Obstruction of the intracranial dural venous sinuses would result in an increase in intracranial dural venous pressure. This intracranial hypertension is not only the result of poor cerebral venous drainage but also life threatening. The aim of this study was to identify the structures, which may show signs of potential venographic filling defect qualities, including trabeculae/septa (also described as "fibrous bands") and arachnoid granulations, which ultimately can lead to increased intracranial dural sinus venous pressure. A total of 102 cadavers and living patients were used for the study. Fifty-three percent of the subjects presented with structures in their transverse sinuses that could be potential venous filling defects. Thirty percent of the subjects presented with arachnoid granulations in the right transverse sinus, which were found to be significantly dominant (Chi-square; p < 0.05). The study also revealed the presence of 1 to 5 septa in 29.4% of the subjects. The septa were found to be more dominant in the central (30%) and lateral (22%) thirds of the right transverse sinuses, while the central third of the left transverse sinus proved to be the least dominant occurring site (8%). In general, the right transverse sinus is highly more significantly dominant in septal occurrence (Chi-square; p < 0.01) than the left transverse sinus. We conclude from the statistical evidence that the right transverse sinus demonstrates significantly more potential venographic filling defects than the left sinus and submit that this information may assist in management options for patients diagnosed with idiopathic intracranial hypertension as well as direct future research.
INTRODUCTION:In performing neuraxial procedures, knowledge of the location of the conus medullaris in patients of all ages is important. The aim of this study was to determine the location of conus medullaris in a sample of 2 newborn/infant cadavers and sagittal MRIs of children, adolescents and young adults. MATERIALS AND METHODS: The subjects of both the samples were subdivided into four developmental stages. No statistical difference was seen between the three older age groups (p>0.05). A significant difference was evident when the newborn/infant stage was compared with the other, older stages (p<0.001 for all comparisons). RESULTS: In the newborn/infant group the spinal cord terminated most frequently at the level of L2/L3 (16%). In the childhood stage, the spinal cord terminated at the levels of T12/L1 and the lower third of L1 (21%). In the adolescent population, it was most often found at the level of the middle third of L1 and L1/L2 (19%). Finally, in the young adult group, the spinal cord terminated at the level of L1/L2 (25%). This study confirmed the different level of spinal cord termination between newborns/infants less than one year old and subjects older than one year. In this sample the conus medullaris was not found caudal to the L3 vertebral body, which is more cranial than the prescribed level of needle insertion recommended for lumbar neuraxial procedures. CONCLUSION: It is recommended that the exact level of spinal cord termination should be determined prior to attempting lumbar neuraxial procedures in newborns or infants.
The literature reports that the palmaris longus muscle (PL) is only found in mammals in which the forelimbs are weight-bearing extremities. It is suggested that the function of this muscle has been taken over by the other flexors in the forearm.
The spine of L4 usually lies on a line drawn between the highest points of the iliac crests (Tuffier's line) in adults. Although its accuracy has been questioned, it is still commonly used to identify the spinous process of the 4 th lumbar vertebra before performing lumbar neuraxial procedures. In children, this line is said to
BackgroundStudies have shown that the venous system tends to collapse during hypovolemic shock. The use of the bone marrow space for infusions is an effective alternative, with the tibial insertion site being the norm.ObjectivesThis study was conducted to determine a quick intraosseous infusion method that could be an alternative to the tibial route in neonates during emergency situations.MethodA sample of 30 neonatal cadavers was dissected to explore a possible alternative to the tibial insertion site. The needle was inserted in the superolateral aspect of the humerus. The needle infusion site was then dissected to determine possible muscular and neurovascular damage that might occur during the administration of this procedure, with the greatest concern being the posterior circumflex humeral artery and axillary nerve exiting the quadrangular space. The distance of the needle insertion site was measured in relation to the soft tissue as well as to bony landmarks.ResultsThe calculated 95% confidence interval shows that the needle can be safely inserted into the intraosseous tissue at the greater tubercle of the humerus 9.5 mm – 11.1 mm from the acromion. This is about a little finger’s width from the acromioclavicular joint.ConclusionAnatomically, the described site is suggested to offer a safe alternative access point for emergency infusion in severely hypovolemic newborns and infants, without the risk of damage to any anatomical structures.
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