The corona mortis (CMOR) represents the vascular connection of the obturator and external iliac systems. We aimed to evaluate by dissections the morphological possibilities of the CMOR and their individual combinations. For the study we used 20 human adult cadavers that were bilaterally dissected (40 hemipelvises), with evidences of the vascular elements at the level of the superior pubic branch in 32 (80%) of hemipelvises. The morphological patterns we identified were classified in three types (I-III): I. arterial CMOR (10 hemipelvises): I.1. obturator artery (OA) from the external iliac artery (EIA); I.2. OA from the inferior epigastric artery (IEA); I.3. anastomosis of the OA and IEA; I.4. pubic branches of the OA, in the absence of any anastomosis with the EIA system; II. venous CMOR (6 hemipelvises): II.1. obturator vein (OV) draining into the external iliac vein (EIV); II.2. OV draining into the inferior epigastric vein (IEV); II.3. venous anastomosis of the OV and IEV and III combined, arterial and venous CMOR (16 hemipelvises). We classified the combined coronae mortis in nine different subtypes that mainly (but not exclusively) correspond to various combinations of types I and II. The surgical relevance of the vascular relations of the superior branch of pubis (in trauma, orthopedic approaches, hernia repair, embolizations and intra-arterial infusions) recommends a detailed knowledge of the morphological and topographical possibilities of the crown of death and the individual evaluation of this risky anatomical structure.
The aim of this study was to investigate and correlate the anatomical parameters of the superior laryngeal artery (SLA). For the study, 50 adult, human specimens were used; laryngeal pieces were drawn from 16 cadavers and the arteries were dissected intralaryngeally. In 68%, the SLA originated from the superior thyroid artery and in 32%, directly from the external carotid artery. In five sides, an aberrant superior laryngeal artery (ASLA) was entering the larynx through a foramen thyroideum. The normal superior laryngeal artery (NSLA) had a short extralaryngeal part and continued intralaryngeally, with two segments and a point of inflexion; the first segment ran along the superior border of the thyroid cartilage, the point of inflexion of the NSLA was at a minimal distance of 1.1 cm anterior to the superior horn of the thyroid cartilage and from this point the NSLA continued in the paraglottic space. The ASLA had a constant origin from the superior thyroid artery; it then traversed the foramen thyroideum and reached the paraglottic space-at the superior border of the lateral cricoarytenoid muscle, it ended in two terminal branches. We constantly evidenced the following collateral branches of the NSLA: superior, anterior and postero-medial. The terminal branches are the antero-inferior branches that constantly anastomose with the cricothyroid artery and the postero-inferior branch anastomosed with the inferior laryngeal artery. Occasionally, additional branches of the NSLA were found. In conclusion, the intralaryngeal branching patterns of the NSLA and the ASLA are similar, the differences being given by the entry point into the larynx that will make the superior and anterior branches of the ASLA longer, will eliminate the transversal segment of the NSLA, and will shorten the descending segment in the paraglottic space in the case of ASLA. The base of the upper horn of the thyroid cartilage, the oblique line and its tubercles, the cricothyroid membrane and the cricothyroid joint are constant landmarks that allow a precise intralaryngeal identification of the SLA. These findings can improve performances during surgical manipulations of the larynx and laryngeal transplants.
The iliolumbar artery (ILA) of Haller is the largest nutrient pedicle of the ilium and its detailed knowledge is important for various surgical procedures that approach the lumbosacral junction, the L4/L5 disk space, the sacroiliac joint, the iliac and psoas muscles, or the lumbar spine. Also the ILA is relevant for various techniques of embolization. We aimed to evaluate the anatomic and topographic features of the ILA, by dissection on 30 human adult pelvic halves and on 50 angiograms. ILA was a constant presence and it emerged at Level A (from the common iliac artery (CIA), 8.75%), Level B (from the CIA bifurcation, 2.5%), Level C (from the internal iliac artery (IIA), 52.5%), Level D (from the IIA bifurcation, 3.75%), and Level E (from the posterior trunk of the IIA, 32.5%). Level B of origin of the ILA corresponds to a trifurcated CIA (morphology previously unreported), while Level D corresponds to a trifurcated IIA. A higher origin of the ILA corresponds to a more transversal course of it. A descending lumbar branch that leaves the iliac arterial system independently to enter the psoas major muscle, as seen in 48% of cases, may be misdiagnosed as ILA. Surgical interventions in the lumbar, sacral, and pelvic regions must take into account the variable origins of the ILA from the iliac system that can modify the expected topographical relations and may lead to undesired hemorrhagic accidents.
We analysed the spatial and temporal distribution of apoptosis in human cerebellum development, during embryonic and fetal periods. Cerebella excised from two human embryos (8 weeks old) and eight fetuses (12-22 weeks old), were paraffin embedded and serially sectioned. Apoptotic cells were identified by propidium iodide staining, and TUNEL. In addition, immunohistochemistry for suicide receptor Fas(APO-1/CD95) was performed. We determined the distribution and percentage of apoptotic cells as well as Fas(APO-1/CD95)-positive cells in different regions and stages of development. Apoptotic cells were seen in both proliferative zones and postmitotic regions along the migratory pathways as well as in the developing cerebellar cortex in all examined stages. The Fas(APO-1/CD95) immunoreactivity was present in all examined stages in a small population of apoptotic cells: either neuroblasts or differentiated cells in postmitotic zones. These findings suggest that apoptosis drives the selection of the cells which are committed to differentiate during the early stages of cerebellar development. The differences between apoptotic cells distribution and Fas receptor expression suggest that cell selection is driven by different apoptotic pathways.
An increased pressure on ENT departments has evolved as head and neck pathology is showing a higher incidence and prevalence. Therefore, the ENT specialist should develop good skills in ultrasonographic examination of patients with head and neck masses. The aim of this paper is to enable the ENT specialist to identify anatomical landmarks on ultrasonographic images in order to expedite the diagnosis with a higher degree of certainty. We describe the steps for a proper ultrasound examination of the patient. We illustrate the following anatomical areas: submandibular gland, thyroid gland, parathyroid glands, oropharinx, larynx, parotid glands, etc. Moreover we emphasize the differential diagnosis that should be taken into account when examining pathology in these regions. Ultrasonographic examination of head and neck pathology is cost efficient, non irradiating and permits fast follow up with serial examination of the lesions. Furthermore one can perform an initial TNM staging of the case prior to other expensive imaging studies such as CT and MRI. We hope to raise the awareness of fellow ENT specialists in performing ultrasonography as future developments such as elastography and CEUS will increase the specificity and sensitivity of this diagnostic method.
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