Porta-caval fibrous connections - the lesser-known structure of intrahepatic connective-tissue framework: A unified view of liver extracellular matrix.

Knowledge about the connective-tissue framework of the liver is not systematized, the terminology is inconsistent and some perspectives on the construction of the hepatic matrix components are contradictory. In addition, until the last two decades of the 20th century, the connective-tissue sheaths of the portal tracts and the hepatic veins were considered to be independent from each other in the liver and that they do not make contact with each other. The results of the research carried out by Professor Shalva Toidze and his colleagues started in the 1970s in the Department of Operative Surgery and Topographic Anatomy at the Tbilisi State Medical Institute have changed this perception. In particular, Chanukvadze I showed that in some regions where they intersect with each other, the connective tissue sheaths of the large portal complexes and hepatic veins fuse. The areas of such fusion are called porta-caval fibrous connections (PCFCs). This opinion review aims to promote a systematic understanding of the hepatic connective-tissue skeleton and to demonstrate the hitherto underappreciated PCFC as a genuine structure with high biological and clinical significance. The components of the liver connective-tissue framework - the capsules, plates, sheaths, covers - are described, and their intercommunication is discussed. The analysis of the essence of the PCFC and a description of its various forms are provided. It is also mentioned that analogs of different forms of PCFC are found in different mammals.

Challenges and perspectives of surgical treatment of liver failure. Current status and last achievements in Georgia.

Liver transplantation is considered to be the last hope of treatment for irreversible liver failure caused by different diffuse and/or space-occupying lesions of this organ. The strict limitation of the donor organs stipulates for development of alternative approaches for the solving this problem. The presented review of literature and our experience aims to discuss the modern aspects of management of different hepatic pathologies causing liver failure with the view of creation of the auxiliary, bioengineer-based functional tissues and/or organs and innovative surgical interventions allowing to conduct the operations in cases, which were up to date considered as inoperable. There are highlighted the last achievements of the experimental and translational studies performed in four University research centers of Georgia, which, on the one hand, provoke the specific professional interest, and on the other hand, require the international cooperation and collaboration for further progress and advances in this field of surgery. KEY WORDS: Artificial liver, Bio-Artificial organs, Liver failure, Innovative surgery, Tissue engineering.

The posterior intrahepatic approach to the left portal pedicle using the ligamentum venosum: anatomical basis.

PURPOSE: Prevention of blood loss in liver resections is essential for reducing postoperative morbidity. The main method to control bleeding during surgery of the left hemiliver is occlusion of the left portal pedicle. This may be accomplished by hilar, fissural or posterior intrahepatic techniques. However, these techniques may injure transposed vessels or bile ducts from the right portal pedicle to the left. The purpose of this study was to describe the anatomical aspects of the posterior intrahepatic ligamentum venosum approach to the left portal pedicle. METHODS: Anatomical study was carried out on 215 isolated adult livers. In 57 specimens, sections of the extra- and intrahepatic portions of the left portal pedicle were prepared under stereoscopic microscopy. RESULTS: The ligamentum venosum is the anatomical landmark between the medial and lateral portions of the left portal vein. The convergence of the ligamentum venosum along the left portal pedicle is where the left portal sheath reaches its maximal thickness and these connections are tight. In 8-12%, the medial portion of the left portal pedicle includes a transposed right paramedian vein or right-sided bile ducts. CONCLUSIONS: According to our anatomical study, we believe that it is possible to use the ligamentum venosum as an anatomical guide to achieve a controlled approach of the left portal pedicle during left-sided hepatectomies. Moreover, ligation of the left portal pedicle at its convergence with the ligamentum venosum may prevent erroneous injury of transposed right paramedian vessels or bile ducts.