Concussion, Mild Clinical Trial
Official title:
Effects of Reading Direction and History of Multiple Concussions on King-Devick Test
The purpose of this study is to examine the effects of concussion history and reading direction on baseline King- Devick Test (KDT) performance, a common component of sideline concussion assessments. The KDT is a timed assessment of saccades, or quick movements of the eyes between two points. This test is a form of rapid automatized naming and involved subjects reading digits arranged on a tablet screen as quickly and accurately as possible. The test has three progressively more challenging test "cards," as the horizontal guidelines between digits disappear from test card 1 to 2, and the vertical spacing between the lines of digits decreases from test card 2 to 3. KDT performance is evaluated in terms of both speed (duration to all three test cards) and the number of errors (digits read incorrectly or omitted). Previous studies have identified several factors that affect KDT performance aside from head injury, including age, sex, sleep deprivation, learning disabilities, and first languages other than English. History of concussion has not been shown to influence KDT performance. The investigators hypothesize that since the left-to-right (L-R) reading direction of the KDT is the same way in which to read English, the long-term effects of prior concussions on saccadic eye movements may be masked. The investigators want to answer the following three research questions: 1) What is the effect of KDT reading direction on baseline KDT performance? If the test is performed by reading digits in a right-to-left (R-L) direction, will KDT times be slower and the number of errors increase relative to a typical L-R KDT? 2) What is the effect of a history of multiple concussions on KDT performance relative to no history of concussion? 3) Is the R-L KDT more sensitive to a history of multiple concussions? The investigators hypothesize that individuals with a history of multiple concussions will perform significantly worse (longer test durations, more errors) than individuals with no concussion history on the R-L KDT. On the other hand, the investigators hypothesize that baseline performance on the traditional L-R KDT will not be able to discriminate individuals with a history of multiple concussions from those with no concussion history.
Subjects will first be asked to complete a questionnaire. This questionnaire will collect demographic data (age, sex, years of education, native language and other languages spoken) and other pertinent data (vision correction, concussion history, ocular/visual injury and disorder history, learning disability diagnoses). The questionnaire will take approximately 3 minutes to complete. Based on the concussion history provided in the questionnaire, the subject will be assigned to either Group NoHx (no concussion history) or Group HxMC (history of multiple concussions.) Then the subject will be randomized into one of two KDT formats: L-R KDT (natural reading direction) or R-L KDT (reverse reading direction) via a coin flip. The researcher will explain the KDT procedure by saying, "This test evaluates your saccadic eye movements, or rapid eye movements from one fixation point to the next. This test is comprised of three test cards. Each test card has eight lines of several digits (numbers). Please read the digits aloud as quickly but as accurately as possible from [L-R condition: 'left to right and top to bottom'; R-L condition: 'right to left and top to bottom']. If participants make a mistake, correct it if participants can and continue on. This is a timed test--tapping the tablet screen starts and stops the stopwatch. Participants will have a brief break in between cards to catch participants' breath. Each test card will get progressively harder. The horizontal lines guiding participants from digit to digit on each line on Test Card 1 disappear on Test Card 2. The lines of digits on Test Card 3 are closer together than they were on Test Card 2. Do you have any questions?" The researcher will start the app and pull up the demonstration card for the L-R condition. For the R-L condition, the researcher will open a picture of the adapted demonstration card with the diagonal lines switched to indicate that subjects follow from the left-most digit to the right-most digit on the subsequent line. Subjects will complete the demonstration card twice according their condition instructions. Subjects will be reminded to "read the digits as quickly but accurately as possible" and in the direction according to their assigned test condition before starting the test. The researcher will silently count any errors while the subject completes each test card one at a time, taking a brief (1-2s) pause after tapping the screen to stop the timer and tapping again to start the timer and bringing up the next test card. At the conclusion of the test, the researcher will record the total time and number of errors on the subject data collection sheet. The subject will complete the test a second time, following the same instructions. The total time and number of errors for the second attempt will also be recorded. The investigators anticipate this portion of the data collection to take approximately 6 minutes. The total duration of the data collection will be approximately 10 minutes. ;
Status | Clinical Trial | Phase | |
---|---|---|---|
Recruiting |
NCT05849064 -
Concussion Treatment in Older Adults
|
N/A | |
Terminated |
NCT04586179 -
A Comparison Between Cardiovascular Exercise Modes Following Sport Related Concussion
|
N/A | |
Not yet recruiting |
NCT05943561 -
Biomarkers in Concussion
|
||
Completed |
NCT02721537 -
Use of 31P MRS to Assess Brain NAD+ in Healthy Current and Former Collegiate Athletes
|
N/A | |
Completed |
NCT03236389 -
Brain Dynamics in Response to Jugular Vein Compression
|
N/A | |
Completed |
NCT01832714 -
Assessment of Oculomotor, Vestibular and Reaction Time Response Following a Concussive Event
|
||
Completed |
NCT03678077 -
Trends in Cohabitation Status, Academic Achievement and Socio-economic Indicators After Mild Traumatic Brain Injury
|
||
Recruiting |
NCT05262361 -
Persistent Post-Concussion Symptoms With Convergence Insufficiency
|
N/A | |
Recruiting |
NCT05105802 -
Mindfulness-Based Intervention for Mild Traumatic Brain Injury
|
N/A | |
Terminated |
NCT03123822 -
Spectacles Lens in Concussed Kids
|
N/A | |
Completed |
NCT04641832 -
The Combined Effect of Chronic Cannabis Use and Subconcussive Head Impacts on Brain Health
|
N/A | |
Completed |
NCT04074486 -
Evaluation and Validation of a Multimodal Brain Function Biomarker With NPC
|
||
Withdrawn |
NCT04578743 -
Exercise as Concussion Therapy Trial- 2
|
Phase 2 | |
Completed |
NCT03671083 -
Validation of Brain Function Assessment Algorithm for mTBI/Concussion
|
||
Completed |
NCT03170856 -
The Effects of a Sub-maximal Exercise Program on Adolescents Who Sustained a Concussion
|
N/A | |
Completed |
NCT05069948 -
Delivery of Digital Cognitive Behavioural Therapy Following Concussion
|
N/A | |
Recruiting |
NCT03889483 -
Neurophysiological Measurements Using the NeuroCatchâ„¢ Platform in Pediatric Concussion
|
N/A | |
Withdrawn |
NCT02959294 -
Use of Adipose-Derived Stem/Stromal Cells in Concussion and Traumatic Brain Injuries
|
Early Phase 1 | |
Recruiting |
NCT06093295 -
Non-invasive Brain Stimulation and Injury Risk Biomechanics
|
N/A | |
Completed |
NCT02280304 -
Meditation in Veterans With PTSD and Mild TBI
|
N/A |