5 research outputs found
Impact of Live Weight on the Quality of Pigs Halves and Meat of the Large White Breed
The research was conducted on pig carcasses and meat of 12
pigs breed big Yorkshire fattened to approximately 125 kg body mass (group A),
and 12 pigs of the same breed fattened to approximately 108 kg body mass (group
B). Pigs were kept in the semi-outdoor system, with the same housing and feeding
conditions. Meat quality was determined on the sample from M.longissimus dorsi,
taken between the 13th and 14th rib. Body mass of pigs prior to slaughter 125..22
kg. and 108. 52 kg.) significantly influenced the quality of pigs breed big
Yorkshire carcasses , but not the quality of the meat.
Pigs with higher body mass (125.22 kg) had carcasses of different
conformation (significantly higher relative share of yawl and abdominal rib -part
and a lower relative share of less worth parts and shoulder) and composition (a
lower relative share of meat on shoulder and a higher relative share of meat on
abdominal-rib part) in relation to pigs with lower body mass (108.52 kg). The
meat contents in carcasses was almost equal (47.04 % and 47.20%) in both
analyzed groups of pigs. In terms of meat quality, that was usual, no significant
differences (p>0.05) were determined between the analyzed groups of pigs
THE MANY FACES OF ORAL-FACIAL-DIGITAL SYNDROME
ABSTRACT The oral-facial-digital (OFD) syndrome is a heterogeneous group of abnormalities that share anomalies of the oral cavity, face and digits of hands and feet. On the basis of other anomalies of brain, kidneys, limbs, eyes and other organs, at least 13 subgroups have been described. We here describe four unrelated patients with this syndrome, who have the typical facial, oral and digital anomalies and also anomalies of other organs and systems. Facial features, digital malformations, as well as the existence of additional malformations all of which can be classifi ed into different subgroups. The report points out the diffi culty in delineation of the subtypes of OFD syndrome because of the overlapping features between OFD subgroups