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Ryszard M. Pluta, Scott D. Wait, John A. Butman, Kathleen A. Leppig, Alexander O. Vortmeyer, Edward H. Oldfield, and Russell R. Lonser

Hemangioblastomas are histologically benign neoplasms that occur sporadically or as part of von Hippel–Lindau disease. Hemangioblastomas may occur anywhere along the neuraxis, but sacral hemangioblastomas are extremely rare. To identify features that will help guide the operative and clinical management of these lesions, the authors describe the management of a large von Hippel–Lindau disease–associated sacral hemangioblastoma and review the literature.

The authors present the case of a 38-year-old woman with von Hippel–Lindau disease and a 10-year history of progressive back pain, as well as left lower-extremity pain and numbness. Neurological examination revealed decreased sensation in the left S-1 and S-2 dermatomes. Magnetic resonance imaging demonstrated a large enhancing lesion in the sacral region, with associated erosion of the sacrum. The patient underwent arteriography and embolization of the tumor and then resection. The histopathological diagnosis was consistent with hemangioblastoma and showed intrafascicular tumor infiltration of the S-2 nerve root. At 1-year follow-up examination, pain had resolved and numbness improved.

Sacral nerve root hemangioblastomas may be safely removed in most patients, resulting in stabilization or improvement in symptomatology. Generally, hemangioblastomas of the sacral nerve roots should be removed when they cause symptoms. Because they originate from the nerve root, the nerve root from which the hemangioblastoma originates must be sacrificed to achieve complete resection.

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Marc R. Mayberg

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Ali Reza Fathi, Ryszard M. Pluta, Kamran D. Bakhtian, Meng Qi, and Russell R. Lonser


Subarachnoid hemorrhage (SAH)-induced vasospasm is a significant underlying cause of aneurysm rupture-related morbidity and death. While long-term intravenous infusion of sodium nitrite (NaNO2) can prevent cerebral vasospasm after SAH, it is not known if the intravenous administration of this compound can reverse established SAH-induced vasospasm. To determine if the intravenous infusion of NaNO2 can reverse established vasospasm, the authors infused primates with the compound after SAH-induced vasospasm was established.


Subarachnoid hemorrhage–induced vasospasm was created in 14 cynomolgus macaques via subarachnoid implantation of a 5-ml blood clot. On Day 7 after clot implantation, animals were randomized to either control (saline infusion, 5 monkeys) or treatment groups (intravenous NaNO2 infusion at 300 μg/kg/hr for 3 hours [7 monkeys] or 8 hours [2 monkeys]). Arteriographic vessel diameter was blindly analyzed to determine the degree of vasospasm before, during, and after treatment. Nitric oxide metabolites (nitrite, nitrate, and S-nitrosothiols) were measured in whole blood and CSF.


Moderate-to-severe vasospasm was present in all animals before treatment (control, 36.2% ± 8.8% [mean ± SD]; treatment, 45.5% ± 12.5%; p = 0.9). While saline infusion did not reduce vasospasm, NaNO2 infusion significantly reduced the degree of vasospasm (26.9% ± 7.6%; p = 0.008). Reversal of the vasospasm lasted more than 2 hours after cessation of the infusion and could be maintained with a prolonged infusion. Nitrite (peak value, 3.7 ± 2.1 μmol/L), nitrate (18.2 ± 5.3 μmol/L), and S-nitrosothiols (33.4 ± 11.4 nmol/L) increased significantly in whole blood, and nitrite increased significantly in CSF.


These findings indicate that the intravenous infusion of NaNO2 can reverse SAH-induced vasospasm in primates. Further, these findings indicate that a similar treatment paradigm could be useful in reversing cerebral vasospasm after aneurysmal SAH.