GorganRM_SurgicalManagement 28 Gorgan et al Intracerebral and intramedullar multiple cavernomas Surgical management of symptomatic spinal cord and intracerebral cavernomas in a multiple cavernomas case R.M. Gorgan, F. Brehar, M. Catana, V. Pruna, Ana Gheorghiu, G. Popescu, Catioara Cristescu, A. Giovani Clinic of Neurosurgery, “Bagdasar – Arseni” Emergency Clinical Hospital, “Carol Davila” University of Medicine and Pharmacy, Bucharest Abstract: Multiple cavernous malformations are associated with familial cases and are present in 10-20% of all cavernoma cases. 5% of cavernomas are located intramedullary and of these only 10% present multiple cavernomas. With the availability of echo gradient MRI the cases of multiple cavernomas are diagnosed earlier and it is not rare that it uncovers multiple cavernomas in cases where only a single lesion can be identified on regular MRI sequences. We present the case of a 55 years old woman presented with a two years history of mild backache, followed by progressive lower legs motor deficit and urinary retention. The spine MRI showed an intramedullary T2/3 lesion and the cerebral MRI established the diagnosis of multiple cavernomas. One year after the intramedullary cavernoma was operated with success, she developed generalized seizures and a new cerebral MRI showed bleeding and volume growth of one right temporal pole cavernoma. The cerebral lesion was resected successfully and the patient was discharged free of seizures. This familial type multiple cavernomas cases should be screened and followed with repeated brain and spine MRI’s every year. Key words: multiple cavernous malformations, spinal cord, seizures, motor deficit Introduction Multiple cavernous malformations are associated with familial cases and are present in 10-20% of all cavernoma cases. 5% of cavernomas are located intramedullary and of these only 10% present multiple cavernomas. Reports of multiple cavernomas are yet rare in literature and they usualy focus on intracranian lesions. After the MRI was introduced in clinical practice the study of cavernous malformations shifted from a few anecdotal case reports to large series, some of them larger than 300 cases. With the availability of echo gradient MRI the cases of multiple cavernomas are diagnosed earlier and it is not rare that it uncovers multiple cavernomas in cases where only a single lesion can be identified on regular MRI sequences (1, 6, 9). Spinal intramedullary cavernomas are at times difficult to differentiate from other Romanian Neurosurgery (2016) XXX 1: 28 - 34 29 intramedullary tumors but a few MRI characteristics like the hypointense hemosiderin ring surrounding the lesion should orient the diagnosis. Compared to intracranian lesions the compactness of white matter long tracts and grey matter nuclei intramedullary makes dangerous lesions of the cavrnomas in this location. This is the reason why most of the patients with both spinal and intracranian CM have the intramedullary lesion removed first. (3, 16, 17) We present a young woman’s case of multiple cavernomas located both at spinal level and intracranian levels, with emphasis on the surgical technique for removal of two intramedullary and temporal lesions. Case presentation A 55 years old woman presented with a two years history of mild backache. A few months before admission she noted mild lower legs motor deficit progressing to difficulty ambulating without help and urinary retention. The patient had previous surgery for a thyroid tumor and hysterectomy and she received medication for mild arterial hypertension. On admission she showed 3/5 motor weakness and mild sensory deficit in both lower limb. Her ankle and knee reflexes were diminished and she had difficulty urinating. The MRI scan showed an enlarged spinal cord at the T3-T4 level with an inhomogeneous central signal and a peripheral hyperintensity prolonged from T2 to T4 disk. An area corresponding to T3 disk abnormal serpentine vessels were observed. No angiography was performed because the brain MRI confirmed the diagnosis of multiple cavernomas. Figure 1 - T2-T3 intramedullary lesion, a hypointense signal in T2 indicates old bleeding First surgery The patient was placed prone on the operating table with the head resting in horseshoe. A midline incision over the involved level and a laminectomy centered on and continued one level above and one level below the lesion were performed. The operative microscope was used. The spine was 30 Gorgan et al Intracerebral and intramedullar multiple cavernomas not considered instable as the articulars were left intact at all levels. After opening the sura in the midline the arachnoid was incised and suspended to the dura from T2 to T4 and then the pia was opened and stitched laterally to the dura in a few suture points. With gentle moves of the baionet the medulla was split uncovering a hemosiderin rich gliosis tissue. Deep to this tissue a tangled vessels reddish blue tumor was identified and gently dissected circumferential from the surrounding gliosis. An afferent vessel coming from the anterior spinal Artery was coagulated and cut before complete resection. The pia was approximated with a few interrupted sutures and the arachnoid was closed with continuous 6.0 and the dura was tightly closed with 4.0 surjet. The patient’s deficit persisted postoperatively. It took 6 months of motor recovery for the patient to be able to ambulante with a cane and to completely recover the bladder function. As none of the cerebral lesions were symptomatic the patient was treated conservatively for 1.4 years. As she suffered a few temporal seizures she was readmitted and a new MRI was performed. The echo gradient sequence showed a big 2/3 cm hypointense lesion in the right temporal pole and many infracentimetric lesions distributed both infratentorial and supratentorial bilateral, the biggest of the infratentorial lesions was located at the left Posterior medulla level, pand of the supratentorial lesions, in the inferior parietal lobule. The patient was operated for resection of the right temporal pole cavernoma that increased in size due to rebleeding and manifested with seizures. Figure 2 - After the dura has been opened over the tumor, the pia is retracted by interrupting sutures Figure 3 - The strawberry like lesion is found surrounded by a yellow, hemosiderin gliosis tissue Figure 4 - Complete removal of the tumor using extracapsular dissection Figure 5 - The pia is sutured after hemostasis was achieved Romanian Neurosurgery (2016) XXX 1: 28 - 34 31 Figure 6 - Echo gradient MRI sequence showing multiple cavernomas the biggest of the in the right temporal pole. Many small cavernomas are located in the brain stem Second surgery After elevating the right shoulder the head was rotated 45 degrees to the left and fixed with tape to the horseshoe. A curved incision starting 2 cm in front of the tragus and continued inside the hairline towards the midline was performed to allow the execution of a frontotemporal craniotomy. The scalp and the temporalis muscle were dissected with care in separate plans to avoid injury to the superficial temporal Artery of to the facials nerve. A small craniectomy was performed using a perforator and gigli saw and after removing the bone the sphenoid wing was drilled flat with the middle fossa floor. The dura was incised with superior pedicle and a subtemporal route was choosen to open the basal cysterns. When a good brain relaxation was obtained, an approach through the Sylvian fissure was used to see the discoloration area the cavernoma created in the inferior temporal girus. Using the hemosiderin as landmark the cavernous malformation was approached and dissected circumferentialy using suction and cottonoids. After coagulating the feeder coming from an M3 branch the lesion was removed as a single piece with the surrounding hemosiderin ring attached. The lesion bed was inspected for a good hemosthasis and the dura was tightly sutured and suspended. An epidural drain was left in place under the bone flap and the scalp was sutured. 32 Gorgan et al Intracerebral and intramedullar multiple cavernomas Figure 7 - Using a Sylvian fissure corridor and a small corticotomy in T 1 the cavernoma is identified and circumferentially disected along with the hemosiderin rich gliosis ring Figure 8 - Using cottonoids to create a plane between the lesion and the parenchima, the cavernoma is resected in one piece Figure 9 - The cavernoma bed after resection and hemostasis Romanian Neurosurgery (2016) XXX 1: 28 - 34 33 Figure 10 - Postoperative CT scan, showing total resection of the cavernoma The postoperative course was uneventful with no deficits or seizures. The patient was discharged in good health one week after the surgery. Discussion Intramedullary cavernous malformations are rare lesions with only few cases reported in literature yet the association between intramedullary location and the presence of multiple cavernomas is extremely rare. (2, 4, 7) The most common site for intramedullary lesions is the thoracic cord, but they have been described at cervical level and cauda equina. (5, 8, 12) In most of the cases the slowly progressive myelopathy is the usual presentation a fact that is characteristic for low flow vascular malformations with tendency to repeated bleeding episodes, such as these. In the case of supratentorial location the most common presentation are partial or generalized seizures preceded by a few years history of headache. (11, 13) The cavernomas present as mixed signal intensity masses surrounded by a decreased signal intensity rim yet this was not the case here as both the spinal and the temporal lesions had bled recently. Given the high density of eloquent areas intramedullary these lesions are better observed if asymptomatic. (14, 15) Cases like this with multiple cavernomas will unfortunately never be cured of the disease and will come to the attention of the neurosurgeon every time one small lesion will encounter acute growth following a bleeding episode. Conclusion Multiple cavernoma cases present difficulties in the strategic long term management and surgery as the only curative option should remain the ultimate alternative when the new neurological deficits arise. This reported case is illustrative for the need to perform both cerebral and spinal MRIs in patients suspected for multiple cavernomas and these patient’s family members should be investigated to rule out this pathology. References 1.Abdulrauf SI, Kaynar MY, Awad IA: A comparison of the clinical profile of cavernous malformations with and without associated venous malformations. Neurosurgery 44:41–47,1999 CrossRef, Medline 2.Aiba T, Tanaka R, Koike T, Kameyama S, Takeda N, Komata T: Natural history of intracranial cavernous malformations. J Neurosurg 83:56–59, 1995 Link 3.Sergio Canavero. (1993) Intramedullary Cavernous 34 Gorgan et al Intracerebral and intramedullar multiple cavernomas Angiomas of the Spinal Cord.Neurosurgery 32, 693-694. . Online publication date: 1-Apr-1993. [CrossRef] 4.Pierpaolo Lunardi, Michele Acqui, Luigi Ferrante, Aldo Fortuna. (1994) The Role of Intraoperative Ultrasound Imaging in the Surgical Removal of Intramedullary Cavernous Angiomas. Neurosurgery 34, 520-523. 5.Joseph M. Zabramski, M.D., Thomas M. Wascher, M.D., Robert F. Spetzler, M.D., BlakeJohnson, M.D., John Golfinos, M.D., Burton P. Drayer, M.D., Ben Brown, M.D., DanielRigamonti, M.D., and Geraldine Brown, R.N., M.S.. (1994) The natural history of familial cavernous malformations: results of an ongoing study 6.P. Drigo, I. Mammi, P. A. Battistella, G. Ricchieri, C. Carollo. (1994) Familial cerebral, hepatic, and retinal cavernous angiomas: a new syndrome. Child's Nervous System 10, 205-209 7.A Gil-Nagel. (1995) Familial cerebral cavernous angioma: Clinical analysis of a family and phenotypic classification. Epilepsy Research 21, 27-36. Online publication date: 1-May-1995 8.Douglas Kondziolka, M.D., M.Sc., F.R.C.S.(C), L. Dade Lunsford, M.D., and John R. W.Kestle, M.D., M.Sc., F.R.C.S.(C). (1995) The natural history of cerebral cavernous malformations. Journal of Neurosurgery 83:5, 820-824. . Online publication date: 1-Nov-1995 9.Issam Awad, M.D., and Pascal Jabbour, M.D.. (2006) Cerebral cavernous malformations and epilepsy. Neurosurgical Focus 21:1, 1-9. . Online publication date: 1-Jul-2006 10.Filiz Koc, Deniz Yerdelen, Zafer Koc. (2008) Multiple Supratentorial and Infratentorial Cavernous Malformations. Neurosurgery Quarterly 18, 141-143. Online publication date: 1-Jun-2008. 11.Filiz Koc, Deniz Yerdelen, Zafer Koc. (2008) Multiple Supratentorial and Infratentorial Cavernous Malformations. Neurosurgery Quarterly 18, 141-143. . Online publication date: 1-Jun-2008. 12.Shigeru MIYAKE, Yoshito UCHIHASHI, Yoshiaki TAKAISHI, Yoshio SAKAGAMI, EijiKOHMURA. (2007) Multiple Cavernous Angiomas of the Cauda Equina-Case Report-.Neurologia medico-chirurgica 13.Nundia Louis, Robert Marsh. (2016) Simultaneous and sequential hemorrhage of multiple cerebral cavernous malformations: a case report. Journal of Medical Case Reports 10. . Online publication date: 1- Dec-2016. 14.Juri Kivelev, Mika Niemelä, Riku Kivisaari, Reza Dashti, Aki Laakso, Juha Hernesniemi. (2009) LONG- TERM OUTCOME OF PATIENTS WITH MULTIPLE CEREBRAL CAVERNOUS MALFORMATIONS. Neurosurgery 65, 450-455 15.Juri Kivelev, Mika Niemelä, Riku Kivisaari, Reza Dashti, Aki Laakso, Juha Hernesniemi. (2009) LONG- TERM OUTCOME OF PATIENTS WITH MULTIPLE CEREBRAL CAVERNOUS MALFORMATIONS. Neurosurgery 65, 450-455. . Online publication date: 1- Sep-2009. 16.Bradley A. Gross, M.D., Rose Du, M.D., Ph.D., A. John Popp, M.D., and Arthur L. Day, M.D. Intramedullary spinal cord cavernous malformations, Neurosurgical Focus Sep 2010 / Vol. 29 / No. 3 / Page E14 17.John A. Anson, M.D., and Robert F. Spetzler, M.D. Surgical resection of intramedullary spinal cord cavernous malformations ; Journal of Neurosurgery Mar 1993 / Vol. 78 / No. 3, Pages 446-451