+ = anterior placement / – = posterior placement (to the alignment reference line)
Item see fig. 4
Additional adapters (double adapter, socket adapter) can also be
used for height adjustment (see the section "Combination Possibil
ities" – see Page 21).
Bench alignment of the prosthesis: 1E91 Runner Runner, 1E93 Runner
junior
•
see fig. 5
► Please read this document carefully: 647G1145
5.2 Static Alignment
+ = anterior placement / – = posterior placement (to the load line)
Item 1E90 Sprinter: see fig. 6; 1E91 Runner/1E93 Runner junior:
see fig. 7
Required materials and tools:
743L100 L.A.S.A.R. Posture
Prosthetic knee joint, locked (note the section "Use" – see
Page 30)
To determine the load line, position the patient on the L.A.S.A.R.
Posture as follows:
Prosthetic foot on force plate (sufficient load: > 35% body
•
weight)
•
Other foot (with shoe) on height compensation plate
•
The tips of the shoe and prosthetic foot are in one line
Optimise the static alignment exclusively by changing the plantar
flexion on the socket adapter of the foot adapter.
a–p positioning of the alignment reference point (rotation axis of the
prosthetic knee joint) to the load line:
•
1E90 Sprinter:
Beginner: > -80 mm
Advanced: -80 mm
•
1E91 Runner/1E93 Runner junior:
~ 40 mm
5.3 Dynamic Trial Fitting
In the course of dynamic trial fitting, the prosthesis alignment is checked,
plantar flexion is adjusted and flexion damping as well as extension damping
28
Bench Alignment Process
Static Alignment Process