What question did this study set out to answer?

To analyze how lower limb amputees maintain balance compared to able-bodied individuals.

March 16, 2026Open Access

Compensatory Posture Modeling in Lower Limb Amputees

Key Points

To analyze how lower limb amputees maintain balance compared to able-bodied individuals.
Applied controlled perturbations to transtibial and transfemoral amputees and able-bodied controls.
Utilized an inverted pendulum model to assess balance control properties.
Observed participants under both eyes-open and eyes-closed conditions.
Transfemoral amputees showed frequency-specific phase deficits without visual input.
Proprioceptive weights were markedly reduced in amputees compared to controls, despite normal gain magnitudes.
Distinct balance control adaptations were identified in amputees versus able-bodied individuals.

Abstract

The human body maintains balance using somatosensory, visual, and vestibular inputs. Individuals with lower limb amputations experience balance deficits due to reduced feedback, leading to a reorganization of their balance control system. We applied controlled perturbations to transtibial (TTA) and transfemoral amputees (TFA), and able-bodied controls, while an inverted pendulum model was used to analyze balance control properties. TFA participants exhibited frequency-specific phase deficits without vision and markedly reduced proprioceptive weights despite preserved gain magnitudes, even during eyes-open conditions. These results suggest distinct postural control adaptations in amputees compared to controls.

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Compensatory Posture Modeling in Lower Limb Amputees

Key Points

Abstract

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