CDE Detailed Report
Disease: system
Subdomain Name: Biomechanical Devices
CRF: files
Displaying 101 - 105 of 105
Subdomain Name: Biomechanical Devices
CRF: files
Displaying 101 - 105 of 105
| CDE ID | CDE Name | Variable Name | Definition | Short Description | Question Text | Permissible Values | Description | Data Type | Disease Specific Instructions | Disease Specific Reference | Population | Classification (e.g., Core) | Version Number | Version Date | CRF Name (CRF Module / Guidance) | Subdomain Name | Domain Name | Size | Input Restrictions | Min Value | Max Value | Measurement Type | External Id Loinc | External Id Snomed | External Id caDSR | External Id CDISC |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| C56920 | Head impact peak rotational acceleration y value | HeadImpPeakRotatAccelerYVal | The value of peak rotational acceleration in the y direction in head impact assessment | The value of peak rotational acceleration in the y direction in head impact assessmen | Peak rotational acceleration y: | Numeric Values | Cortes N, Lincoln AE, Myer GD, Hepburn L, Higgins M, Putukian M. & Caswell SV. Video Analysis Verification of Head Impact Events Measured by Wearable Sensors. The American Journal of Sports Medicine. 2017;45(10):2379-2387<br />Wu LC, Zarnescu L, Nangia V, Cam B, & Camarillo, DB. A Head Impact Detection System Using SVM Classification and Proximity Sensing in an Instrumented Mouthguard. IEEE Transactions on Bio-Medical Engineering.2014;61(11):2659–2668 | Adult;Pediatric | Supplemental | 1.00 | 2017-08-03 15:45:50.0 | Head Kinematics Estimates Form | Biomechanical Devices | Disease%2FInjury Related Events |
Free-Form Entry |
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| C00035 | Gender type | GenderTyp | Self-reported gender of the participant/subject | Self-reported gender of the participant/subjec | Subject gender: | Alphanumeric | Cortes N, Lincoln AE, Myer GD, Hepburn L, Higgins M, Putukian M. & Caswell SV. Video Analysis Verification of Head Impact Events Measured by Wearable Sensors. The American Journal of Sports Medicine. 2017;45(10):2379-2387<br />Wu LC, Zarnescu L, Nangia V, Cam B, & Camarillo, DB. A Head Impact Detection System Using SVM Classification and Proximity Sensing in an Instrumented Mouthguard. IEEE Transactions on Bio-Medical Engineering.2014;61(11):2659–2668 | Adult;Pediatric | Supplemental | 3.00 | 2013-08-28 16:08:00.453 | Head Kinematics Estimates Form | Biomechanical Devices | Disease%2FInjury Related Events |
Single Pre-Defined Value Selected |
2200604 | ||||||||||
| C57026 | Gyroscope equation use computer derivative type | GyrEqUsCmpDrTyp | Type of equation used for the computer derivative (in relation to gyroscope) | Type of equation used for the computer derivative (in relation to gyroscope) | If gyroscope, what equation was used to compute derivative? | Alphanumeric | Cortes N, Lincoln AE, Myer GD, Hepburn L, Higgins M, Putukian M. & Caswell SV. Video Analysis Verification of Head Impact Events Measured by Wearable Sensors. The American Journal of Sports Medicine. 2017;45(10):2379-2387<br />Wu LC, Zarnescu L, Nangia V, Cam B, & Camarillo, DB. A Head Impact Detection System Using SVM Classification and Proximity Sensing in an Instrumented Mouthguard. IEEE Transactions on Bio-Medical Engineering.2014;61(11):2659–2668 | Adult;Pediatric | Supplemental | 1.00 | 2017-12-08 12:38:08.0 | Head Kinematics Estimates Form | Biomechanical Devices | Disease%2FInjury Related Events | 255 |
Free-Form Entry |
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| C56885 | Head accelerometer sample rate value | HeadAccelerometerSampleRtVal | The rate of sampling of the head accelerometer | The rate of sampling of the head acceleromete | Accelerometer sampling rate: | Numeric Values |
(if sensors have different sample rates) |
Cortes N, Lincoln AE, Myer GD, Hepburn L, Higgins M, Putukian M. & Caswell SV. Video Analysis Verification of Head Impact Events Measured by Wearable Sensors. The American Journal of Sports Medicine. 2017;45(10):2379-2387<br />Wu LC, Zarnescu L, Nangia V, Cam B, & Camarillo, DB. A Head Impact Detection System Using SVM Classification and Proximity Sensing in an Instrumented Mouthguard. IEEE Transactions on Bio-Medical Engineering.2014;61(11):2659-2668 | Adult;Pediatric | Supplemental-Highly Recommended | 1.00 | 2017-08-03 15:05:14.0 | Head Kinematics Estimates Form | Biomechanical Devices | Disease%2FInjury Related Events |
Free-Form Entry |
Hertz | |||||||||
| C56931 | Brain injury peak fiber oriented strain text | BrainInjuPeakFiberOrientStrTxt | The text related to peak fiber oriented strain in analysis of brain injury | The text related to peak fiber oriented strain in analysis of brain injur | Peak fiber oriented strain: | Alphanumeric |
recommend 95th percentile peak strain value along the white matter fiber direction within the brain. Also recommend specify the technique used to report the fiber-oriented strain, e.g., sampled from FE elements or from neuroimaging. If possible, also recommend reporting where this peak value occurred in the brain white matter region, based on an atlas. |
Adult;Pediatric | Exploratory | 1.00 | 2017-08-04 08:27:55.0 | Head Kinematics Estimates Form | Biomechanical Devices | Disease%2FInjury Related Events | 100 |
Free-Form Entry |
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