Shoe configuration effects on equine forelimb gait kinetics at a walk.

IF 2.4 3区生物学 Q2 MULTIDISCIPLINARY SCIENCES PeerJ Pub Date : 2025-02-26 eCollection Date: 2025-01-01 DOI:10.7717/peerj.18940

Rita Aoun, Zaneta Ogunmola, Anaïs Musso, Takashi Taguchi, Catherine Takawira, Mandi J Lopez

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Abstract

The shift in vertical forces on the equine hoof surface by heart-bar, egg-bar, and wooden clog shoes can significantly impact gait kinetics. Hypotheses tested in this study were that vertical, braking, and propulsion peak force (PF) and impulse (IMP) are different while shod with heart-bar, egg-bar, open-heel, and wooden clog shoes, or while unshod, and the resultant ground reaction force vector (GRF _YZ ) has the longest duration of cranial angulation with open-heel shoes followed by unshod, then egg-bar and heart-bar shoes, and the shortest with wooden clog shoes. Forelimb GRFs were recorded as six non-lame, light-breed horses walked across a force platform (four trials/side) while unshod or with egg-bar, heart-bar, open-heel, or wooden clog shoes. Outcomes included vertical, braking, and propulsive peak forces (PF_V, PF_B, PF_P) and impulses (IMP_V, IMP_B, IMP_P), percent stance time to each PF, braking to vertical PF ratio (PF_B/PF_V), walking speed (m s^-1), total stance time (ST) and percent of stance in braking and propulsion. The magnitude and direction of the resultant GRF_YZ vectors were quantified at 5% stance increments. Kinetic measures were compared among shoeing conditions with a mixed effects model (p-value < 0.05). A random forest classifier algorithm was used to predict shoeing condition from kinetic outcome measures. All results are reported as mean ± SEM. Trial speed, 1.51 ± 0.02 m s^-1, was not different among shoeing conditions. The PF_V was lower with wooden clog (6.13 ± 0.1 N kg^-1) versus egg-bar (6.35 ± 0.1 N kg^-1) shoes or unshod (6.32 ± 0.1 N kg^-1); the PF_P was higher with wooden clog (0.81 ± 0.03 N kg^-1) versus open-heel (0.71 ± 0.03 N kg^-1) or egg-bar (0.75 ± 0.03 N kg^-1) shoes or unshod (0.74 ± 0.03 N kg^-1), and lower with open-heel compared to heart-bar shoes (0.77 ± 0.03 N kg^-1). Both IMP _B and IMP_V were higher with open-heel shoes (-0.19 ± 0.008 N s kg^-1, 3.28 ± 0.09 N s kg^-1) versus unshod (-0.17 ± 0.008 N s kg^-1, 3.16 ± 0.09 N s kg^-1), and IMP_V was higher with wooden clog shoes (3.26 ± 0.09 N s kg^-1) versus unshod. With wooden clog shoes, PF_B/PF_V (0.12 ± 0.004) was higher than unshod (0.11 ± 0.004). Percent time to peak PF_V, PF_B, and PF_P, and percent braking time were highest and percent propulsion time lowest with wooden clog shoes. The magnitude of the GRF_YZ vector with the wooden clog shoe was the highest among shoeing conditions during the first stance half, lowest during the second stance half, highest during late propulsion, and had the most gradual braking to propulsion transition. Vectors were angled cranially with wooden clog shoes slightly longer than the others. Wooden clog shoes was the only shoeing condition accurately predicted from kinetic measures. Distinct, predictable changes in gait kinetics with wooden clog shoes may reduce stresses on hoof structures. Study results enhance knowledge about shoe effects on equine gait kinetics and cutting-edge measures to quantify them.

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马蹄形对马前肢步态动力学的影响。

马蹄铁、蛋棒和木屐鞋对马蹄表面垂直力的影响可以显著影响步态动力学。本研究检验的假设是，穿心跟鞋、鸡蛋棒鞋、开跟鞋和木屐鞋与不穿鞋时，垂直、制动和推进峰值力（PF）和冲量（IMP）是不同的，并且合成的地面反作用力矢量（GRF YZ）在穿开跟鞋时颅骨成角持续时间最长，其次是不穿鞋，然后是鸡蛋棒鞋和心脏棒鞋，而穿木屐鞋时最短。前肢GRFs记录为六匹非跛脚的轻型马在不穿鞋或穿蛋棒、心棒、露跟或木屐的情况下走过一个受力平台（四组/侧）。结果包括垂直，制动和推进峰值力（PFV， PFB， PFP）和脉冲（IMPV， IMPB， IMPP），每个PF的站立时间百分比，制动与垂直PF的比率（PFB/PFV），步行速度（m s-1），总站立时间（ST）以及制动和推进时的站立百分比。所得GRFYZ矢量的大小和方向以5%的姿态增量进行量化。不同穿鞋条件间动力学指标比较采用混合效应模型（p值< 0.05）。使用随机森林分类器算法从动态结果测量中预测穿鞋状况。所有结果以平均值±SEM报告。试验速度为1.51±0.02 m s-1，不同穿鞋条件下试验速度无显著差异。木屐鞋的PFV（6.13±0.1 N kg-1）低于蛋棒鞋（6.35±0.1 N kg-1）或不穿鞋（6.32±0.1 N kg-1）；木屐鞋的PFP（0.81±0.03 N kg-1）高于露跟鞋（0.71±0.03 N kg-1）、蛋棒鞋（0.75±0.03 N kg-1）或不穿鞋（0.74±0.03 N kg-1），露跟鞋的PFP低于心棒鞋（0.77±0.03 N kg-1）。穿露跟鞋的IMP B和IMPV均高于不穿鞋的IMP B和IMPV（分别为-0.19±0.008 N s kg-1、3.28±0.09 N s kg-1），分别为-0.17±0.008 N s kg-1、3.16±0.09 N s kg-1)，而穿木屐鞋的IMP B和IMPV均高于不穿鞋的IMP B和IMPV（3.26±0.09 N s kg-1）。穿木屐鞋时，PFB/PFV（0.12±0.004）高于不穿木屐鞋时（0.11±0.004）。穿木屐鞋时，达到PFV、PFB和PFP峰值的时间百分比和制动时间百分比最高，推进时间百分比最低。木屐鞋的GRFYZ矢量在前半站时最大，后半站时最小，后期推进时最大，从制动到推进的过渡最缓慢。向量是用比其他稍微长一点的木屐鞋在颅骨上倾斜的。木底鞋是唯一能从动力学测量中准确预测的穿鞋状态。明显的，可预测的变化步态动力学与木屐可能会减少蹄结构的压力。研究结果增强了对马步态动力学的鞋效应和量化它们的前沿措施的认识。

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来源期刊

PeerJ MULTIDISCIPLINARY SCIENCES-

CiteScore

4.70

自引率

3.70%

发文量

1665

审稿时长

10 weeks

期刊介绍： PeerJ is an open access peer-reviewed scientific journal covering research in the biological and medical sciences. At PeerJ, authors take out a lifetime publication plan (for as little as $99) which allows them to publish articles in the journal for free, forever. PeerJ has 5 Nobel Prize Winners on the Board; they have won several industry and media awards; and they are widely recognized as being one of the most interesting recent developments in academic publishing.