Getting back to the theme of this thread, a thread about pedaling technique, as I come to think about it more the Kautz, et. al. paper seems quite important to me but it gets short shrift. What did this paper do?
1. It identified three different basic pedaling styles. I have included Figure 5(a) of the three different riders that the authors felt best illustrated these three styles.
2. Despite these three groups having substantially different pedaling styles all three groups tended to modify their style in the same way as load increased without changing their basic style.
3. These three styles are the same styles seen in the Coyle paper but not identified by them because their analysis was different.
These findings should naturally lead to several follow-on questions.
1. What is it that caused these elite cyclists to develop three different pedaling styles. Is it ingrained in our genes or does it come about from our training experience?
2. Why do all three groups tend to modify their pedaling style in the same fashion as the load increases? The fact this modification is the same across all three groups suggests there is an advantage to this modification that all tried to utilize. What is this advantage? Would the advantage be there still if applied to lesser loads?
3. What differences in these groups can account for the development of these different pedaling styles?
4. Are there any differences discernable between these styles that suggest an advantage for one over another?
Anyhow, it seems to me this paper gets totally ignored when it really contains some very interesting information.
From the conclusion of the Kautz, et. al. paper:
“A second finding of this study was the negative torque present during the upstroke at the low workload was either reduced to negligible magnitude or reversed to a positive (propulsive) torque at the high workload. …
Our findings are positive values of (normal force) over much of the upstroke (although not large enough to do significant work) represents a finding that differs from the consensus of the literature (citations). In comparing our data with the literature the conditions (90 RPM and 123 single leg watts) of our low workload were very similar to those (90 RPM and 235 W) of McLean and Lafortune (1988). …
Because of the similarity of our data and that from other studies collected under similar conditions, we feel that the character of the positive torque produced by our subjects does reflect their pedaling technique under conditions simulating competition. Our data show that while negative torque occurs at a low workload, positive normal forces appear for some subjects as the workload increases to a high level. Because positive normal forces appear mainly at the high work load, we feel that one reason may be other studies failed to show them was in part because the studies did not collect data at a high enough workload.…
Further study is needed to determine the biomechanical techniques employed by elite cyclists. Given the variability shown in the pedaling technique data among the subjects in this study, it is not unreasonable to hypothesize that performance differences between elite subjects could in part be related to biomechanical differences. However, pedaling technique data alone cannot provide enough information to observe these performance differences. Since pedaling technique is merely the output of a complex biomechanical system, further investigations must integrate pedaling technique data with the kinematics and dynamics of the lower extremities during cycling."
1. It identified three different basic pedaling styles. I have included Figure 5(a) of the three different riders that the authors felt best illustrated these three styles.
2. Despite these three groups having substantially different pedaling styles all three groups tended to modify their style in the same way as load increased without changing their basic style.
3. These three styles are the same styles seen in the Coyle paper but not identified by them because their analysis was different.
These findings should naturally lead to several follow-on questions.
1. What is it that caused these elite cyclists to develop three different pedaling styles. Is it ingrained in our genes or does it come about from our training experience?
2. Why do all three groups tend to modify their pedaling style in the same fashion as the load increases? The fact this modification is the same across all three groups suggests there is an advantage to this modification that all tried to utilize. What is this advantage? Would the advantage be there still if applied to lesser loads?
3. What differences in these groups can account for the development of these different pedaling styles?
4. Are there any differences discernable between these styles that suggest an advantage for one over another?
Anyhow, it seems to me this paper gets totally ignored when it really contains some very interesting information.
From the conclusion of the Kautz, et. al. paper:
“A second finding of this study was the negative torque present during the upstroke at the low workload was either reduced to negligible magnitude or reversed to a positive (propulsive) torque at the high workload. …
Our findings are positive values of (normal force) over much of the upstroke (although not large enough to do significant work) represents a finding that differs from the consensus of the literature (citations). In comparing our data with the literature the conditions (90 RPM and 123 single leg watts) of our low workload were very similar to those (90 RPM and 235 W) of McLean and Lafortune (1988). …
Because of the similarity of our data and that from other studies collected under similar conditions, we feel that the character of the positive torque produced by our subjects does reflect their pedaling technique under conditions simulating competition. Our data show that while negative torque occurs at a low workload, positive normal forces appear for some subjects as the workload increases to a high level. Because positive normal forces appear mainly at the high work load, we feel that one reason may be other studies failed to show them was in part because the studies did not collect data at a high enough workload.…
Further study is needed to determine the biomechanical techniques employed by elite cyclists. Given the variability shown in the pedaling technique data among the subjects in this study, it is not unreasonable to hypothesize that performance differences between elite subjects could in part be related to biomechanical differences. However, pedaling technique data alone cannot provide enough information to observe these performance differences. Since pedaling technique is merely the output of a complex biomechanical system, further investigations must integrate pedaling technique data with the kinematics and dynamics of the lower extremities during cycling."
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