Abstract :
The milk somatic cell count (MSCC) forms the basis of abnormal milk control programs world wide for goats, cows and sheep.
To better understand factors that contribute to elevations in MSCC, the effects of stage of lactation, parity, breed and state/area in
the United States (US) on MSCC were examined. Least squares means were calculated on composite milk somatic cell scores from
26,607 goats, 5,944,614 cows and 2197 sheep and the results converted back to MSCC. For goats and cows, MSCC increased with
stage of lactation and parity. Counts for cows were lower than counts for goats. By the fifth parity, counts for goats increased to
1,150,000 ml−1, exceeding the 1,000,000 ml−1 legal limit for goat milk in the US, whereas maximum counts for cows averaged
only 300,000 ml−1, less than the 750,000 ml−1 legal limit in the US and 400,000 in the European Union (EU). Currently, there is
no legal limit for goat milk in the EU. For sheep, MSCC for first parity were higher than for later parities. For later parities, MSCC
decreased with advanced lactation. Cell counts for sheep milk were similar to counts for cow milk. Breed and state/area contributed
to variation in cell count for goats and cows. Data were not available for sheep. Studies in the US and EU examined non-infectious
factors contributing to elevations in cell counts. Non-infectious factors such as parity and stage of lactation had minimal effects on
MSCC for cows and sheep, but had a major impact on counts for goats, and need to be considered when establishing legal limits
for goat milk.
Published by Elsevier B.V.
Keywords :
somatic cell count , goat milk , Stage of lactation , Abnormal milk , Chemotaxis , Cow milk , PMN neutrophils , Sheep milk , cytokines