One of the realizations we noted studying ski racers for 50-plus years and performing alignment assessments for 40 years is the differences in bone curves and how they influence skiing biomechanics.
For the layman all you have to do is look at this photo to see the curve in the shin; this is a high tib-fib varum. Few experts, even those that deal with anatomy or foot alignment like podiatrists, differentiate between this curve and the standard bowed legs. Both are curves in the shin however in skiing they have and should be addressed differently for optimizing boot setup or alignment.
In this photo, the knee mass is lined up with the ski edge rather than with the center of the foot. As the suits and ski pants became tighter in fit around the lower leg and shin, leg curves become more apparent. Not all shin curves are the same and they all affect your skiing technique and ability to hold an edge differently. You might even say that there is a certain predisposed natural selection for success based on an ideal leg curve for ski racing. Going back as far as Pirmin Zurbriggen, his high tibial varum was obvious to us and so was his skiing success, that correlation repeats itself with a high percentage of successful ski racers.
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| The biggest part of this curve is near the top of the shin. |
A perfect example is Erick Schlopy, a bronze medalist at the world championships. His high tib-fib varum needed no under-boot canting and only slight cuff adjustment. However, due to his rigid strong foot and ankle, our boot board modifications significantly improved his edging ability.
This type of optimization requires a complete assessment of all functioning moving parts that influence skiing. The ankle and foot lateral inversion and eversion movement capability and the ski boot's influence on foot/ankle movement included, including all of these measurements must be taken into account before adjustments can be finalized.
This is an example of the commonly understood bowlegged low-shin curve anatomy.
