M. Engardt, RISING AND SITTING DOWN IN STROKE PATIENTS - AUDITORY-FEEDBACK AND DYNAMIC STRENGTH TRAINING TO ENHANCE SYMMETRICAL BODY-WEIGHT DISTRIBUTION, Scandinavian journal of rehabilitation medicine, 1994, pp. 3-57
The purpose was to study vertical ground reaction force feedback and d
ynamic knee extensor training used to enhance stroke patients' symmetr
ical body weight distribution while rising and sitting down. Sixteen h
ealthy subjects and 51 stroke patients participated in the studies. Tw
o vertical strain gauge force transducers attached to two force-measur
ing platforms were used to measure body weight distribution over the l
ower limbs. An auditory feedback device, specially developed for train
ing body weight distribution on the paretic leg, employed two electron
ic balances sensing vertical forces from each foot, separately. Torque
of maximal voluntary eccentric and concentric knee extensor and flexo
r actions at 30, 60, 120, 180 and 240 deg/s was recorded with an isoki
netic dynamometer together with surface electrodes from the quadriceps
and hamstring muscles. When instructed to rise with even body weight
on each lower limb, the stroke patients loaded the paretic leg more th
an when rising habitually, indicating that stroke patients have a late
nt motor capacity. Stroke patients' own estimations on visual analogue
scales of body weight distributed on the paretic leg correlated with
measured loading of the paretic leg in rising. After six weeks of trai
ning with auditory feedback of vertical ground reaction forces in the
acute phase after stroke, the patients improved their loading of the p
aretic leg compared to a control group. The patients distributed body
weight over the lower limbs nearly symmetrically while rising and whil
e sitting down. The peak torque was not greater, however, than in the
control group, rising with an asymmetrical body weight distribution. T
his implies that the patients after feedback training were better at u
sing the knee extensor torque of the paretic leg to attain symmetrical
body weight distribution over the lower extremities. Changes in impro
vement of physical performance and sitting to standing were greater th
an in the control group. No differences between groups were seen in pe
rformance of activities of daily living. Body weight distribution over
the lower limbs in rising and in sitting down was re-tested on averag
e 33 months after end of training. The symmetrical weight distribution
after feedback training was not maintained over time. Knee extensor s
trength improved after six weeks of eccentric and concentric training,
starting on average 27 months after stroke. The increase in strength
was related to enhanced activation of agonist EMG activity. Eccentric
training seems to be superior to concentric training with reference to
a) improved body weight distribution over the lower limbs in rising,
to b) increased knee extension torque and to c) increased agonist EMG
activity without a concomitant, augmented EMG activity of the antagoni
stic knee flexor muscles. It was concluded that stroke patients have a
latent motor capacity, that six weeks auditory feedback training prom
otes symmetrical body weight distribution which, however, is not consi
stent over time and that isokinetic eccentric training is superior to
concentric training with reference to weight distribution in rising, k
nee extension torque and EMG activity.