Here we present a unique case of variation in the branching pattern of the coeliac trunk. In the present case, the coeliac trunk was replaced by two separate arterial trunks. The first arterial trunk bifurcated into the left gastric and the left hepatic arteries. The second arterial trunk bifurcated into a splenic artery and a hepato-gastroduodenal trunk. The hepato-gastroduodenal trunk presented an unusual course and termination. The right hepatic artery arising from the hepato-gastroduodenal trunk also showed a variant course. Such rare variations are important for gastroenterological surgeons and interventional radiologists due to increase in number of transplantation surgeries and live donor liver transplantations.
Hepatic Artery ; Humans ; Liver Transplantation ; Portal Vein ; Splenic Artery ; Tissue Donors

INTRODUCTIONProficiency in the anatomy of coronary arteries and their variations is important for proper interpretation of coronary angiographies. The left coronary artery (LCA) commonly originates at the level of the left posterior aortic sinus and normally bifurcates into the anterior interventricular artery and circumflex artery. This study aimed to determine the variations in the LCA and its branches.

METHODSThe study was conducted on 30 heart specimens. We observed the origin, length and branching pattern of the LCA and its coronary dominance.

RESULTSWe found a short main LCA trunk in three specimens and a long main LCA trunk in one specimen. In two specimens, the division of the LCA led to three branches. With regard to 'dominance', one specimen showed left dominance while another showed codominance.

CONCLUSIONVariations of the LCA are clinically relevant, especially when a perioperative coronary perfusion or coronary arteriography is performed.

Aged ; Aged, 80 and over ; Anatomy ; methods ; Cadaver ; Coronary Angiography ; methods ; Coronary Vessels ; anatomy & histology ; Heart ; anatomy & histology ; Humans ; Middle Aged ; Models, Anatomic

INTRODUCTIONNourishment for the brain, a highly vascular organ, is derived from a unique structure called the 'circle of Willis', which is formed by the terminal branches of the internal carotid arteries (ICAs) and basilar arteries (BAs). The circle of Willis forms an anastomotic link between the carotid and vertebrobasilar systems in the arterial supply of the brain, while the BA forms an important component of the brain's posterior circulation and supplies its many vital parts.

METHODSA study was performed on 20 brain specimens used for routine dissections at the Anatomy Department, Kasturba Medical College, in order to examine the morphology of BAs in the brain.

RESULTSIn most specimens, the position of the termination of BA was normal, although variations were present in the mode of termination. In one specimen, the BA terminated by dividing into two superior cerebellar arteries. The posterior cerebral arteries (PCAs) arose from ICAs on both sides in this specimen, and a communicating branch was present between the terminal point of the BA and PCA on the left. In another specimen, unilateral variation was seen, with the PCA arising from the ICA on the right and a posterior communicating artery arising from the PCA, connecting it with the BA. The anatomy on the left side was normal.

CONCLUSIONWe highlight the morphological aspects of the BA, the knowledge of which would help neurosurgeons safely diagnose, as well as plan and execute vascular bypass and shunting procedures for the treatment of stenosis, aneurysms and arteriovenous malformations in the posterior cranial fossa.

Basilar Artery ; abnormalities ; anatomy & histology ; Brain ; anatomy & histology ; blood supply ; Cadaver ; Carotid Arteries ; pathology ; Carotid Artery, Internal ; anatomy & histology ; Circle of Willis ; anatomy & histology ; Humans ; Posterior Cerebral Artery ; anatomy & histology