HBM's T&M technology helps answer the question: do collars affect dogs' gait?

23 October 2018

HBM have provided their U9C electronic strain gauges and their T&M software for Hartpury College and University Centre, who recently undertook a study into any links between canine gait and force exerted on a lead in a collar and harness.

Considering the vast range of roles that dogs fulfil, it is important for dog owners to utilise the array of equipment available to help with these roles, such as collars and harnesses. This is not only from a practical point of view, but is part of a legal requirement, too.

While such mandatory restraints provide the dog with the ability to move freely without pain whilst giving the handler control over it, it does not account for any unseen or unaccounted-for force that the animal might be facing.

As part of Hartpury College’s research to identify whether there is a significant difference in the gait of a dog when it is exercised (again, under restraint), and to analyse the degree of force exerted on the lead by both the handler and the dog, the institution specified the U9C strain gauge series from HBM – to collect data on the amount of force experienced at the site of the dog’s restraint.

The compact and cost-effective U9C series reliably measures tensile and compressive force where space is a constraint. Enabling dynamic and static measurement tasks to be solved, its high-fundamental frequency also makes it suitable for very fast measurements. Manufactured in stainless steel and featuring a welded design, the U9C is a robust sensor for challenging applications.

By incorporating strain gauges onto the dog’s harness and lead, Hartpury College were successfully able to achieve the desired measurements for both the dog and the handler. To make the design more robust, the transducer was sewn into a one meter lined fleece which enabled the gauge to be fixed to the D ring of the collar or harness.

This gauge was then connected to a four port express data acquisition, which was connected via USB to a laptop.

With the strain gauge and lead attached to the collar, the handlers walked and trotted dogs, and the process was then repeated with dogs wearing a harness instead.

Catman data acquisition software (DAQ) also supplied by HBM, provided the data from both the handler and the dog in numeric data (Hz) pull from each of the trials. This enabled the raw data to be transferred to a spreadsheet and analysed with SPSS statistical analysis software.

The results collated from the study proved that, using the particular types of collars and harnesses that the study used, there is in fact no difference in gait when the dog is travelling while in a harness.

The study did, however, conclude that the force exerted to the neck and throat via the collar is more localised, having the potential to cause damage or exacerbate existing injuries. On the other hand, when the dog wears a harness, the force exerted is distributed over a larger area, therefore reducing the impact of the force.

HBM’s collected data can be used by concerned pet owners to make a more educated decision.

For further information, visit the HBM website: www.hbm.com, or email info@uk.hbm.com.

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