Equine Veterinary Journal

Papers
(The H4-Index of Equine Veterinary Journal is 15. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-06-01 to 2025-06-01.)
ArticleCitations
Understanding the impact of genetic variation of equine infectious anaemia virus (EIAV) on serological detection25
Issue Information24
Development and delivery of an interactive international reporting platform for equine influenza22
A preliminary study investigating low‐field magnetic resonance imaging findings at the enthesis of the suspensory ligament and outcome post‐neurectomy and plantar fasciotomy21
Equine retinal detachment in the UK: 24 cases (2010‐2020)20
Do ground or raised poles affect differential rotational movement of the equine thoracolumbosacral spine during straight line locomotion when ridden in rising trot?19
Validation of loss of skin sensation as an indicator of tibial nerve desensitisation following diagnostic perineural analgesia in lameness investigation19
Machine intelligence for the detection of equine heart murmurs19
Standing magnetic resonance imaging findings in the metacarpophalangeal region of 76 horses and metatarsophalangeal region of 24 horses18
Equid trypanosomiasis: A systematic review of the global impact of a neglected veterinary disease: Prevalence, morbidity and mortality17
Issue Information17
Allogenic platelet‐rich plasma and platelet‐rich plasma‐derived extracellular vesicles change the proteome of tenocytes in an in vitro equine model of tendon inflammation: A pilot study16
Low‐field magnetic resonance imaging of sagittal groove disease of the proximal phalanx in non‐racing sport horses15
Equine Psittacosis and the emergence of Chlamydia psittaci as an endemic cause of equine reproductive loss and foal illness in Southeastern Australia15
Evaluation of a triplex assay for detecting equine influenza virus and equine herpesvirus types 1 and 4 by using a microfluidic‐chip‐based mobile real‐time PCR device for point‐of‐care testing15
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