Casado, ArturoTuimil, José LuisIglesias, XavierFernández-del-Olmo, MiguelJiménez Reyes, PedroMartín Acero, RafaelRodríguez, Ferrán A.2023-01-052023-01-052022-10-05Casado A, Tuimil JL, Iglesias X, Fernández-del-Olmo M, Jiménez-Reyes P, Martín-Acero R, Rodríguez FA. 2022. Maximum aerobic speed, maximum oxygen consumption, and running spatiotemporal parameters during an incremental test among middle- and long-distance runners and endurance non-running athletes. PeerJ 10:e14035 https://doi.org/10.7717/peerj.140352167-8359http://hdl.handle.net/2183/32300[Abstract] Background. Maximal aerobic speed (MAS) is a useful parameter to assess aerobic capacity and estimate training intensity in middle- and long-distance runners. However, whether middle- and long-distance runners reach different levels of MAS compared to other endurance athletes with similar VO˙ 2max has not been previously studied. Therefore, we aimed to compare VO˙ 2max, MAS and spatiotemporal parameters between sub-elite middle- and long-distance runners (n = 6) and endurance non-runners (n = 6). In addition, we aimed to compare the maximal blood lactate concentration [BLa] experienced by participants after conducting these tests. Methods. Telemetric portable respiratory gas analysis, contact and flight time, and stride length and rate were measured using a 5-m contact platform during an incremental test at a synthetic athletics track. VO˙ 2, heart rate, respiratory quotient values in any 15 s average period during the test were measured. [BLa] was analyzed after the test . Running spatiotemporal parameters were recorded at the last two steps of each 400 m lap. A coefficient of variation (%CV) was calculated for each spatiotemporal variable in each participant from 8 km h−1 onwards. Results. Whereas runners reported faster MAS (21.0 vs. 18.2 km h−1 ) than nonrunners (p = 0.0001, ES = 3.0), no differences were found for VO˙ 2max and maximum blood lactate concentration during the running tests (p > 0.05). While significant increases in flight time and stride length and frequency (p < 0.001, 0.52 ≤ η 2 p ≤ 0.8) were observed throughout the tests, decreases in contact time (p < 0.001, η 2 p = 0.9) were reported. Runners displayed a greater %CV (p = 0.015) in stride length than nonrunners. We conclude that middle- and long-distance runners can achieve a faster MAS compared to non-running endurance athletes despite exhibiting a similar VO˙ 2max. This superior performance may be associated to a greater mechanical efficiency. Overall, runners displayed a greater ability to modify stride length to achieve fast speeds, which may be related to a more mechanically efficient pattern of spatiotemporal parameters than non-runners.engAtribución 3.0 Españahttp://creativecommons.org/licenses/by/3.0/es/KinesiologyRespiratory MedicineBiomechanicsSports MedicineMaximal oxygen uptakePerformanceMaximal aerobic speedRunningSpatiotemporal parametersjournal articleopen access