Dural arteriovenous fistula (DAVF) in a sinus of the lesser sphenoid wing (SLSW) is rarely reported. Here, we report a case of an isolated SLSW DAVF treated by coils placed into the sinus through the feeding artery. A 68-year-old man was admitted to our hospital with headache. Magnetic resonance images and an angiogram showed a varix in the right middle cranial fossa. A DAVF, consisting of three main feeders and the isolated SLSW, was diagnosed based on the angiogram findings. Retrograde leptomeningeal venous drainage to the deep middle cerebral vein was observed. Given the remarkable extent of cortical venous ectasia together with the presence of headache and right abducens nerve paralysis, endovascular treatment was initiated. A transvenous approach through the right inferior petrosal sinus was not feasible because of difficulty associated with inserting the microcatheter into the SLSW. Thus, we tried a transarterial approach and were able to advance the microcatheter beyond the fistula into the isolated SLSW, through the artery of the foramen rotundum. The isolated sinus and feeding arteries were embolized with coils. The postoperative angiogram showed the total occlusion of the SLSW DAVF. This case demonstrates the feasibility of transarterial sinus packing for an isolated SLSW DAVF.
Spinal dural arteriovenous fistulas (DAVFs) are the most commonly encountered vascular malformation of the spinal cord and a treatable cause of progressive para- or tetraplegia. It is an elusive pathology that tends to be under-diagnosed, due to lack of awareness among clinicians, and affects males more commonly than females, typically between the fifth and eighth decades. Early diagnosis and treatment may significantly improve outcome and prevent permanent disability and even mortality. The purpose of our retrospective, single-center study was to determine the long-term clinical and radiographic outcome of patients who have received endovascular or surgical treatment of a spinal DAVF. In particular, during a 6-year period (2009–2014) 14 patients with a spinal DAVF were treated at our department either surgically (n = 4) or endovascularly (n = 10) with detachable coils and/or glue. There was no recurrence in the follow-up period (mean: 36 months, range 3–60 months) after complete occlusion with the endovascular treatment (n = 9; 90%), while only one patient (10%) had residual flow both post-treatment and at 3-month follow-up. All four surgically treated patients (100%) had no signs of residual DAVF on follow-up magnetic resonance angiography (MRA) and/or angiography (mean follow-up period of 9 months). Since improvement or stabilization of symptoms may be seen even in patients with delayed diagnosis and substantial neurological deficits, either endovascular or surgical treatment is always justified.
Objective:We report a case of deformation of open-cell stent that occurred during carotid artery stenting (CAS) using Mo.Ma Ultra (MOMA) device in stenotic common carotid artery (CCA). Case presentation: A 66-year-old man was admitted to our hospital with recurrent right amaurosis fugax, and was diagnosed with symptomatic severe stenosis of the right carotid artery. CAS was performed under proximal protection with MOMA. A Protégé stent was placed in the stenosis from the internal carotid artery to the CCA. After the MOMA was removed, cone-beam computed tomography revealed a folding deformation of the Protégé stent in the CCA. The patient had no ischemic complications after the procedure. Later, using simple stenosis models, we tested whether any stents could be folded in such situations. We found that the stent could be folded inward under specific circumstances such that the stent does not expand enough to be placed in the stenosis with the device that has a relatively larger diameter outside of the stent. This situation can lead the stent to be folded when post-dilatation is performed. Conclusion: Because our experiment indicated that an open-cell stent can be folded inward in some cases, this possibility should be kept in mind by surgeons. • Key words • carotid artery stenting, stent deformation, complication, open-cell stent 565-0871 2-2
Objective: Aggressive therapeutic intervention is recommended for infectious intracranial aneurysms (IIAs) because they have a higher hemorrhage risk than non-IIAs. In this study, we retrospectively reviewed patients with IIAs treated at our institution and evaluated the contents of treatment and the complications. Results: Endovascular treatment, direct surgery, and conservative management were performed in five, five, and three patients, respectively. In endovascular treatment patients, none developed any hemorrhagic or infectious complications.In the five direct surgery patients, we selected direct surgery because three patients needed hematoma evacuation, and the catheter navigation was not achievable in the remaining two patients. Conclusion:Since IIAs often occur in peripheral arteries and are accompanied by local infection, aneurysmectomy by direct surgery used to be preferred. However, as embolization of cortical branches using a flexible catheter and small coils has become technically possible by the improvements of endovascular devices, endovascular parent artery occlusion might be a reasonable alternative for IIAs.
BACKGROUND: Data regarding the safety and effectiveness of stent placement in small vessels (<2 mm in diameter) for treating wide-necked cerebral aneurysms are limited. OBJECTIVE: To report our experience regarding coil embolization of unruptured cerebral aneurysms using stents (specifically the Neuroform Atlas) in small arteries <2 mm in diameter. METHODS: Patients with unruptured cerebral aneurysms treated with stent-assisted coil embolization between March 2017 and March 2021 in our hospital were included. RESULTS: Of the 137 cerebral aneurysms included in this study, 49 required stent placement and 48 were treated using the Neuroform Atlas in the small vessels measuring <2 mm in diameter (small vessel group [SVG]). In the SVG, 43 aneurysms (87.8%) demonstrated complete occlusion. Regarding complications, 2 (4.1%) patients had in-stent thrombosis during procedures and 5 (10.2%) experienced symptomatic thromboembolic complications, but only 2 (4.1%) had worsening of the modified Rankin scale ≥1 at 90 days after embolization. Patients with middle cerebral artery aneurysms had a higher risk of thrombotic events (5/18 patients, 27.8%), such as symptomatic thromboembolic complications or intraprocedural instent thrombus than those with other aneurysms (1/31 patients, 3.2%), in the SVG (P = .0167). CONCLUSION: Stent-assisted coil embolization for unruptured cerebral aneurysms using stents, especially the Neuroform Atlas, in small arteries <2 mm in diameter is effective and feasible, but careful perioperative attention should be given to thrombotic events during the embolization of middle cerebral artery aneurysms.
Tension pneumocephalus (TP) can be a life-threatening postoperative complication, but there are limited data owing to its exceedingly low frequency. A 48-year-old man that suffered a head injury survived the acute phase and cranioplasty was performed using a titanium plate. Progressive deterioration of consciousness occurred the day after the cranioplasty. Computed tomography showed the presence of expanded air in the left epidural cavity and a midline shift to the right side. Emergency skin flap reopening was performed. Tension of the scalp decreased when the skin suture was cut and the wound reopened. Lucidity and improved right hemiparesis were obtained within a few hours after drain insertion. Pooled air in the left epidural cavity gradually dissipated postoperatively and the epidural drain was removed 2 days after insertion. The patient was discharged 27 days after cranioplasty, with a modified Rankin scale score of 2. The mechanism that caused TP was considered. Specifically, the skin flap acted as a one-way valve and trapped air. Then the trapped air expanded as the patient’s body temperature warmed. TP should be considered a differential diagnosis after craniotomy. Emergency skin flap reopening and drain insertion may be an effective treatment for TP in the epidural space.
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