Lower limb prosthesis users are known to be at a substantially increased fall risk compared to able-bodied individuals. The interaction between increased fall risk, reduced balance confidence and high prevalence of a fear of falling often leads to restricted mobility and loss of independence. Critically, the cause of these falls and the role that inherent balance plays in fall risk is poorly understood. This study proposes to identify key differences in balance and mobility between older below-knee prosthesis users and able-bodied individuals. By further understanding the differences between these groups and relationships between fall risk and various outcome measures, intervention techniques can be developed to improve functional balance. An improvement in upright balance will reduce the occurrence of falls and fall related injuries in this veteran population, as well as increase their participation in daily activities and improve their quality of life.
Previous studies have shown that persons with transtibial amputations (TTA) are at a substantially increased risk of falling as compared to able-bodied age-matched controls and have reduced confidence in their balance, both contributing to their restricted mobility and daily activity. This risk increases with progressing age, as aging affects musculoskeletal and somatosensory systems that are vital to controlling upright balance (i.e., maintaining the body center-of-mass (BCoM) within the limits of the base-of-support) and are already compromised in persons with TTA. An important consequence of elevated fall incidence is an increased risk of fall-related injuries that may lead to lost participation and independence. The effects of reduced sensory-motor function on upright balance in older adults has been extensively studied and led to development of effective assessment tools and intervention strategies to minimize fall risk. However, the dearth of similar studies and relatively poor understanding of the effects of additional complications from TTA on upright balance have significantly hampered progress towards addressing this important concern for Veterans with TTA. Consequently, this limits knowledge of predictive factors of falls among these prosthesis users and for informing therapeutic interventions that enhance functional balance. Therefore, the primary objective of this research is to develop an improved understanding of the sensory-motor mechanisms underlying upright balance and fall risk in older Veterans with TTA. The proposed study will compare differences between two age- and gender-matched groups: 1) older unilateral prosthesis users and 2) able-bodied controls.
Study Type
OBSERVATIONAL
Enrollment
23
Jesse Brown VA Medical Center, Chicago, IL
Chicago, Illinois, United States
Foot's Height During the Swing Phase of Walking (i.e., Foot Clearance) Measured in Centimeter
Foot clearance of self-selected normal and fast speed walking, calculated as the distance (cm) between the toe and ground as measured with an optical motion capture system.
Time frame: 1 month
Center of Pressure Sway Area During Eyes Open or Closed as Measured Through a Force Plate During Standing and Calculated as Centimeters Squared
Center of pressure sway area during eyes open or closed, calculated as the area (cm\*cm) covered by the center of pressure position during standing as measured with a force plate.
Time frame: 1 month
Gait Muscle Activation Effort as Measured by Sensors and Integrating Measured Voltage With Respect to Time as to be Calculated as Millivolts Times Seconds
Integrated Electromyography patterns of leg muscles during self-selected normal and fast speed walking as a proxy measure of muscle effort, calculated from integrating the muscle activity measured by sensors as voltage over time (mv\*sec)
Time frame: 1 month
Falls
Number of falls during 12 months prospectively
Time frame: 1 year
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.