Objective: To identify quantitative parameters that are sensitive enough to detect impairments and improvements of grasping in children after traumatic brain injury (TBI) by analyzing the isometric fingertip forces of a precision grip-lift task.
Design: Follow-up and case-control study.
Setting: Tertiary pediatric trauma rehabilitation center in Germany.
Participants: Thirteen children (age range, 5-14 y) with moderate or severe TBI. Trauma severity was assessed with the Glasgow Coma Scale (score range, 3-9) and the Injury Severity Score (range, 16-66 points). Control data were obtained from 13 age- and gender-matched healthy children.
Interventions: Not applicable.
Main outcome measures: Children were examined 3 times (t0, t1, t2). The first date of examination (t0) was defined by the Barthel Index (part B, >20 points). Reexaminations followed after 1 (t1) and 5 (t2) months of inpatient rehabilitation. Quantitative measures included 3 grip-force parameters, 2 load force parameters, 1 parameter of the coordination between grip force and load force, and 3 timing parameters in a precision grip-lift task. Clinical improvements and recovery of activities of daily living were described with the Barthel Index (qualitative measure).
Results: Peak grip force, maximum negative load force, grip force in the static phase and its standard deviation, and grip-force/load-force ratio at maximum grip force showed significant improvements during the observation period (5 mo). Also, the preparation phase and preload duration, but not the load duration, changed significantly.
Conclusions: Impairments and the recovery of grasping in children after TBI can be objectified with quantitative analyses of the precision grip. Several grip-force and timing parameters were sensitive for the description of restitution processes.