卡瓦列蒂架高度对犬类行走速度的影响及其对地面反作用力的意义。

The impact of cavaletti height on dogs' walking speed and its implications for ground reaction forces.

作者信息

Blake Cara A, Looney Andrea L, Merrill Tracie D

机构信息

Central Hospital for Veterinary Medicine, Guilford, CT, United States.

Central Hospital for Veterinary Medicine, North Haven, CT, United States.

出版信息

Front Vet Sci. 2024 Jul 23;11:1419206. doi: 10.3389/fvets.2024.1419206. eCollection 2024.

DOI:10.3389/fvets.2024.1419206

PMID:39109348

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11301751/

Abstract

OBJECTIVE

The objective of this study was to investigate the effects of cavaletti pole height on temporospatial (TPS) and ground reaction force (GRF) variables as compared to a walking gait in healthy dogs.

ANIMALS

A total of 25 client-owned dogs were included in this study.

PROCEDURES

This study used client-owned dogs to explore the effects of cavaletti pole height on TPS and GRF variables. Dogs were first walked over a validated pressure-sensitive walkway (PSW) and then walked over the PSW over which six cavaletti poles were set. Cavaletti pole height was initially set at 2 inches and then increased incrementally to 4 inches, 6 inches, and 8 inches. TPS and GRF variables were obtained for all dogs walking across a PSW without cavaletti poles and at each cavaletti height. TPS variables were then compared to those obtained at a normal walking gait.

RESULTS

Increasing cavaletti height resulted in significant decreases in walking gait velocity and the number of gait cycles per minute. Conversely, significant increases in gait cycle duration (duration of one complete cycle of gait, which includes the time from the initial contact of one paw to the subsequent contact of the same paw) and gait time (duration to walk the total distance on the PSW) were noted. Increases in stance time, normalized maximum force, and normalized vertical impulse were observed.

CONCLUSION AND CLINICAL RELEVANCE

Cavaletti height does influence TPS variables in healthy dogs at a walking gait. The effects were most notable with regard to velocity. Due to the lack of consistent velocity for all cavaletti heights, no conclusions can be drawn regarding the effect of cavaletti height on ground reaction forces. Further investigation is needed to elucidate whether it is the velocity, cavaletti height, or combination of both that impacts ground reaction force variables. When selecting cavaletti pole heights for a therapeutic exercise program, an increase in cavaletti height results in a slower walking gait.

摘要

目的

本研究的目的是调查与健康犬的步行步态相比，卡瓦列蒂杆高度对时空（TPS）和地面反作用力（GRF）变量的影响。

动物

本研究共纳入25只客户拥有的犬。

步骤

本研究使用客户拥有的犬来探究卡瓦列蒂杆高度对TPS和GRF变量的影响。犬首先在经过验证的压敏通道（PSW）上行走，然后在设置了六根卡瓦列蒂杆的PSW上行走。卡瓦列蒂杆高度最初设置为2英寸，然后逐步增加到4英寸、6英寸和8英寸。获取所有犬在没有卡瓦列蒂杆的PSW上行走以及在每个卡瓦列蒂高度行走时的TPS和GRF变量。然后将TPS变量与正常步行步态时获得的变量进行比较。

结果

卡瓦列蒂杆高度增加导致步行步态速度和每分钟步态周期数显著降低。相反，注意到步态周期持续时间（一个完整步态周期的持续时间，包括从一只爪子最初接触到同一只爪子随后接触的时间）和步态时间（在PSW上行走总距离的持续时间）显著增加。观察到站立时间、归一化最大力和归一化垂直冲量增加。

结论及临床意义

卡瓦列蒂杆高度确实会影响健康犬步行步态时的TPS变量。在速度方面影响最为显著。由于所有卡瓦列蒂杆高度下速度不一致，无法就卡瓦列蒂杆高度对地面反作用力的影响得出结论。需要进一步研究以阐明是速度、卡瓦列蒂杆高度还是两者的组合影响地面反作用力变量。当为治疗性运动计划选择卡瓦列蒂杆高度时，卡瓦列蒂杆高度增加会导致步行步态变慢。