Table 5.
Methodological characteristics of the articles reviewed.
| Characteristic | Saether et al. (2015) [36] | Shiratori et al. (2016) [42] | Speedtsberg et al. (2018) [33] |
|---|---|---|---|
| Objective | To evaluate the trunk control relationship between seated and during gait | To assess anticipatory postural adjustments in static equilibrium when supporting a load with the hands. | To investigate trunk stability during treadmill walking. |
| Study design | Descriptive cross-sectional. | Descriptive cross-sectional. | Descriptive cross-sectional. |
| Population | Children with CP spastic. | Spastic CP with diplegia or hemiplegia and TD children. | Children with DCD and TD. |
| Sample size | 26 (9 girls: 34.6%) | 27 (9 control) (19 girls: 70%). |
18 (10 control) (5 girls: 28%). |
| Age (mean ± standard deviation) | 13.5 ± 3 years (range: 8–18) | 11.8 ± 1.8 years (range: 7–17). | 9 ± 1.5 years (range: not specified). |
| Motor tests included | 5 m walking test. | Stand and support a falling load with their hands. | 4 min walking on a treadmill at normal speed. |
| Accelerometer used | Triaxial accelerometer MTx (XSens, Enschede, The Netherlands). | Uniaxial accelerometer (PCB Piezotronics, Depew, NY, USA). | Triaxial accelerometer MQ16 (Marq Medical, Farum, Denmark). |
| Frequency of data collection | 100 Hz. | 1000 Hz and 2nd-order low pass Butterworth filter (20 Hz) with zero phase shift. | 256 Hz. |
| Sensor placement | L3. | In dominant hand. | Sternum. |
| Variables analyzed | Mean, regularity and root mean square of three axes accelerations. Number and duration of steps. |
Peak acceleration. | Short term local dynamic stability (λs), root mean square and relative root mean square. |
| Comparison with gold standard or others | Trunk Impairment Scale and Trunk Control Measurement Scale. | Force platform (OR-6, AMTI, Watertown, MA, USA) with Labview software (National Instruments, Austin, TX, USA). | No. |
CP: cerebral palsy; DCD: developmental coordination disorder; TD: typical development.