Abstract
The angulation of the equine fetlock determines the load of associated tendons and probably their predisposition for injuries. However, it is questionable how the individual toe conformation and tendon properties interact with the dorsal metacarpophalangeal joint angle (DMPJ). Data are needed for a tangible evaluation of the equine limb conformation for more specific orthopaedic treatment. The aim was to evaluate the correlation between the DMPJ, toe conformation and cross-sectional area (CSA) of both flexor tendons; the superficial digital flexor tendon (SDFT) and deep digital flexor tendon (DDFT). Thirty Warmblood horses were available for the study. Lateromedial radiographs of the toe and fetlock and transverse ultrasound images of both flexor tendons were obtained from three zones. The DMPJ, length and angle of the phalanges and CSA SDFT/DDFT were measured. In addition, hoof angle, wither height, age, and sex were documented. Correlations were calculated using Pearson’s test. A paired t-test was used to evaluate left–right differences. Length and angle of the proximal and middle phalanx were significantly associated with the DMPJ (r = -0.28 – -0.45, p<0.001-0.04). Neither the angle of the hoof and distal phalanx nor the CSA SDFT/DDFT, showed a noticeable correlation with the DMPJ. Significant left–right differences occurred for the DMPJ (p<0.002) and the angle of the proximal and middle phalanx (p<0.01 – 0.002). A moderate negative correlation was shown between the DMPJ and wither height (r = - 0.31, p=0.04). Results represent only a specific population. The study provides only a static evaluation of a dynamic situation. In a clinical context, it might be useful to focus on the angulation and length of the pastern to evaluate the individual load affecting the DMPJ and its associated structures. These findings might be relevant for orthopaedic treatments and shoeing recommendations.
Highlights
The incidence of disorders affecting the metacarpophalangeal joint (MPJ) and its associated structures is reported to be high in equine athletes (Dyson, 2002; Murray et al, 2010)
Based on these findings the authors of the current study assume that lateralised grazing and motor behaviour determining handiness and uneven load bearing in horses might lead to asymmetry in the dorsal metacarpophalangeal joint angle (DMPJ), API, and APII with higher extension in the right MPJ
For differences in the palmar angle (APIII) of the distal phalanx it was demonstrated that for a 1° change in APIII the forces experienced by the deep digital flexor tendon (DDFT) changed by 4% (Eliashar et al, 2004)
Summary
The incidence of disorders affecting the metacarpophalangeal joint (MPJ) and its associated structures is reported to be high in equine athletes (Dyson, 2002; Murray et al, 2010). The superficial digital flexor tendon (SDFT) is specialised for enhanced elastic energy storage (Biewener, 1998; McNeill Alexander, 2002; Dowling and Dart, 2005). Both flexor tendons and further associated structures are arranged and interact as suspensory apparatus of the MPJ. The individual DMPJ seems to be influenced by further factors (Hüppler et al, 2016; Hagen et al, 2017)
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