[Retrohepatic veins of the posterior section of the right hepatic lobe--terminology and surgical significance].

Three main hepatic veins: right, middle and left are constant, but there is a variable number of retrohepatic vessels called accessory or minor hepatic veins. The most important of them are veins reffered to as middle right hepatic vein (MRHV) draining segment VII and inferior right hepatic vein (IRHV) draining segment VI. The incidence of large MRHV and IRHV reaching or exceeding a caliber of 5mm, their arrangement in the liver and drainage territories were investigated in our collection of 142 injection-corrosion specimens of the liver. In 1/5 of the cases with large IRHV this vein drains small part of segment VI, sometimes its insignificant marginal part so it couldn't be used for segment VI preservation when it is necessary. A precise knowledge of the vein anatomy of right posterior sector of the liver and its vein drainage territories is very important during complex dissections of the retrohepatic areas, resections and preservation liver parenchima.

Biological evaluation of hydroxyapatite/poly-L-lactide (HAp/PLLA) composite biomaterials with poly-L-lactide of different molecular weights intraperitoneally implanted into mice.

Histopathologic analysis of the tissue with HAp/PLLA implants was made and the leukocyte formula and chemiluminescence response of peritoneal phagocytes 2, 7 and 12 weeks after intraperitoneal implantation studied. Implants were made of HAp/PLLA biocomposites with PLLA molecular weights of 50000 (HAp/PLLA(50)) and 430000 g/mol (HAp/PLLA(430)) and of crushed devitalized femur bone of a young Wistar rat. Leukocyte formula and chemiluminescence of peritoneal phagocytes showed no systemic inflammatory response. The studied implants caused locally weak inflammatory reaction. The resorption of implants ranges in intensity (polymer resorption, i.e. disappearance rate), from the highest with the bone implants, low with HAp/PLLA(50), to the lowest with the HAp/PLLA(430) implants. Good resorption of the biocomposites and its mutual ingrowth with connective tissue prove their good biocompatibility.

[The internal thoracic blood vessels (internal thoracic arteries and veins) and their practical significance]. / Unutrasnji grudni krvni sudovi (a. et vv. thoracicae internae) i njihov prakticni znacaj.

Internal thoracic blood vessels (A. et Vv. thoracicae internae) are parietal vessels of the thoracic anterior wall. Because of their position, they are often exposed to injuries during the fracture of the ribs and the sternal bone. These facts require a general knowledge about the anatomical variations of these vessels, specifically the knowledge concerning their mutual relationship, their anastomoses and their distance from the lateral margins of the sternal bone. Due to the poor and different data in the available literature, we directed our investigations towards the study and confirmation of the described anatomical variations of the internal thoracic blood vessels. In this study we investigated the distance between the internal thoracic artery and the lateral margins of the sternal bone, the level of its bifurcation, the number of the internal thoracic veins and anastomoses between them. The investigation was carried out on 300 formalin specimens consisting of the anterior wall of the thorax (persons of different ages and sexes) by using the method of dissection and the method of contrast injection. In adults (200 specimens), the distance between the arterial trunk and the lateral margin of the sternal bone was not equal in the first fifth or sixth intercostal spaces, but in children up to five years of age (100 specimens), the distance was almost the same. In adults, the internal thoracic artery was nearest to the sternal bone in the first intercostal space, but going downward the artery was gradually more and more distant from the sternum and in the sixth intercostal space the distance measured approximately from 11 mm to 13 mm. In children, the distance of the artery from the lateral margin of the sternal bone, just in the above mentioned intercostal spaces, was from 5 mm to 10 mm. There was no difference according to sex in any of the two groups. Most frequently, the internal thoracic artery gave off its terminal branches at the level of the sixth costal cartilage (adults--35% and children--45%), and most rarely, the bifurcation of the artery was at the level of the seventh costal cartilage (adults--10% and children--8%). The internal thoracic vein that accompanies the same named artery, could be either single or double, on one or both sides. In cases of double veins-the artery was situated between the two of them, but in cases of single vein-the vein was located medially to the artery. In 82% of cases in the adult group, and in 69% of cases in the children-group, there were two veins accompanying the artery. The right and the left internal thoracic veins were connected in the region of the sternal bone by the retrosternal venous net (specifically in the region of the manubrium) and by one venous vessel lying in front of the xiphoid process. According to the position and the course of that venous vessel it could be called "arcus venosus prexiphoideus". The internal thoracic blood vessels were enclosed by the unique fascial sheath. They were superiorly separated from the costal pleura by the endothoracic fascia and inferiorly by the transversal thoracic muscle (m. transversus thoracis). The safest approach to the internal thoracic artery was at the level of the second and the third intercostal space. During the approach through some of the lower intercostal spaces it was necessary to be very careful because they could be narrowed at their anterior ends.