Pododermal angioarchitecture in the equine hoof wall: A light and scanning electron microscopic study of the wall proper

Sievers, Henrieke; Hiebl, Bernhard; Hünigen, Hana; Hirschberg, R. M.

doi:10.3233/ch-199233

Cited by 2 publications

(2 citation statements)

References 61 publications

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“…An area of increased temperature was detected in the area of the frog, consequence of the distal arteries that supply the navicular area [ 6 ] where the blood supply can decrease as a result of thrombosis of the distal arterioles that supply the navicular bone, leading to pain and ischemic necrosis [ 34 ]. Along the hoof wall surface hoof print, the temperature distribution was different, showing areas of increased temperature probably due to the adaptation of blood vessels to the weight-bearing forces transferred to the microvasculature of the pododerma [ 35 ]. No areas of increased temperature were observed in the toe region considering the fact that in non-lame horses the support on the ground is achieved with the entire hoof and in palmar foot pain the support on the ground is sustained by the toe instead of the caudal part of the foot [ 33 , 36 ].…”

Section: Discussionmentioning

confidence: 99%

Thermographic Image of the Hoof Print in Leisure and Cross-Country Warmblood Horses: A Pilot Study

Zaha¹,

Schüszler²,

Dascălu³

et al. 2023

Veterinary Sciences

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Background: The field of veterinary medicine lacks information on equine thermal hoof printing, and few data on the same subject are available in dogs. In human medicine, thermography is used to detect heat emitted by the foot when it comes in contact with a flat surface to detect the abnormalities of the foot balance. The hypothesis states that the thermal pattern of the hoof print in Warmblood horses is detectable and it does not vary among the four limbs in leisure and cross-country Warmblood horses in terms of mean temperature of the hoof print surface. A pilot study was conducted to investigate the accuracy of thermography in temperature detection of the hoof print and to investigate the occurrence of possible differences in the mean value of six selected areas and whether there are any differences in the mean temperature of the hoof print between leisure and cross-country Warmblood horses. Methods: The study included sixty non-lame Warmblood horses with all limbs taken into consideration (n = 240). The selection criteria for the horses were: no alterations in posture and no muscle group asymmetry during visual examination, no lateral or medial deviation of the carpus or hock, no reaction to the flexion tests, negative reactions to the hoof tester, no lameness during walking, trotting or lunging, no anti-inflammatory medication in the last three weeks prior to examination and rectal temperature between 37 °C and 38 °C. The hoof print of each hoof was measured with the horse in the standing position, all four limbs on the ground, using a FLIR E50 thermal camera. Six areas of temperature from the hoof print were taken into consideration, and for each of them, the mean value was identified using FLIR Tools software for photo interpretation. The One-Way ANOVA test was used to test the differences between the mean temperatures obtained for each selected area from all limbs and to compare the hoof print temperature values between the leisure horses and cross-country horses. Data were statistically processed using SAS Studio. Results: Thermography can detect the temperature emitted by the hoof but the thermal patterns of the hoof print show no difference for all four studied limbs. No significant statistical differences were noticed between the mean temperatures identified for each studied area. Also, there were no statistical differences between the mean temperature of the selected areas from the forelimbs and hindlimbs from the horses used for leisure and those used for cross-country. Based on this aspect, the mean temperature of one selected area can be determined in any of the four limbs, without visible variations. Conclusions: Thermography can detect the hoof print on a flat surface and the mean temperature for each studied area can be proposed as a reference temperature value. There were no differences in the mean temperature of the hoofprint between leisure and cross-country Warmblood Horses. Further investigations are required to clarify whether there are any differences in the thermal pattern of hoof prints from other breeds or from horses with musculoskeletal conditions.

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Section: Discussionmentioning

confidence: 99%

Thermographic Image of the Hoof Print in Leisure and Cross-Country Warmblood Horses: A Pilot Study

Zaha¹,

Schüszler²,

Dascălu³

et al. 2023

Veterinary Sciences

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“…This is in contrast to the results reported in human forensic medicine, where the arterial and venous phases are designed to expand the arterial or venous systems, respectively ( 19 , 34 ). A possible explanation for this disparity is the high number of arteriovenous shunts in the equine limb ( 35 , 36 ) allowing for efficient filling of the venous side during arterial perfusion. Additionally, while the human MPMCTA-protocol suggests longer venous than arterial perfusion ( 19 ), perfusion duration in this study was based on the time needed for contrast material to be observed exiting the limb, which was longer for the first (arterial) phase.…”

Section: Discussionmentioning

confidence: 99%

Post-mortem Computed Tomographic Angiography in Equine Distal Forelimbs: A Feasibility Study

et al. 2022

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In-depth understanding of pathophysiological processes occurring in the vasculature of the equine distal limb is of great importance to improve both diagnostic and therapeutic approaches to diseases. To gain further insights, a model allowing high-resolution 3D-visualization of the vasculature is necessary. This pilot study evaluated the feasibility of restoring vascular perfusion in frozen-thawed distal equine cadaver limbs without prior preparation using computer tomographic imaging (CT). Five frozen-thawed, radiographically normal forelimbs were perfused with a lipophilic contrast agent through the median artery and radial vein in three phases (arterial, venous, and arterial-venous combined (AVC) dynamic). For comparison, one additional limb was perfused with a hydrosoluble contrast agent. The CT-studies (16-slice MDCT, 140 kV, 200 mA, 2 mm slice thickness, 1 mm increment, pitch 0.688) were evaluated at 11 specified regions for visualization of the vasculature and presence of artifacts or anatomic variations. The protocol used in this study proved to be feasible and provided good visualization (93.1%) of vasculature with low rates of artifacts. During the different phases, vascular visualization was similar, but while filling defects decreased in the later phases, extravasation worsened in the 2 limbs where it was observed. Subjectively, the best quality of angiographic images was achieved during the AVC dynamic phase. Perfusion with hydrosoluble contrast resulted in significantly lower vascular visualization (74.0%) and higher artifact rates. This study shows that reperfusion of frozen-thawed equine distal limbs with a lipophilic contrast agent allows for high-quality 3D-visualization of the vasculature and may serve as a model for in situ vascular evaluation in the future.

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Pododermal angioarchitecture in the equine hoof wall: A light and scanning electron microscopic study of the wall proper

Cited by 2 publications

References 61 publications

Thermographic Image of the Hoof Print in Leisure and Cross-Country Warmblood Horses: A Pilot Study

Thermographic Image of the Hoof Print in Leisure and Cross-Country Warmblood Horses: A Pilot Study

Post-mortem Computed Tomographic Angiography in Equine Distal Forelimbs: A Feasibility Study

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