Statistical significance was set to p ≤ 0.05 (*) or p ≤ 0.01 (**). Where applicable, values are provided as mean ± SD. Mild (<3 cm)
localized injection site swellings were observed in 5/6 SubV-immunized inhibitors calves and in 1/6 controls and lasted 3 days after first vaccination. Following second immunization, mild or mild-to-moderate (<10 cm) injection site swellings were observed in 4/6 controls and in all vaccinated calves, respectively. Slightly elevated rectal temperatures were observed in both groups for 2 days after both immunizations JNK inhibitor price (maximum rectal temperatures mean, SubV: 39.4 ± 0.3 °C; Control: 39.3 ± 0.4 °C) but the groups did not differ significantly (p = 0.61). Control calves showed slight selleck chemical general depression with appetite loss (6/6, PID3–4), stiffness (4/6, PID7–8), and lameness (3/6, PID4–6), and had a biphasic rectal temperature pattern that peaked on PID4 and PID7 and reached over 40 °C in 1/6 and 2/6 animals, respectively (PID4 range: 39.1–40.5 °C, mean: 39.6 °C; PID7 range: 38.9–40.3 °C, mean: 39.7 °C). Other clinical signs of BTV infection were observed from PID2–14, including nasal discharge (4/6, PID5–6),
congestion with slight edema of the nasal mucosa (2/6, PID5), and moderate edema in the intermandibular space (1/6, PID5–6). Enlargement of right and left prescapular lymph nodes was observed in all controls (PID5–14). The mean clinical scores peaked between PID5–7 and remained elevated through PID14, after which no clinical examinations were performed until PID21 (Fig. 2A). In contrast to controls, SubV-vaccinated animals showed no significant increase in rectal temperature following challenge (range: 38.4–39.2 °C, p = 0.29; Fig. 2B) and 3/6 vaccinated calves demonstrated no clinical signs throughout the study. In the remaining three SubV-vaccinated calves, very slight clinical signs were observed, including slight nasal discharge on PID5 (1/6)
and stiff walking in two animals on PID4 (1/6) and PID5 (1/6). Mean Astemizole clinical scores for vaccinated animals never exceeded 0.5 (PID5) and otherwise remained at 0. Clinical scores of controls were significantly higher (p ≤ 0.05 or p ≤ 0.01) than those of vaccinated calves on each day from PID4–14 ( Fig. 2A). Using RT-qPCR analysis, no BTV RNA was detected in blood collected from vaccinated calves between PID0 and PID25 (Fig. 3A). In contrast, BTV RNA was detected in blood of 1/6 controls on PID2, 2/6 controls on PID4, and in all controls on PID6–25 (experiment termination). Peak viremic levels were observed on PID10 (mean: 3.26 ± 0.44 log10 TCID50 equivalent units/ml). These data were confirmed by ECE inoculation of blood.