Beneficial therapeutic options are increasingly available for coronary arterial disease. To take full advantage of these options, those performing the interventions require a thorough knowledge of the normal arrangement, and likely anatomic variations, of the coronary arterial system. A comprehensive appreciation of the architecture of the coronary arterial system, therefore, is crucial to optimal cardiac care. Simple attention to potential variations in the origin and course of the major coronary arteries can greatly enhance clinical outcomes. The objective of this review, therefore, is to describe the normal anatomical distribution of the coronary arteries in the human heart, and to list the most common arterial variations.
Despite variations in origin of the vessels, our dissections demonstrated that the ultimate tissue distribution of the LTA remained typical in the vast majority of the specimens and descended on the lateral border of the pectoralis minor. Our results illustrate the need for re-evaluation of the branches of the thoracoacromial artery with possible consideration that the LTA arises from it, instead of directly from the axillary artery. We hope that the information supplied by this study will provide useful information to anatomists and surgeons alike.
The zygomatic nerve may be disrupted when elevating periorbita from the lateral wall during orbital surgery, and care should be taken to prevent injury to this nerve during lateral orbitotomy approaches to access intraorbital soft-tissue tumors. Furthermore, the precise introduction of anesthetics to the zygomaticoorbital (ZO), zygomaticofacial (ZF) and zygomaticotemporal (ZT) foramina could be important data for the plastic and reconstructive surgeon operating in the area. The aim of the present study was to investigate the morphologic and topographic anatomy, and variations of the ZO, ZF and ZT. The present study was performed using 200 dry human skulls. The ZF, ZO and ZT foramina varied from being absent to as many as four small openings. We classified each of these foramina as types I-V for single, double, triple, quadruple and absent foramina, respectively. The relative frequency was as follows: type I, ZO 50%, ZF 40%, ZT 30%; type II, ZO 20%, ZF 15%, ZT 15%; type III, ZO 10%, ZF 5%, ZT 5%; type IV, ZO 3%, ZF 1%, ZT-; and type V, ZO 17%, ZF 39%, ZT 50%. A detailed knowledge of the anatomic morphometry of this area is necessary for a surgeon when performing maxillofacial surgery and regional block anesthesia. Anatomic variations in this area may be present and a surgeon must take this into consideration so as to increase surgical success.
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