Mariana V. Jacobs scite author profile

Mariana V. Jacobs

4Publications

48Citation Statements Received

67Citation Statements Given

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Affiliations

Utrecht University, Evalf Computing (Netherlands)

Publications

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In vitro transmission and attenuation of impact vibrations in the distal forelimb

Willemen

Jacobs

Schamhardt

1999

Equine Veterinary Journal

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Summary An in vitro model was developed and validated in vivo to quantify the attenuation of impact vibrations, transmitted through the lower equine forelimb and to assess the effects of horseshoeing on this attenuation. The transsected forelimbs of 13 horses were equipped with custom‐made hollow bone screws in the 4 distal bones, on each of which a tri‐axial accelerometer could be mounted. The limbs were then preloaded while the impact was simulated by dropping a weight on the steel plate on which the hoof was resting. At the hoof wall, the distal, middle and proximal phalanx and at the metacarpal bone, the shock waves resulting from this impact were quantified. To assess the damping effects of shoeing, measurements were performed with unshod hooves, hooves shod with a normal flat shoe and hooves shod with an equisoft pad and a silicone packing between hoof and pad. The in vitro model was validated by performing in vivo measurements using one horse, and subjecting the limb of this horse to the same in vitro measurements after death. Approximately 67% of the damping of impact vibrations took place at the interface between the hoof wall and the distal phalanx. The attenuation of impact vibrations at the distal and proximal interphalangeal joints was considerably less (both 6%), while at the metacarpophalangeal joint 9% of the amplitude of that at the hoof wall was absorbed, leaving approximately 13% of the initial amplitude at the hoof wall detectable at the metacarpus. Compared to unshod hooves the amplitude at the hoof wall is 15% higher in shod hooves. No differences could be observed between shoe types. At the level of the first phalanx and metacarpus the difference between shod and unshod vanished; it was therefore concluded that, although shoeing might influence the amplitude of impact vibrations at the hoof wall, the effect of shoeing on the amplitude at the level of the metacarpophalangeal joint is minimal.

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Biomechanical effects of rocker‐toed shoes in sound horses

Willemen

Savelberg

Jacobs

et al. 1996

Veterinary Quarterly

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Summary In many Western European countries rocker-toed shoes are applied routinely in sound horses. This is in contrast to most Anglo-Saxon countries where rocker-toed shoes are used almost exclusively for corrective or orthopaedic shoeing. The purposes of rocker-toed shoes are to hasten or facilitate breakover, or to encourage breakover to occur at the centre of the toe. This study compares the biomechanical effects of rocker-toed shoes with standard flat shoes in twelve sound Dutch warmblood horses, using a modified CODA-3 gait analysis system and a force plate. The variables analysed were speed of breakover, the moment of force in the coffin joint which is related to the 'ease' of breakover, the flight arc of the hoof in the sagittal and horizontal planes and some more general linear, temporal and angular stride characteristics. No differences between rocker-toed shoes and standard flat shoes were found with respect to the duration or ease of breakover or the proximity of breakover to the centre of the toe. It is concluded that rocker-toed shoes do not influence the stride characteristics of sound Dutch warmblood horses, and the findings of this study showed no objective grounds for the use of rocker-toed shoes in sound horses. This study was financially supported by Interpolis Paardenverzekeringen.

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Automated pose estimation reveals walking characteristics associated with lameness in broilers

et al. 2023

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First Metatarsophalangeal Joint Sprain (Turf Toe)

Casillas¹,

Jacobs²

2018

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Mariana V. Jacobs

In vitro transmission and attenuation of impact vibrations in the distal forelimb

Biomechanical effects of rocker‐toed shoes in sound horses

Automated pose estimation reveals walking characteristics associated with lameness in broilers

First Metatarsophalangeal Joint Sprain (Turf Toe)

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