Gans Sensory Organization Performance Test: Difference between revisions
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<div class="editorbox"> '''Original Editor '''- [[Alyssa brooks-wells|Alyssa Brooks-Wells]]<br> | <div class="editorbox"> '''Original Editor '''- [[Alyssa brooks-wells|Alyssa Brooks-Wells]]<br> | ||
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div> | '''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div> | ||
== Purpose | ==Purpose == | ||
The Gans Sensory Organization Performance (SOP) Test is a simple bedside assessment of postural stability. It merges elements from the [[Romberg Test|Romberg test]], Modified Clinical Test of Sensory Integration of Balance ([[Modified Clinical Test for Sensory Interaction on Balance|mCTSIB]]), and Fukuda Stepping Test. The individual is positioned in seven distinct conditions, altering factors such as the base of support, surface type, and visual input. The test evaluates the individual's capacity to sustain balance across these varied conditions, assessing their postural control ability. The Gans SOP is simple and cost-effective for clinicians to utilize.<ref>Sakumura J, Gans R. [https://www.researchgate.net/profile/Richard-Gans-2/publication/369006916_Fall_Risk_Management_in_Audiology_and_ENT_Practice_The_Role_of_Cognitive_Vestibular_and_Auditory_Function/links/64034a7e574950594563e0f4/Fall-Risk-Management-in-Audiology-and-ENT-Practice-The-Role-of-Cognitive-Vestibular-and-Auditory-Function.pdf Fall Risk Management in Audiology and ENT Practice: The Role of Cognitive, Vestibular, and Auditory Function]. Journal of Audiology and Otolaryngology. 2022.</ref> | The Gans Sensory Organization Performance (SOP) Test is a simple bedside assessment of postural stability. It merges elements from the [[Romberg Test|Romberg test]], Modified Clinical Test of Sensory Integration of Balance ([[Modified Clinical Test for Sensory Interaction on Balance|mCTSIB]]), and Fukuda Stepping Test. The individual is positioned in seven distinct conditions, altering factors such as the base of support, surface type, and visual input. The test evaluates the individual's capacity to sustain balance across these varied conditions, assessing their postural control ability. The Gans SOP is simple and cost-effective for clinicians to utilize.<ref>Sakumura J, Gans R. [https://www.researchgate.net/profile/Richard-Gans-2/publication/369006916_Fall_Risk_Management_in_Audiology_and_ENT_Practice_The_Role_of_Cognitive_Vestibular_and_Auditory_Function/links/64034a7e574950594563e0f4/Fall-Risk-Management-in-Audiology-and-ENT-Practice-The-Role-of-Cognitive-Vestibular-and-Auditory-Function.pdf Fall Risk Management in Audiology and ENT Practice: The Role of Cognitive, Vestibular, and Auditory Function]. Journal of Audiology and Otolaryngology. 2022.</ref> | ||
== Technique | ==Technique == | ||
Before beginning the test, ensure the patient's safety by performing near external support such as a wall or corner. A gait belt may also be useful with some patients. The patient must be able to stand and ambulate independently for the test to be reliable and a valuable indicator of vestibular function.<ref name=":0">Vestibular First. Gans Sensory Organization Performance (SOP) Test Available from: https://vestibularfirst.com/wp-content/uploads/2022/01/Gans-SOP-Manual-V2-1.pdf (accessed 20/March/2024)</ref> | Before beginning the test, ensure the patient's safety by performing near external support such as a wall or corner. A gait belt may also be useful with some patients. The patient must be able to stand and ambulate independently for the test to be reliable and a valuable indicator of vestibular function.<ref name=":0">Vestibular First. Gans Sensory Organization Performance (SOP) Test Available from: https://vestibularfirst.com/wp-content/uploads/2022/01/Gans-SOP-Manual-V2-1.pdf (accessed 20/March/2024)</ref> | ||
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|Firm | |Firm | ||
|Open | |Open | ||
|Romberg | | Romberg | ||
|- | |- | ||
|2 | |2 | ||
|Feet shoulder-width apart | | Feet shoulder-width apart | ||
|Firm | |Firm | ||
|Closed | |Closed | ||
|Romberg | |Romberg | ||
|- | |- | ||
| Line 39: | Line 38: | ||
|4 | |4 | ||
|Modified tandem (feet apart) | |Modified tandem (feet apart) | ||
|Firm | |Firm | ||
|Closed | |Closed | ||
|Romberg | |Romberg | ||
| Line 65: | Line 64: | ||
For conditions 3 and 4, the patient can choose the foot placement and which foot is in front and behind. | For conditions 3 and 4, the patient can choose the foot placement and which foot is in front and behind. | ||
== Evidence and Application == | ==Evidence and Application== | ||
Conditions 1-4 are not sensitive to vestibular dysfunction, but they are used as a baseline for overall balance and stability. If they are unable to perform these baseline conditions, they are unable to safely continue the test. | Conditions 1-4 are not sensitive to vestibular dysfunction, but they are used as a baseline for overall balance and stability. If they are unable to perform these baseline conditions, they are unable to safely continue the test. | ||
| Line 74: | Line 73: | ||
If the patient presents with both a positive "fall" in condition 6 and drifts >30 degrees in condition 7, there is 95% sensitivity to identify uncompensated vestibulopathy and correlation with caloric testing.<ref name=":0" /> | If the patient presents with both a positive "fall" in condition 6 and drifts >30 degrees in condition 7, there is 95% sensitivity to identify uncompensated vestibulopathy and correlation with caloric testing.<ref name=":0" /> | ||
== Resources | ==Resources== | ||
The specific foam pad utilized during research for this test can be found on the [https://dizzy.com/product/foam-test/ American Institute of Balance's website]. | The specific foam pad utilized during research for this test can be found on the [https://dizzy.com/product/foam-test/ American Institute of Balance's website]. | ||
== References | == References== | ||
<references /> | <references /> | ||
[[Category:Vestibular - Assessment and Examination]] | |||
[[Category:Balance - Special Tests]] | |||
Latest revision as of 15:39, 28 March 2024
Purpose[edit | edit source]
The Gans Sensory Organization Performance (SOP) Test is a simple bedside assessment of postural stability. It merges elements from the Romberg test, Modified Clinical Test of Sensory Integration of Balance (mCTSIB), and Fukuda Stepping Test. The individual is positioned in seven distinct conditions, altering factors such as the base of support, surface type, and visual input. The test evaluates the individual's capacity to sustain balance across these varied conditions, assessing their postural control ability. The Gans SOP is simple and cost-effective for clinicians to utilize.[1]
Technique[edit | edit source]
Before beginning the test, ensure the patient's safety by performing near external support such as a wall or corner. A gait belt may also be useful with some patients. The patient must be able to stand and ambulate independently for the test to be reliable and a valuable indicator of vestibular function.[2]
The Gans SOP Test has seven conditions. The test is performed without shoes, arms by their sides, in a quiet and controlled environment. Continue to monitor and guard the patient throughout holding the position for up to the full 20 seconds. The tester rates each condition the patient performs as: Normal, Sway, or Fall, and also indicates the direction of sway or fall to the left or right. A sway can be normal or abnormal depending on severity. The condition is rated as a fall if the patient comes out of the test position or cannot maintain the test position.[2]
| # | Body Position | Surface | Eyes | Origin Test |
|---|---|---|---|---|
| 1 | Feet shoulder-width apart | Firm | Open | Romberg |
| 2 | Feet shoulder-width apart | Firm | Closed | Romberg |
| 3 | Modified tandem (feet apart) | Firm | Open | Romberg |
| 4 | Modified tandem (feet apart) | Firm | Closed | Romberg |
| 5 | Feet shoulder-width apart | Foam | Open | mCTSIB |
| 6 | Feet shoulder-width apart | Foam | Closed | mCTSIB |
| 7 | March in place at a comfortable step height and pace, and then close eyes and continue to march | Firm | Closed | Fukuda |
For conditions 3 and 4, the patient can choose the foot placement and which foot is in front and behind.
Evidence and Application[edit | edit source]
Conditions 1-4 are not sensitive to vestibular dysfunction, but they are used as a baseline for overall balance and stability. If they are unable to perform these baseline conditions, they are unable to safely continue the test.
Condition 6 is the most sensitive test (75% sensitivity) for uncompensated vestibulopathy.
Condition 7 is positive if there is a drift or turn >30 degrees from the starting position. This test is 50% sensitive for uncompensated vestibulopathy, and most often the patient will turn toward the weaker side (impaired ear).
If the patient presents with both a positive "fall" in condition 6 and drifts >30 degrees in condition 7, there is 95% sensitivity to identify uncompensated vestibulopathy and correlation with caloric testing.[2]
Resources[edit | edit source]
The specific foam pad utilized during research for this test can be found on the American Institute of Balance's website.
References[edit | edit source]
- ↑ Sakumura J, Gans R. Fall Risk Management in Audiology and ENT Practice: The Role of Cognitive, Vestibular, and Auditory Function. Journal of Audiology and Otolaryngology. 2022.
- ↑ 2.0 2.1 2.2 2.3 Vestibular First. Gans Sensory Organization Performance (SOP) Test Available from: https://vestibularfirst.com/wp-content/uploads/2022/01/Gans-SOP-Manual-V2-1.pdf (accessed 20/March/2024)
