Impact of experimentally induced bacterial chondronecrosis with osteomyelitis (BCO) lameness on health, stress, and leg health parameters in broilers

Stress and lameness negatively affect the health, production, and welfare of broilers. Bacterial chondronecrosis with osteomyelitis ( BCO) is a leading cause of stress and lameness in commercial broilers. External changes in skin temperature related to changes in blood flow can be detected with infrared thermography ( IRT), offering a noninvasive tool to assess the health of animals. This study compared physiological and noninvasive measures of stress and lameness in clinically healthy and lame male broiler chickens between 25 and 56 d. Birds were raised in pens within separate environmental chambers containing either litter flooring (sound) or wire flooring, with the latter established to induce BCO lameness (lame). Physiological and noninvasive measures of stress and lameness were collected: body weight, ( BW), relative bursa weight, core body temperature, corticosterone ( CORT) concentrations in serum and feathers, surface temperatures of the head (eye and beak) and leg (hock, shank, and foot) regions by infrared thermography ( IRT), leg blood oxygen saturation ( leg O ₂ ), and BCO lesion severity scores of tibial head necrosis ( THN) and femoral head necrosis ( FHN). Lame birds exhibited greater FHN and THN lesion severities, core body temperatures, and serum CORT ( P < 0.05), but had lower BW, relative bursa weight, leg O ₂, and IRT surface temperatures of the beak, hock, shank, and foot compared with sound birds ( P < 0.05). The difference in THN lesion severity between sound and lame birds decreased with age. Linear relationships between leg O ₂ with IRT leg surface temperatures were positive and negative between leg O ₂ with BCO lesion severity ( P < 0.05). There were negative correlations between serum CORT with hock, shank and foot temperatures ( P < 0.001), indicating that BCO is stressful. These results indicate that birds lame from BCO are stressed, have reduced oxygen saturation of blood in their legs, and that IRT surface temperatures can be used as noninvasive indicators of stress and lameness in broilers.