Final report on rod cladding failure during SGTR

Achievements on modelling fission product release from defective rods during a steam generator tube rupture transient and iodine spiking have been obtained and presented in this deliverable

Third Yearly Activity Report

The calculation work performed during the 3rd project year in WP2 as well as the R&D activities carried out in WP3, WP4 and WP5 are described in this report. In addition, the work dedicated to the project management (WP1) as well as to WP6 regarding the dissemination/communication activities and the education/training program (e.g. the follow-up of the mobility program between different organizations in the consortium, training on simulation tools and activities accomplished by PhD/post-doctoral students) is also reported

Morfofisiologia da inervação do diafragma de ovinos Morphophysiology of diaphragm innervation in sheep

Foram estudados em 30 diafragmas de ovinos da raça Santa Inês, a origem, a divisão e a distribuição dos nervos frênicos direito e esquerdo (Fde) e a participação de outros nervos na inervação do diafragma. Mediante fixação e dissecação das peças foi observado que os nervos frênicos (F) originam-se a partir dos ramos ventrais do 5º (C5) e 6º (C6) nervos espinhais cervicais (Ec) tanto à direita (46,67%) como à esquerda (43,33%). Os F finalizam em tronco lombocostal e ramo esternal à direita (40,00%) e em ramo lombar, costal e esternal à esquerda (36,68%). Os ramos lombares dos F inervam à esquerda (96,67%) o pilar homolateral do diafragma e, à direita (50,00%) fornecem filetes à veia caudal. Os ramos costais dos F ramificam à esquerda (90,00%) e à direita (76,67%) as regiões dorsal e ventral da pars costalis. Os ramos esternais dos F inervam à direita (100,00%) e à esquerda (83,33%) a pars sternalis e a região ventral da pars costalis do mesmo lado. Os nervos intercostais (VIII ao XII pares, 63,33%) contribuem na inervação do diafragma de ovinos da raça Santa Inês.<br>Thirty diaphragms of sheep of Santa Inês breed were studied regarding their origin, division and arrangement of the right and left phrenic nerves (Fde), and the participation of other nerves in the innervation of the diaphragm. By fixing and dissecting pieces, it was found that phrenic nerves (F) frequently come from the ventral branches of the 5th (C5) and 6th (C6) cervical spinal nerves (Ec), at right (46.67%) and at left (43.33%). The F often form a lumbocostal trunk, sternal branches at right (40.00%) and lumbar, costal and esternal branches at left (36.68%). The lumbar branches of F innervate frequently at left (96.67%) the homolateral pillar of the diaphragma, and at right (50.00%) they give fillets to Vena cava caudalis. The costal branches of the F innervate at left (90.00%) and at right (76.66%) the dorsal and ventral regions of the pars costalis. The sternal branches of the F innervate at right (100.00%) and at left (83.33%) the pars sternalis and the ventral region of the pars costalis at the same side. The intercostal nerves (VII to XII pairs, 63.33%) contribute to innervate the diaphragm of Santa Inês sheep

The embryonic development of the bovine stomach revisited.

The adult anatomy and physiology of the bovine (Bos taurus) stomach have been investigated extensively. Despite the many studies, however, the early development of the stomach has not yet been fully elucidated. The goal of the present study, therefore, was to review the available literature, to visualize the embryonic and early foetal development of the bovine stomach and to shed light on unresolved issues. The stomachs of fifteen bovine embryos and eleven foetuses from 26 to 80 days of gestation were photographed both in situ and after exenteration and critical point drying. A series of photographs was obtained that yielded a contiguous and comprehensive view of all the developmental changes that occurred until the virtually final configuration of the stomach was attained. In addition, the serosal surface was studied by electron microscopy, thus revealing subtle regional differences in the lining of the peritoneal cavity. Our observations corroborate the contention that all the compartments evolve from the fusiform primordium and that no outgrowth at the level of the oesophagus occurs. The greater curvature as well as the attachment line of the dorsal mesogastrium shift to the left, which is similar to the process in monogastrians. The rumen and reticulum develop from separate protrusions, and further compartmentalization results from constrictions and bulges and not from folding. Between 55 and 60 days of gestation, the entire bovine stomach except for the abomasum eventually relocates to its final position. In summary, previously debated key issues were addressed and integrated with current findings