The cavernous sinus (CS) is one of the cranial dural venous sinuses. It differs from other dural sinuses due to its many afferent and efferent venous connections with adjacent structures. It is important to know well about its complex venous anatomy to conduct safe and effective endovascular interventions for the CS. Thus, we reviewed previous literatures concerning the morphological and functional venous anatomy and the embryology of the CS. The CS is a complex of venous channels from embryologically different origins. These venous channels have more or less retained their distinct original roles of venous drainage, even after alterations through the embryological developmental process, and can be categorized into three longitudinal venous axes based on their topological and functional features. Venous channels medial to the internal carotid artery “medial venous axis” carry venous drainage from the skull base, chondrocranium and the hypophysis, with no direct participation in cerebral drainage. Venous channels lateral to the cranial nerves “lateral venous axis” are exclusively for cerebral venous drainage. Venous channels between the internal carotid artery and cranial nerves “intermediate venous axis” contribute to all the venous drainage from adjacent structures, directly from the orbit and membranous skull, indirectly through medial and lateral venous axes from the chondrocranium, the hypophysis, and the brain. This concept of longitudinal venous axes in the CS may be useful during endovascular interventions for the CS considering our better understandings of its functions in venous drainage.
Background:The standard neurosurgical procedure for chronic subdural hematoma is a burr-hole surgery. Postoperative hemorrhage is one of the complications after burr-hole surgery. The hemorrhage generally occurs at the surgical site; however, remote hemorrhage is rare. Here, we report two cases of remote hemorrhage after burr-hole surgery for chronic subdural hematoma and discuss the possible mechanism underlying this rare complication.Case Description:Two patients presented remote hemorrhages after burrhole surgery for chronic subdural hematoma. In the first case, hemorrhage occurred in the interhemispheric fissure and contralateral subdural space. In the second case, hemorrhage occurred in the subdural space of the posterior fossa.Conclusion:Postoperative remote hemorrhage is a rare complication, and it can occur after both craniotomy surgery and burr-hole surgery. Neurosurgeons should consider the possibility of this rare complication, and sufficient care should be taken to select the most appropriate surgical procedure to prevent remote hemorrhage.
Background:Cranioplasty is a standard neurosurgical procedure which is performed after decompressive craniotomy. Fatal complications associated with this procedure are not well documented. Here, we report a case of fatal cerebral swelling after cranioplasty and discuss the possible mechanism of this complication.Case Description:A 64-year-old man was admitted with the diagnosis of cerebral hemorrhage, and emergency surgery for hemorrhage removal and decompressive craniotomy were performed. One month after surgery, cranioplasty was performed using a titanium mesh plate. Sixteen hours after the surgery, the patient became comatose with bilateral dilated pupils followed by blood pressure lowering. Computed tomography of the brain showed bilateral massive cerebral edema. The titanium mesh plate was immediately removed, however, the patient’s neurological condition did not recover and he died 7 days after the surgery. We speculated that the negative pressure difference and increase in cerebral blood flow after cranioplasty may have attributed to the fatal cerebral swelling.Conclusion:Fatal cerebral swelling after cranioplasty is a rare but devastating complication. Although it is rare, neurosurgeons should keep in mind that this fatal complication can follow cranioplasty.
Background Dissection of the internal carotid artery (ICA) can cause occlusion or severe stenosis and is known to be one of the major causes of ischemic stroke in the young. Endovascular treatment is one of the useful options for carotid dissections, but passing the guidewire through the occlusion (lesion-cross) and confirmation of the true lumen are sometimes difficult. Case presentation A 40-year-old right-handed man complaining of dysarthria and gait disturbance consulted our hospital. Magnetic resonance imaging and angiography revealed right ICA dissection. Because of worsening symptoms with conservative treatment, we performed endovascular treatment. Prior to the lesion-cross, a microcatheter was navigated to the third segment of the internal maxillary artery and a balloon-guiding catheter was navigated to the proximal ICA. Under balloon occlusion of the ICA, superselective angiography via the ipsilateral maxillary artery and slow evacuation from the balloon-guiding catheter were performed. Thereafter, the course of the true lumen was clearly visualized, and we were able to navigate another microcatheter without difficulty. Subsequently, angioplasty and stent placement were successfully accomplished. Conclusion We presented a case of ICA dissection and demonstrated a novel technique for a safe lesion-cross for occlusive ICA dissection.
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