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Growth performance and hematological changes of weaned beef calves diagnosed with respiratory disease using respiratory scoring and thoracic ultrasonography
Cuevas-Gómez, Inmaculada McGee, Mark McCabe, Matthew Cormican, Paul O’Riordan, Edward McDaneld, Tara Earley, Bernadette
Cuevas-Gómez, Inmaculada
McGee, Mark
McCabe, Matthew
Cormican, Paul
O’Riordan, Edward
McDaneld, Tara
Earley, Bernadette
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2020-10-23
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I. Cuevas-Gómez, M. McGee, M. McCabe, P. Cormican, E. O’Riordan, T. McDaneld, B. Earley, Growth performance and hematological changes of weaned beef calves diagnosed with respiratory disease using respiratory scoring and thoracic ultrasonography, Journal of Animal Science, Volume 98, Issue 11, November 2020, skaa345, https://doi.org/10.1093/jas/skaa345
Abstract
This study investigated (i) the effect of clinical bovine respiratory disease (BRD) and associated lung
consolidations on growth performance and hematological profiles of recently weaned beef calves
and (ii) the relationship between clinical respiratory signs and lung consolidation detected by
thoracic ultrasonography (TUS). One hundred and fifty-three weaned beef calves (209 (SD; 35.8)
days old and 306 (SD; 26.3) kg, at arrival) purchased and transported from auction markets were
accommodated indoors in concrete slatted floor pens. Calves were weighed weekly from arrival until
d 28 and on d 65 post-arrival. Assessment of BRD and blood sample collection for hematological
profiles were performed on scheduled days (at arrival, on d 7, 14 and 28) and on other days upon
BRD diagnosis. Animals were assessed for BRD using a total clinical respiratory score (CRS) of five
clinical signs (rectal temperature, ear position, cough, nasal secretion and eye secretion with each
ranging from normal (0) to abnormal (3)), and TUS scores (normal (0) to lung consolidation ≥ 1 cm2
(2)). Based on CRS, 35% of calves were CRS+ (CRS ≥5) and 65% were CRS- (CRS <5). Although no lung
consolidations (TUS-) were detected at arrival, 34% of calves developed lung consolidation (≥ 1 cm2
)
(TUS+) during the first 28 d post-arrival. Only fever (>39.6o
C) and nasal discharge were weakly
associated (r 0.19, P <0.05) with lung consolidation. On the day of BRD detection, neutrophil number
and neutrophil:lymphocyte ratio was 58% and 73% greater, respectively, in BRD calves with lung
consolidation compared to healthy calves. From d 0 to 65, calf ADG did not differ (P >0.05) between
CRS+ and CRS- calves, but was 0.09 kg/d lower (P <0.05) for TUS+ compared to TUS- calves. Calves
classified as BRD (CRS+TUS ≥5) with lung consolidation had lower (P <0.05) ADG from arrival until d
28 than healthy calves and BRD calves without lung consolidation (0.11 ± 0.10 vs. 0.53 ± 0.07 vs. 0.57 ± 0.10 kg/d, respectively); however, no differences in ADG were observed from d 0 to 65.
Conventional methods to diagnose BRD failed to detect calves with lung lesions. Thoracic
ultrasonography is a useful tool to detect lung lesions and its implementation in combination with
CRS should provide a more accurate and early diagnosis of BRD, which is fundamental to successful
treatment, animal welfare and growth performance.