Balance Error Scoring System: Difference between revisions

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== Objective ==
== Objective ==
The '''Balance Error Scoring System''' is an objective measure of assessing static postural stability (designed for the mild head injury population, to assist in return to sports play decisions).  
[[File:SCAT Balance testing Tandem Stance.png|thumb|220x220px|Tandem stance|alt=]]
The [[balance]] error scoring system (BESS) is a brief, easily administered test of static balance. It is often used in the population of athletes with [[Assessment and Management of Concussion]] or mild [[Traumatic Brain Injury|traumatic brain injury]]. Information obtained from this clinical balance tool can be used to assist clinicians in making return to play decisions following mild head injury. 
 
The BESS can be performed in nearly any environment and takes approximately 10 minutes to conduct.


== Intended Population  ==
== Intended Population  ==
Those diagnosed with concussion, mild traumatic brain injury, vestibular disorders
Can be used with people who have problems with balance and [[Postural Control|postural stability]]  eg functional ankle instability and people with diseases affecting the [[Vestibular System|vestibular system]] and/or [[Brain Anatomy|brain]]. eg sport-related concussion, [[stroke]], [[Parkinson's|Parkinson's disease]], [[Multiple Sclerosis (MS)|multiple sclerosis]], traumatic brain injury, blast exposure in the military. Blunt trauma to the head can cause persistent problems with dizziness and balance.<ref name=":1">Iverson GL, Koehle MS. Normative data for the balance error scoring system in adults. Rehabilitation research and practice. 2013 Jan 1;2013. Available:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3614029/ (accessed 28.5.2022)</ref>


== Method of Use  ==
== '''Equipment Required''' ==
'''Equipment Required:'''  
*Foam pad  
*Foam pad  
*Stopwatch  
*Stopwatch  
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*BESS testing protocol (instructions to be read to subject during testing)  
*BESS testing protocol (instructions to be read to subject during testing)  
*BESS score card
*BESS score card
<br>
'''Description:'''
*6 conditions each tested barefoot, eyes closed for 20 seconds each:
**Double leg stance (feet together) – firm / foam surfaces<br>Single leg stance (non-dominant foot) – firm / foam surfaces
**Tandem stance (non-dominant foot in back) – firm / foam
*Score of 0-60 (lower scores indicate better balance and less errors).
*Each trial is scored by counting errors (deviations from the proper stance). If multiple errors occur at the same time, only one is counted. The maximum number of errors for a single condition is 10.
*Errors include moving hands off of iliac crests, opening eyes, step stumble or fall, abduction or flexion of the hip beyond 30 degrees, lifting forefoot or heel off testing surface, remaining out of the proper testing position for &gt; 5 seconds.
*Number of errors in each trial are added together to obtain a total score (out of 60).
*Read instructions to subject as they are written in the testing protocol.
== Evidence  ==
=== Reliability  ===
<u>Test-retest Reliability</u>
*Athletes: (Bell et al, 2011) <ref name="Bell et al"/>
*Adequate test retest reliability in youth participants aged 9-14 (ICC = 0.70)
<br>
<u>Interrater/Intrarater Reliability</u>
*Athletes (without neurological / orthopedic injury): (Susco et al, 2004; n = 34 subset of subjects) <ref name="Susco et al">Susco, T. M., Valovich McLeod, T. C., et al. "Balance Recovers Within 20 Minutes After Exertion as Measured by the Balance Error Scoring System." J Athl Train 2004 39(3): 241-246</ref>
**Adequate to Excellent intrarater reliability (ICC from 0.62-0.82)
**Excellent: Double support / firm surface (ICC = 0.82)
**Adequate: Double support / firm surface (ICC = 0.63)
<br>
*Athletes: (Bell et al, 2011; n = 18 college athletes)<ref name="Bell et al"/>
**Excellent interrater reliability (ICC = 0.78-0.96)
**Adequate-excellent interrater reliability (ICC = 0.57-0.85 for total score (systematic review looking at 8 studies)
**Adequate-excellent intrarater reliability for total score (ICC = 0.60-0.92)


=== Validity  ===
== '''Administation''' ==
<u>Criterion Validity (Predictive/Concurrent)</u>
The balance testing consists of three stances on two different surfaces. The three stances are double leg stance, single leg stance and tandem stance. The two different surfaces include both a firm (ground) and foam surface.
*Athletes: (Bell et al, 2011) <ref name="Bell et al"/>
**Adequate-excellent correlations with target sway in male athletes
**Significant correlations for 5 of the 6 stances (r = 0.31-0.79, p &lt; 0.01)
<br>


*Concussion: (Barlow et al, 2011 retrospective chart review of middle and high school students; n = 106; mean age = 15.38(1.7) years; mean days between testing = 15.5(14.1) days) <ref name="Barlow et al">Barlow, M., Schlabach, D., et al. "Differences in change scores and the predictive validity of three commonly used measures following concussion in the middle school and high school aged population." Int J Sports Phys Ther 2011 6(3): 150-157</ref>
The athlete will stand with hands on hips and eyes closed with a consistent foot position depending on the stance. Shoes should not be worn.  
**Adequate correlation with ImPACT (Immediate Post-Concussion Assessment and Cognitive Testing)Impulse control (r = -0.31)
**Adequate correlation with ImPACT verbal score (r = 0.37)
**Poor correlation with ImPACT visual motor speed change (r = -0.33)
**Poor correlation with ImPACT reaction time (r = -0.02)
**Poor correlation with PCSS (r = 0.15)
<br>


*Athletes (controls without neurological / orthopedic injury): (Susco et al, 2004) <ref name="Susco et al"/>
# In the double leg stance, the feet are flat on the testing surface approximately pelvic width apart.
**Positive correlation with RPW score (r = 0.542)
# In the single leg stance position, the athlete is to stand on the non-dominant leg with the contralateral limb held in approximately 20° of hip flexion, 45° of knee flexion and neutral position in the frontal plane.
<br>
# In the tandem stance, one foot is placed in front of of the other with heel of the anterior foot touching the toe of the posterior foot. The athlete’s non-dominant leg is in the posterior position. Leg dominance should be determined by the athlete’s kicking preference<ref name=":0">My sports clinic BESS Available: https://mysportclinic.org/concussion-clinic/concussion-testing/balance-error-scoring-system-bess/ (accessed 28.5.2022)</ref>.


<u>Construct Validity (Convergent/Discriminant)</u>
== Scoring ==
*Athletes: (Bell et al, 2011) <ref name="Bell et al">Bell, D. R., Guskiewicz, K. M., et al. "Systematic review of the balance error scoring system." Sports Health 2011 3(3): 287-295</ref>
Trial is 20 seconds. Count the number of errors from the proper stance. The examiner should begin counting errors only after the individual has assumed the proper testing position. If multiple errors occur at the same time, only one is counted. The maximum number of errors for a single condition is 10<ref name=":0" />. Score of 0-60 (lower scores indicate better balance and less errors). Number of errors in each trial are added together to obtain a total score (out of 60).
**Convergent validity: BESS and sensory organization test (SOT), validated in a concussed population. More errors seen at day 1 post injury compared to healthy individuals, but returned to baseline at 3 and 5 days post injury. Average errors 9(4) for control, 15(8) for concussed, effect size 1.0.
**Discriminant: BESS does not discriminate between concussed athletes with and without a headache (p = 0.87)
**BESS performance worsens after 50 years of age (p &lt; 0.01), r = 0.36
**Increase in total BESS score (poorer performance) after whole-body or central fatigue (p &lt; 0.01)
**Barefoot BESS performance better than braced BESS (p = 0.04), before walking, better than braced (p=.03 or taped (p = 0.04) after walking. Differences not seen in SOT between conditions.
<br>


*Healthy adults: (Iverson et al, 2008) <ref name="Iverson et al">Iverson, G. L., Kaarto, M. L., et al. "Normative data for the balance error scoring system: implications for brain injury evaluations." Brain Inj 2008 22(2): 147-152</ref>  
* Errors include moving hands off of [[Ilium|iliac]] crests, opening eyes, step stumble or fall, abduction or flexion of the [[Hip Anatomy|hip]] beyond 30 degrees, lifting forefoot or heel off testing surface, remaining out of the proper testing position for &gt; 5 seconds.
**Adequate correlation between BESS and age(r = 0.36)  
* Read instructions to subject as they are written in the testing protocol.
**Poor correlation between BESS and height (r = -0.03)
This 6 minute video shows performance of the BESS.{{#ev:youtube|fA392PbM3-A}}<ref>Duke Neurology. Sports Concussion Exam (3 of 9): Balanced Error Scoring System (BESS). Available from: https://www.youtube.com/watch?v=fA392PbM3-A</ref>
**Poor correlation between BESS and weight (r = 0.16)
**Poor correlation between BESS and waist circumference (r = 0.26)
**Poor correlation between BESS and BMI (r = 0.23)<br>


=== Responsiveness  ===
== Normative Data ==
Not established
Normative reference values for the BESS stratified by age.
{| class="wikitable"
! colspan="1" rowspan="1" |Age
! colspan="1" rowspan="1" |''N''
! colspan="1" rowspan="1" |Mean
! colspan="1" rowspan="1" |Median
! colspan="1" rowspan="1" |SD
! colspan="1" rowspan="1" |Superior
! colspan="1" rowspan="1" |Above average
! colspan="1" rowspan="1" |Broadly normal
! colspan="1" rowspan="1" |Below average
! colspan="1" rowspan="1" |Poor
! colspan="1" rowspan="1" |Very poor
|-
| colspan="1" rowspan="1" |20–29
| colspan="1" rowspan="1" |65
| colspan="1" rowspan="1" |11.3
| colspan="1" rowspan="1" |11.0
| colspan="1" rowspan="1" |4.8
| colspan="1" rowspan="1" |0–5
| colspan="1" rowspan="1" |6-7
| colspan="1" rowspan="1" |8–14
| colspan="1" rowspan="1" |15–17
| colspan="1" rowspan="1" |18–23
| colspan="1" rowspan="1" |24+
|-
| colspan="1" rowspan="1" |30–39
| colspan="1" rowspan="1" |173
| colspan="1" rowspan="1" |11.5
| colspan="1" rowspan="1" |11.0
| colspan="1" rowspan="1" |5.5
| colspan="1" rowspan="1" |0–4
| colspan="1" rowspan="1" |5–7
| colspan="1" rowspan="1" |8–15
| colspan="1" rowspan="1" |16–18
| colspan="1" rowspan="1" |19–26
| colspan="1" rowspan="1" |27+
|-
| colspan="1" rowspan="1" |40–49
| colspan="1" rowspan="1" |352
| colspan="1" rowspan="1" |12.5
| colspan="1" rowspan="1" |11.5
| colspan="1" rowspan="1" |6.2
| colspan="1" rowspan="1" |0–5
| colspan="1" rowspan="1" |6–8
| colspan="1" rowspan="1" |9–16
| colspan="1" rowspan="1" |17–20
| colspan="1" rowspan="1" |21–28
| colspan="1" rowspan="1" |29+
|-
| colspan="1" rowspan="1" |50–54
| colspan="1" rowspan="1" |224
| colspan="1" rowspan="1" |14.2
| colspan="1" rowspan="1" |12.0
| colspan="1" rowspan="1" |7.5
| colspan="1" rowspan="1" |0–6
| colspan="1" rowspan="1" |7-8
| colspan="1" rowspan="1" |9–18
| colspan="1" rowspan="1" |19–24
| colspan="1" rowspan="1" |25–33
| colspan="1" rowspan="1" |34+
|-
| colspan="1" rowspan="1" |55–59
| colspan="1" rowspan="1" |197
| colspan="1" rowspan="1" |16.5
| colspan="1" rowspan="1" |15.0
| colspan="1" rowspan="1" |7.6
| colspan="1" rowspan="1" |0–7
| colspan="1" rowspan="1" |8–10
| colspan="1" rowspan="1" |11–20
| colspan="1" rowspan="1" |21–28
| colspan="1" rowspan="1" |29–35
| colspan="1" rowspan="1" |36+
|-
| colspan="1" rowspan="1" |60–64
| colspan="1" rowspan="1" |148
| colspan="1" rowspan="1" |18.0
| colspan="1" rowspan="1" |16.5
| colspan="1" rowspan="1" |7.8
| colspan="1" rowspan="1" |0–8
| colspan="1" rowspan="1" |9–12
| colspan="1" rowspan="1" |13–22
| colspan="1" rowspan="1" |23–28
| colspan="1" rowspan="1" |29–40
| colspan="1" rowspan="1" |41+
|-
| colspan="1" rowspan="1" |65-69
| colspan="1" rowspan="1" |77
| colspan="1" rowspan="1" |19.9
| colspan="1" rowspan="1" |18.0
| colspan="1" rowspan="1" |7.1
| colspan="1" rowspan="1" |0–12
| colspan="1" rowspan="1" |13–15
| colspan="1" rowspan="1" |16–24
| colspan="1" rowspan="1" |25–32
| colspan="1" rowspan="1" |33–38
| colspan="1" rowspan="1" |39+
|}
<ref name=":1" />


== Links ==
== Conclusion ==
The BESS is a clinical evaluation of balance that usually has moderate to good reliability. The BESS correlates with laboratory-based measures for criterion-related validity and has construct validity. Scores increase with concussion, functional ankle instability, external ankle bracing, fatigue, and age. Scores should improve after completing a comprehensive [[Neuromuscular Exercise Program|neuromuscular training program]].<ref>Bell DR, Guskiewicz KM, Clark MA, Padua DA. Systematic review of the balance error scoring system. Sports health. 2011 May;3(3):287-95. Available: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3445164/ (accessed 28.5.2022)</ref>
== Resources ==
*[http://theconcussionblog.files.wordpress.com/2011/02/bessprotocolnata09.pdf Balance Error Scoring System (BESS)]  
*[http://theconcussionblog.files.wordpress.com/2011/02/bessprotocolnata09.pdf Balance Error Scoring System (BESS)]  


== Recent Related Research (from [http://www.ncbi.nlm.nih.gov/pubmed/ Pubmed]) ==
== References ==
<div class="researchbox">
<rss>https://eutils.ncbi.nlm.nih.gov/entrez/eutils/erss.cgi?rss_guid=1HSIVAEu7c8647QPh3JMOCwqJAxOCh8IDGHY8lfcneTUPaf9c8</rss>
</div>


== References  ==
<references />
<references /><br>


[[Category:Outcome_Measures]] [[Category:Balance]]
[[Category:Outcome_Measures]]  
[[Category:Balance]]

Latest revision as of 11:21, 21 April 2023

Original Editor - Sinead Greenan Top Contributors - Sinead Greenan, Lucinda hampton, Evan Thomas, Oyemi Sillo, WikiSysop, Kim Jackson and 127.0.0.1

Objective[edit | edit source]

Tandem stance

The balance error scoring system (BESS) is a brief, easily administered test of static balance. It is often used in the population of athletes with Assessment and Management of Concussion or mild traumatic brain injury. Information obtained from this clinical balance tool can be used to assist clinicians in making return to play decisions following mild head injury.

The BESS can be performed in nearly any environment and takes approximately 10 minutes to conduct.

Intended Population[edit | edit source]

Can be used with people who have problems with balance and postural stability eg functional ankle instability and people with diseases affecting the vestibular system and/or brain. eg sport-related concussion, stroke, Parkinson's disease, multiple sclerosis, traumatic brain injury, blast exposure in the military. Blunt trauma to the head can cause persistent problems with dizziness and balance.[1]

Equipment Required[edit | edit source]

  • Foam pad
  • Stopwatch
  • An assistant to act as a spotter
  • BESS testing protocol (instructions to be read to subject during testing)
  • BESS score card

Administation[edit | edit source]

The balance testing consists of three stances on two different surfaces. The three stances are double leg stance, single leg stance and tandem stance. The two different surfaces include both a firm (ground) and foam surface.

The athlete will stand with hands on hips and eyes closed with a consistent foot position depending on the stance. Shoes should not be worn.

  1. In the double leg stance, the feet are flat on the testing surface approximately pelvic width apart.
  2. In the single leg stance position, the athlete is to stand on the non-dominant leg with the contralateral limb held in approximately 20° of hip flexion, 45° of knee flexion and neutral position in the frontal plane.
  3. In the tandem stance, one foot is placed in front of of the other with heel of the anterior foot touching the toe of the posterior foot. The athlete’s non-dominant leg is in the posterior position. Leg dominance should be determined by the athlete’s kicking preference[2].

Scoring[edit | edit source]

Trial is 20 seconds. Count the number of errors from the proper stance. The examiner should begin counting errors only after the individual has assumed the proper testing position. If multiple errors occur at the same time, only one is counted. The maximum number of errors for a single condition is 10[2]. Score of 0-60 (lower scores indicate better balance and less errors). Number of errors in each trial are added together to obtain a total score (out of 60).

  • Errors include moving hands off of iliac crests, opening eyes, step stumble or fall, abduction or flexion of the hip beyond 30 degrees, lifting forefoot or heel off testing surface, remaining out of the proper testing position for > 5 seconds.
  • Read instructions to subject as they are written in the testing protocol.

This 6 minute video shows performance of the BESS.

[3]

Normative Data[edit | edit source]

Normative reference values for the BESS stratified by age.

Age N Mean Median SD Superior Above average Broadly normal Below average Poor Very poor
20–29 65 11.3 11.0 4.8 0–5 6-7 8–14 15–17 18–23 24+
30–39 173 11.5 11.0 5.5 0–4 5–7 8–15 16–18 19–26 27+
40–49 352 12.5 11.5 6.2 0–5 6–8 9–16 17–20 21–28 29+
50–54 224 14.2 12.0 7.5 0–6 7-8 9–18 19–24 25–33 34+
55–59 197 16.5 15.0 7.6 0–7 8–10 11–20 21–28 29–35 36+
60–64 148 18.0 16.5 7.8 0–8 9–12 13–22 23–28 29–40 41+
65-69 77 19.9 18.0 7.1 0–12 13–15 16–24 25–32 33–38 39+

[1]

Conclusion[edit | edit source]

The BESS is a clinical evaluation of balance that usually has moderate to good reliability. The BESS correlates with laboratory-based measures for criterion-related validity and has construct validity. Scores increase with concussion, functional ankle instability, external ankle bracing, fatigue, and age. Scores should improve after completing a comprehensive neuromuscular training program.[4]

Resources[edit | edit source]

References[edit | edit source]

  1. 1.0 1.1 Iverson GL, Koehle MS. Normative data for the balance error scoring system in adults. Rehabilitation research and practice. 2013 Jan 1;2013. Available:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3614029/ (accessed 28.5.2022)
  2. 2.0 2.1 My sports clinic BESS Available: https://mysportclinic.org/concussion-clinic/concussion-testing/balance-error-scoring-system-bess/ (accessed 28.5.2022)
  3. Duke Neurology. Sports Concussion Exam (3 of 9): Balanced Error Scoring System (BESS). Available from: https://www.youtube.com/watch?v=fA392PbM3-A
  4. Bell DR, Guskiewicz KM, Clark MA, Padua DA. Systematic review of the balance error scoring system. Sports health. 2011 May;3(3):287-95. Available: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3445164/ (accessed 28.5.2022)
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