Transtibial amputee gait with the unity suspension system.

Study Design: Experimental study.Objectives: Research is lacking on the Unity suspension system's effect on gait performance. The purpose of this study was to evaluate the effects of the Unity elevated vacuum system on level walking performance while the vacuum was active (ON) and inactive (OFF).Methods: Twelve unilateral transtibial amputees were fit with the Ossur elevated vacuum suspension system (Unity) and Pro-flex XC foot. After one month accommodation period, 3D motion analysis was performed using the CAREN-Extended system. Temporal-spatial, kinematics, and kinetics were examined during level walking to understand the effect of the elevated vacuum, separate trials were completed with the vacuum active (ON) or inactive (OFF).Results: Significant differences were found between vacuum conditions (ON and OFF) for some temporal-spatial gait parameters, but differences were very small and may not be clinically significant. Differences between vacuum conditions on most kinetic and kinematic gait parameters were also low. However, step length symmetry between intact and prosthetic limbs improved with active elevated vacuum (ON).Conclusions: Elevated vacuum suspension's effect on level walking gait is small if a well-fitting liner-based socket is provided.Implications for rehabilitationStep length symmetry between intact and prosthetic limbs improved with an active vacuum system.Differences between vacuum conditions on most gait parameters were small during level walking.Subjective feedback showed improved proprioception and comfort with an active vacuum system.

A trans-femoral brim adapter for CAD CAM measurements.

A computer aided design/computer aided manufacture (CAD CAM) brim measurement adapter was designed for use with a Berkeley casting stand. This measurement adapter accommodates all IPOS/CANFIT-PLUS transfemoral brim sizes and shapes, allows brim positioning, provides adequate stability, and provides a substantial cost saving by using existing, functional hardware as a base.

Gait evaluation of a transfemoral prosthetic simulator.

OBJECTIVE: To test a prosthetic simulator developed to allow persons without amputation to walk like a person with a transfemoral (TF) amputation. PATIENTS: Five able-bodied subjects; comparison with data from the literature on persons with TF amputations. SETTING: Motion analysis laboratory. DESIGN: Two 45- to 60-minute gait training sessions before subjects walked along a 10-meter walkway. There were 6 trials: 3 walking with a cane, 3 without a cane. MAIN OBJECTIVE MEASURES: Sagittal plane kinematic and kinetic analysis of ankle, knee, and hip: angular velocity, joint moment, and power. RESULTS: Kinematic and kinetic analyses showed that joint mechanics during walking were similar between the test subjects and comparative results from persons with TF amputations (reported in the literature). Test subjects walked slower and moved their hip and knee joints faster (higher angular velocity values during the terminal swing) than the TF amputee subjects, although these results were not statistically significant (p < .05). These findings were consistent with new prosthetic users who are more tentative during gait training. However, a perfect simulation would show no difference in kinematic results. CONCLUSION: These results support the use of a TF prosthetic simulator to help health care professionals experience the process of fitting the prosthesis from the client's perspective.