Biomechanics of BKA

1. Biomechanics of BKA Renee Kitto Port Macquarie Base Hospital

2. Contents • Normal gait • Prerequisites of Normal Gait • Gait characteristics of BKA • Other causes of gait abnormalities

3. Normal gait • Analysing pathological gait, compare to normal • Identifying gait deviation, you can work towards normal gait • Normal gait is the most energy efficient

4. Stance Phase • Begins at heel strike on one leg and ends at toe off on the same leg • Initial contact (heel Strike) • Loading response (0-10%) • Mid-stance (10-30%) • Terminal stance (push off) (30-50%) • Pre swing (toe off) (50-60%)

5. Swing Phase • Begins where stance ends and is the period between toe off on one leg and heel strike on the same leg • Initial swing (60-73%) • Mid-swing (73-87%) • Terminal-swing (87-100%)

6. Prerequisites of normal gait • Stability in Stance • Clearance in swing • Pre-position of the foot in terminal swing • Adequate step length • Energy conservation

7. Gait characteristics • BKA gait is asymmetrical

8. Gait Characteristics • Temporal and distance factors • Stance phase shorter on prosthetic side • Step length of the prosthetic side longer and faster • Self selected walking velocity is lower • Decreased Cadence • Average stride length is shorter

9. Gait Characteristics • Joint Angles • Decreased knee flexion (prosthetic side) during early stance • Decreased knee flexion (prosthetic side) during late stance • Larger relative knee angle range on the prosthetic side compared to the unaffected side • Greater than normal positions of maximum hip flexion (prosthetic side) • Increased knee flexion (unaffected side) during early stance

10. Gait Characteristics • Joint moments • Unaffected side • Higher hip extensor moment during stance • Higher hip flexor moment during early swing • Higher knee extension moment during stance • Prosthetic side • Ankle D/F moment longer in duration and larger in amplitude during early stance

11. Gait Characteristics • Joint Power • Heel Contact (unaffected side) • Increased hip extensor activity (unaffected side) • Heel Contact (prosthetic side) • Increased hip abductor activity (unaffected side) • Increased knee extensor activity (unaffected side) • Increased hip extensor muscle bursts on both sides

12. Gait Characteristics • Joint Power • Midstance • Increased hip abductor activity (prosthetic side) • Push-off • Increased hip flexor power generation (prosthetic side)

13. Other causes of gait abnormalities • Prosthesis • Patients capability and general condition • Shape, length and size of the residual limb • Discomfort • Inadequate or incorrect re-education • Psychological, social or economic reasons

14. References • Bateni, H et al (2002) Kinematic and Kinetic Variations of Below-Knee Amputee Gait. Journal of Prosthetics and Orthotics, 14, 2-10. • Engstrom, B&, Van de Ven, C (1999) Therapy for Amputees. London: Churchill Livingstone., 115-136. • Robinson, J et al (1977) Accelerographic, Temporal, and Distance Gait Factors in Below-Knee Amputees. Physical Therapy, 57, 898-904.

15. References • Sadeghi, H et al (2001)Muscle Power Compensatory Mechanisims in Below- Knee Amputee Gait. American Journal of Physical Medicine and Rehabilitation, 80, 25-32. • Ruud, W et al (2004) Adaptions to Mass Perturbations in Transtibial Amputees: Kinetic or Kinematic Invariance. Archives of Physical Medicine and Rehabilitation, 85, 2046-2052.