test-of-sensory-interaction-in-balance-calculator-404/ Calculator] | ||
# https:// | #Test-Retest Reliability and Learning Effect of the Modified CTSIB Balance [https://www.sralab.org/sites/default/files/2017-06/204Lmctsib.pdfl Protocol] | ||
==References== | ==References== | ||
Revision as of 18:02, 3 December 2023
Original Editor - Memoona Awan Top Contributors - Memoona Awan
Purpose[edit | edit source]
Physiotherapists ShumwayCook and Horak, invented this test in 1986 to devise fall risk assessments for older adults and 10 rehabilitation guidelines for balance deficits and lower extremity injuries. The test has changed over the years to include four conditions. It tests the static stability and dynamic stability utilizing foam pads[1].
It is used for balance analysis and to determine the dependence of the individual on all sensory systems ( vision, vestibular and somatosensory ) which maintain balance.[2] It can also be used as balance training/ rehabilitation as it provides multiple conditions which challenge the sensory feedback system needed to maintain balance[3]. Studies suggest that a decrease in sway can be achieved with a 1-week training program[3].
Population[edit | edit source]
Older adults, Vestibular disorders, Stroke, Pediatric disorder, Alzheimer's and Progressive dementia.
Technique[edit | edit source]
| On Floor | Complain surface ( Foam ) | ||
|---|---|---|---|
| Condition 1 | Condition 2 | Condition 4 | Condition 5 |
| Feet together on the floor, Arms across the chest. | Feet together on the floor, Arms across the chest. | Feet together on the foam, Arms across the chest. | Feet together on the foam, Arms across the chest. |
| 30-second hold | 30-second hold | 30-second hold | 30-second hold |
| Open eyes | Closed eyes | Open eyes | Closed eyes |
Interpretation[edit | edit source]
- Equipment: Stopwatch
- Each condition is tested 3 times and a value of 1 to 4 to characterize the sway. 1= minimal, 2-sway, 4 = a fall[1].
- The timer stops when the patient opens their eyes, moves their arms, or loses balance[4][5].
- The therapist adds up total times (30s max per condition) for a score out of 120s once all conditions are tested[4][5].
- Composite sway is the mean sway speed averaged over the 4 conditions[6].
- The Sway Index recorded over the 4 conditions. The higher the sway index, the more unsteady balance a person has during the test. [6]
- Instrumenting m-CTSIB using body-worn inertial sensors improves the scale of measure from ordinal to ratio, thus test precision, which allows clinicians to quantify sway with accuracy in patients with mild impairments[7].
Evidence[edit | edit source]
The CTSIB and modified CTSIB have significant validity and reliability in adults with vestibular disorders[10].
The validity of the m-CTSIB test was significantly and positively correlated with the mini-BESTest-GR with r= -0.652 and p<0.001[11].
Resources[edit | edit source]
- M- CTSIB PDF
- M-CTSIB Calculator
- Test-Retest Reliability and Learning Effect of the Modified CTSIB Balance Protocol
References[edit | edit source]
- ↑ 1.0 1.1 Hathiram, Bachi. The Clinical Test for the Sensory Interaction of Balance. Otorhinolaryngology Clinics. 2012 Apr;4:41– 45.
- ↑ The e®ect of the type of foam pad used in the modi ̄edClinical Test of Sensory Interaction and Balance (mCTSIB)on the accuracy in identifying older adults with fall history. Hong Kong Physiotherapy Journal. 2020;40(2):133–143.
- ↑ 3.0 3.1 Ashley Carroll , Emily Brocht , Emily Walter , H. Scott Kieffer , Paula Johnson. Test-Retest Reliability and Learning Effect of the Modified CTSIB Balance Protocol in a Geriatric Population. International Journal of Exercise Science. 2017 Nov;6(9).
- ↑ 4.0 4.1 Pritt RJP Patrick J Loughlin. Dynamic Regulation of Sensorimotor Integration in Human Postural Control. Journal of Neurophysiology. 2004 Jan;91(1):410–423.
- ↑ 5.0 5.1 Pritt Brent. Modified Clinical Test of Sensory Interaction in Balance (CTSIB-M) [Internet]. Science of Falling. 2010 [cited 2023 Nov 28].
- ↑ 6.0 6.1 Dawson, N, Dzurino, D, Karleskint, M, Tucker, J. Examining the reliability, correlation, and validity of commonly used assessment tools to measure balance. Health Sci Reports. 2018;1(12):e98.
- ↑ Freeman, L., Gera, G., Horak, F. B., Blackinton, M. T., Besch, M., & King, L. Instrumented Test of Sensory Integration for Balance: A Validation Study. Journal of geriatric physical therapy. 2019;41(2):77–84.
- ↑ PhysioSensing. Modified Clinical Test of Sensory Interaction on Balance - mCTSIB protocol . Available from: https://www.youtube.com/watch?v=7eeCMfxcwlI [Premiered Nov 26, 2018]
- ↑ Natus Newborn Care. Modified Clinical Test of Sensory Interaction on Balance mCTSIB. Available from: https://www.youtube.com/watch?v=810dWc8rV4E [Apr 23, 2018]
- ↑ Linda B. Horn, Teresa Rice, Jennifer L. Stoskus, Karen H. Lambert, Elizabeth Dannenbaum, Matthew R. Scherer. Measurement Characteristics and Clinical Utility of the Clinical Test of Sensory Interaction on Balance (CTSIB) and Modified CTSIB in Individuals With Vestibular Dysfunction. Archives of Physical Medicine and Rehabilitation. 2015 Sep;96(9):1747– 1748.
- ↑ Antoniadou, E., Kalivioti, X., Stolakis, K., Koloniari, A., Megas, P., Tyllianakis, M., & Panagiotopoulos, E. Reliability and validity of the mCTSIB dynamic platform test to assess balance in a population of older women living in the community. Journal of musculoskeletal & neuronal interactions. 2020;20(2):185– 193.
