TY - JOUR TI - Altered eye-to-foot coordination in standing parkinsonian patients during large gaze and whole-body reorientations AU - Anastasopoulos, D. AU - Ziavra, N. AU - Savvidou, E. AU - Bain, P. AU - Bronstein, A.M. JO - Movement disorders : official journal of the Movement Disorder Society PY - 2011 VL - 26 TODO - 12 SP - 2201-2211 PB - SN - null TODO - 10.1002/mds.23798 TODO - amantadine; cabergoline; levodopa; pramipexole; trihexyphenidyl, adult; aged; article; body equilibrium; body movement; bradykinesia; clinical article; controlled study; eye movement; female; gait; gaze; head movement; human; kinematics; leg movement; male; nystagmus; Parkinson disease; priority journal; saccadic eye movement; task performance, Adult; Aged; Biomechanics; Eye; Female; Fixation, Ocular; Foot; Gait Disorders, Neurologic; Humans; Inhibition (Psychology); Male; Middle Aged; Movement; Orientation; Parkinsonian Disorders; Posture; Principal Component Analysis; Psychomotor Disorders; Reaction Time TODO - We investigated whether turning problems in Parkinson's disease may be the result of abnormal horizontal multisegmental angular coordination. Ten mildly affected patients and controls stood upright and voluntarily reoriented eyes and body to illuminated targets of eccentricities up to ±180 degrees. The effects of target location, visibility, and predictability on movement parameters were evaluated. Patients' latencies were normal. Control subjects foveated large eccentricity targets with a single gaze shift in approximately 30% of predictable trials. Patients rarely did so (10% of predictable trials) because of reduced head-in-space and trunk velocity. This resulted in massive foveation delays in patients-an average of half a second for displacements of 180 degrees. The covariation of eye, head, and trunk rotations was quantified statistically by means of principal components analysis. In both groups, the combined movement was initially stereotyped and two principal components accounted for nearly all data variance-the original three mechanical degrees of freedom (i.e., eye-head-trunk) are reduced to two kinematic degrees of freedom. However, in patients, the eye contributed more, and the head and trunk less, to the gaze shift than in control subjects. Although the eye-to-foot turning synergy is preserved in early-stage parkinsonism, quantitative differences are prominent, particularly a larger ocular (and smaller head-trunk) contribution in patients. Turning problems in Parkinson's disease do not result from inability to assemble multisegmental movements, as patients' ability to control numerous degrees of freedom is preserved. However, trunk bradykinesia reduces the frequency of single-step gaze shifts, thus prolonging target acquisition time. Preserved eye motion compensates for trunk slowness. © 2011 Movement Disorder Society. ER -