不同马蹄铁和地面衬底对慢步时中间站立阶段蹄部方位的影响。

The influence of different horseshoes and ground substrates on mid-stance hoof orientation at the walk.

机构信息

Department of Clinical Sciences, New Bolton Center, University of Pennsylvania, Kennett \Square, Pennsylvania, USA.

Faculty of Kinesiology, University of Calgary, Calgary, Alberta, Canada.

出版信息

Equine Vet J. 2024 May;56(3):598-606. doi: 10.1111/evj.13990. Epub 2023 Aug 17.

DOI:10.1111/evj.13990

PMID:37589397

Abstract

BACKGROUND

Horseshoes with modified contact surfaces combined with deformable ground substrates are used to change hoof orientation during mid-stance, for example, for therapeutic reasons.

OBJECTIVES

To measure the effect of horseshoes and ground substrates on sagittal and transverse plane hoof orientation at mid-stance using a dorsal hoof wall mounted triaxial accelerometer.

STUDY DESIGN

In vivo experiment, randomised crossover design.

METHODS

Differences in sagittal and transverse plane angles between standing and mid-stance of the left front hoof of six horses walking with regular horseshoes, egg bar, toe-wide, medial-wide, lateral-wide and three-degree egg bar shoes on turf, sand and hard ground substrates were assessed with linear mixed models with horseshoe and substrate type as fixed factors (p < 0.05) for each animal.

RESULTS

Hoof angles were significantly affected by horseshoe (p < 0.001), surface (p < 0.001) and the combination (p < 0.001). The sagittal plane angle increased in deformable ground substrates at walk-in mid-stance on turf [mean (±standard deviation): 2.6° (±3.8°)] and on sand [2.6° (±4.1°)] across all shoes. The greatest increase was observed with egg bar shoes [turf: 4.37° (±3.82°); sand 4.69° (±3.83°)]. There was a tendency for the hoof to sink laterally into deformable ground substrates among all shoes [turf: 1.11° (±1.49°); sand: 0.93° (±1.93°)]. Medial-wide shoes increased the lateral sinking [turf: 2.00° (±1.63°); sand: 1.79° (±1.58°)]. Lateral-wide shoes reduced the lateral sinking on turf [0.62° (±1.26°)] and induced a marginal medial sinking on sand [-0.007° (±2.03°)].

MAIN LIMITATIONS

The substrate properties were not quantitatively assessed, and observations were limited to front hooves at the walk. A larger sample size would be preferable.

CONCLUSIONS

Mid-stance hoof orientation changes with specific combinations of shoes and ground substrates in the walking horse.

摘要

背景

马蹄铁与改良的接触面结合可变形的地面衬底用于在中驻留期间改变马蹄的方向，例如出于治疗原因。

目的

使用安装在蹄壁上的三轴加速度计测量马蹄铁和地面衬底对中驻留期间矢状面和横断面上马蹄方位的影响。

研究设计

体内实验，随机交叉设计。

方法

在六匹马行走时，用常规蹄铁、蛋形蹄铁、趾宽蹄铁、内宽蹄铁、外宽蹄铁和三度蛋形蹄铁在草坪、沙和硬地衬底上测量左前蹄站立和中驻留之间的矢状面和横断面上的角度差异，线性混合模型用于分析，蹄铁和衬底类型为固定因素（p<0.05）。

结果

蹄铁（p<0.001）、表面（p<0.001）和组合（p<0.001）显著影响马蹄角度。在草坪（平均[±标准差]：2.6°[±3.8°]）和沙（2.6°[±4.1°]）上，所有蹄铁在可变形地面衬底上的矢状面角度在步行进入中驻留时增加。蛋形蹄铁观察到的增加最大[草坪：4.37°（±3.82°）；沙：4.69°（±3.83°）]。所有蹄铁在可变形地面衬底上都有向外侧下沉的趋势[草坪：1.11°（±1.49°）；沙：0.93°（±1.93°）]。内侧宽蹄铁增加了外侧下沉[草坪：2.00°（±1.63°）；沙：1.79°（±1.58°）]。外侧宽蹄铁减少了草坪上的外侧下沉[0.62°（±1.26°）]，并在沙地上引起了边缘内侧下沉[-0.007°（±2.03°）]。