Suzuki et al. Journal of Medical Case Reports (2015) 9:68 DOI 10.1186/s13256-015-0541-8 CASE REPORT JOURNAL OF MEDICAL CASE REPORTS Open Access Remote cerebellar hemorrhage following thoracic spinal surgery of an intradural extramedullary tumor: a case report Masazumi Suzuki1*, Takashi Kobayashi1, Naohisa Miyakoshi2, Eiji Abe1, Toshiki Abe1 and Yoichi Shimada2 Abstract Introduction: Remote cerebellar hemorrhage is a rare complication of spinal surgery. Although loss of cerebrospinal fluid seems to play an important role in the pathogenesis of this complication, the detailed mechanism of remote cerebellar hemorrhage after spinal surgery remains unclear. We report the case of a patient with remote cerebellar hemorrhage following thoracic spinal surgery of an intradural extramedullary tumor and discuss this entity with reference to the literature. Case presentation: A 57-year-old Japanese woman presented to our hospital with back pain, dysuria, and numbness of both legs. A neurological examination was performed, and imaging was performed with ordinary radiography, magnetic resonance imaging, and computed tomography. Her magnetic resonance imaging scan showed an intradural extramedullary tumor at the T3 level. A tumor resection and T1-T5 pedicle screw fixation were performed. Twelve hours after spinal surgery, she complained of unexpected dizziness, nausea, and vomiting. A total of 850mL of serosanguineous fluid had been drained at that time, and drainage was stopped. An urgent brain computed tomography scan showed a cerebellar hemorrhage. She was treated conservatively, and was able to leave hospital six weeks after the initial operation, without any neurological deficits except for slight ataxia. Conclusions: Remote cerebellar hemorrhage has to be suspected when unexpected neurological signs occur after spinal surgery. If an excessive amount of cerebrospinal fluid drains from the drainage tube after spinal surgery, drainage should be stopped. Keywords: Postoperative complication, Intradural extramedullary tumor, Remote cerebellar hemorrhage, Spinal surgery, Thoracic spine, Neurological signs Introduction Remote cerebellar hemorrhage (RCH) following spinal surgery is a rare complication [1-25]. Although loss of cerebrospinal fluid (CSF) plays an important role in the pathogenesis of this complication [1-25], the detailed mechanism of RCH after spinal surgery remains unclear. Here, we present a case of RCH after thoracic spinal surgery for an intradural extramedullary tumor, along with a review of previously reported cases and a discussion of the mechanism of RCH. * Correspondence: masazumi.suzuki0512@gmail.com 1 Department of Orthopedic Surgery, Akita Kousei Medical Center, 1-1-1 Iijima, Nishifukuro, Akita 011-0948, Japan Full list of author information is available at the end of the article Case presentation A 57-year-old Japanese woman, with no past medical history, presented to our institution with a one-year history of abdominal pain, a two-month history of back pain, numbness of both her legs, and a one-month history of dysuria. She initially reported abdominal pain and underwent extensive gastroenterological evaluation at another hospital, including an esophagogastroduodenoscopy, which was unremarkable. Her physical examination revealed no motor weakness and normal tendon reflexes. She felt hypoesthesia below the umbilicus. Magnetic resonance imaging (MRI) results demonstrated a large intradural extramedullary mass at the T3 level that was compressing her spinal cord from the ventral side (Figure 1). © 2015 Suzuki et al.; licensee BioMed Central. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Suzuki et al. Journal of Medical Case Reports (2015) 9:68 Page 2 of 6 Figure 1 Preoperative magnetic resonance images. Sagittal T1-weighted (a) and T2-weighted (b) magnetic resonance images of the thoracic spine, demonstrating an intradural extramedullary mass anterior to the spinal cord at the T3 level. The mass was iso-intense on T1-weighted imaging and T2-weighted imaging. Axial T1-weighted (c) and T2-weighted (d) magnetic resonance images show that the tumor seemed to be completely covered by the spinal cord. The intradural extramedullary tumor was resected through a laminectomy of T2-T4 and a facetectomy of T2-T3 and T3-T4 in the prone position under transcranial motor-evoked potential (MEP) monitoring. As the tumor was completely covered by her spinal cord, it was surgically removed by rotation of the spinal cord using tenting of the dentate ligament. After tumor resection, the dura that adhered to the tumor was cauterized. A watertight repair of the dura was performed, using fibrin glue to avoid CSF leakage. A T1-T5 pedicle screw fixation was performed (Figure 2). Abnormal MEP signals were observed on her left leg during and after the tumor resection. A subfascial drain was put in place, with negative pressure. After she woke the motor power was weakened to grade three to four in her left knee and ankle. The total operating time was 4 hours 39 minutes, and the amount of bleeding was 108g. The histological diagnosis of the tumor was a meningioma. Twelve hours after surgery, she developed nausea and confusion, and her clinical status deteriorated with loss of consciousness (Glasgow Coma Scale score of seven). A total of 850mL serosanguineous fluid had been drained at that time, and drainage was stopped. An emergency brain computed tomography (CT) scan demonstrated an acute cerebellar hemorrhage in the superior folia of the cerebellar hemispheres (Figure 3). An MRI Suzuki et al. Journal of Medical Case Reports (2015) 9:68 Page 3 of 6 Figure 2 Postoperative radiographs. Postoperative anterior-posterior (a) and lateral (b) radiographs showing T1-T5 pedicle screw instrumentation. scan demonstrated a herniation of the cerebellar tonsils (Figure 4a, b). She was treated conservatively with anti-edema and antihypertensive drugs, and her clinical status improved gradually. After removal of the drain, there was no CSF leakage. The results of her follow-up CT scan performed one week later showed that her hematoma and brain edema were decreased. Twelve days later, the results of her follow-up MRI scan showed ascent of the cerebellum to the normal position (Figure 4c, d). At six weeks after surgery, she had slight ataxia and was discharged with a cane. At her one-year follow-up assessment, she had a normal neurological examination except for hypoesthesia of the right leg, and there was no CSF collection visible on her MRI scan. Discussion Our case report has two characteristics. First, this case of thoracic meningioma that was located anterior to the spinal cord presented with a one-year history of undiagnosed abdominal pain. Lyons et al. [26] reported a similar case presenting as chronic abdominal pain. Second, although the tumor (which completely covered the spinal cord) was totally removed with a posterior surgical approach, our patient had some left lower extremity weakness postoperatively that improved gradually. A total resection of intradural extramedullary tumors located anterior to the spinal cord can be performed using an isolated posterior approach, with rotation of the spinal cord and tenting of the dentate ligament [27,28]. Figure 3 Non-enhanced plain computed tomography scan of the head taken 13 hours after spinal surgery, demonstrating an acute cerebellar hemorrhage in the superior folia of the cerebellar hemispheres (white arrows). (a) At the low cerebellum level, (b) At the cerebral peduncles level. Suzuki et al. Journal of Medical Case Reports (2015) 9:68 Page 4 of 6 Figure 4 Sagittal magnetic resonance imaging taken 13 hours and 12 days after spinal surgery. Sagittal T1-weighted (a) and T2-weighted (b) magnetic resonance images taken 13 hours after spinal surgery, demonstrating herniation of the cerebellar tonsils. Sagittal T1-weighted (c) and T2-weighted (d) magnetic resonance images taken 12 days after spinal surgery demonstrating ascent of the cerebellum to the normal position. RCHs are rare and dramatic complications can follow spinal surgery. Prevention is important, because RCHs sometimes follow a fatal course. Sporadic cases have been published since the first description by Chadduck [4]. At the time of writing, 32 cases of RCH after spinal surgery have been reported in the English-language literature (Table 1). Including the present case, the 33 cases consisted of 23 women and 10 men, with an age range of 36 to 85 years (mean: 60.9 years). Initial surgery was performed at the lumbar spine in 21 cases, thoracic spine in six, cervical spine in five, and thoracolumbar spine in one. A dural tear during surgery was present in 26 cases, but was not noticed in seven cases. The neurological symptoms were detected between 0 and 192 hours (mean: 45.7 hours) after surgery. A total of 16 RCHs were resolved with conservative treatment, but three patients died or developed serious paresis [1-3,5,8,10,11,15,19,21-23]. However, in severe cases, emergency surgical intervention with ventricular drainage or posterior fossa craniotomy was needed. Cranial surgery was performed in 14 patients, nine of whom improved, and five died or had serious paresis after surgery [4,6,7,9,11-14,17,18,20,24,25]. RCH occurs in patients with a dural tear and CSF leakage, whether occult or not. It is thus believed that perioperative and/or postoperative CSF losses, leading to cranial hypotension, represent the main contributing factor in RCH [1,8,12]. The exact pathophysiology of RCH is still controversial. It is suggested that transient stretching and occlusion of superior cerebellar veins, resulting from downward cerebellar displacement under conditions of intracranial hypotension, may lead to cerebellar hemorrhagic infarction [8,20]. It is also suggested that cerebellar sag can directly cause tearing and Suzuki et al. Journal of Medical Case Reports (2015) 9:68 Page 5 of 6 Table 1 Clinical parameters and outcomes in previous reports of remote cerebellar hemorrhage Author (year) Surgery Location Age, sex Onset Dural tear Treatment Results Chadduck (1981) [4] laminectomy CS present surgery improved surgery died 59, M 2 days Mikawa et al. (1994) [17] C1/2 fusion, durotomy CS 75, M 1 day present Andrews and Koci (1995) [1] scoliosis correction LS 36, M 36 hours unknown conservative quadriparesis Friedman et al. (2002) [8] posterior thoracic disc herniation TS removal 43, M 12 hours present PSF LS 56, F 2 days present conservative improved Thomas et al. (2002) [22] IETR TLS 38, F 5 days present conservative improved Farag et al. (2005) [7] PSF LS 43, F 36 hours present surgery improved Karaeminogullari et al. (2005) [12] PSF LS 73, F 2 days present surgery improved conservative improved Nakazawa et al. (2005) [19] IETR CS 74, F perioperative present conservative improved Konya et al. (2006) [15] PSF LS 48, F 12 hours present conservative improved Calisaneller et al. (2007) [2] PSF LS 67, F 8 days present conservative improved Cornips et al. (2007) [5] thoracoscopic microdiscectomy TS 48, F 3 days unknown conservative died Hashidate et al. (2008) [9] vertebral tumor resection TS 85, F 40 hours unknown surgery Cevik et al. (2009) [3] laminectomy LS 79, F 3 days unknown conservative improved PSF LS 68, F 7 days unknown conservative improved Enel et al. (2009) [6] PSF LS 51, F 30 hours present surgery improved died Khong and Jerry Day (2009) [14] PSF LS 70, F 36 hours present surgery improved Morofuji et al. (2009) [18] TS 51, M 18 hours present surgery improved improved laminectomy Pallud et al. (2009) [20] laminectomy LS 73, F 3 days present surgery Ulivieri et al. (2009) [23] microdiscectomy LS 53, M 2 hours present conservative improved Yang et al. (2011) [24] PSF LS 56, F 21 hours unknown surgery Hempelmann and Mater (2012) [10] IETR TS 61, F 7 days present conservative improved PSF LS 69, F 2 days present conservative improved ataxia and aphasia PSF LS 62, F 1 day present conservative improved Khalatbari et al. (2012) [13] discectomy LS 53, M 8 hours present surgery improved laminectomy LS 75, M perioperative present surgery died Lee et al. (2012) [16] PSF LS 63, F 6 hours present conservative improved unknown conservative improved Takahashi et al. (2012) [21] laminoplasty CS 69, F 15 hours Kaloostian et al. (2013) [11] PSF CS 45, M perioperative present conservative improved PSF LS 64, F 2 days present conservative brain dead PSF LS 81, F 1 day present surgery died intradural disc surgery LS 66, M 2 days present surgery improved Yoo et al. (2013) [25] CS, Cervical spine; F, Female; IETR, Intradural extramedullary tumor resection; LS, Lumbar spine; M, Male; PSF, Posterior spinal fusion; TS, Thoracic spine. bleeding of superior cerebellar veins [8]. Pallud et al. [20] hypothesized that RCH results primarily from superior cerebellar venous stretching and tearing, and that cerebellar infarction and swelling occur secondarily. The loss of CSF should be restricted and controlled, because intracranial hypotension may be the initial cause of RCH. Closed wound suction drainage is recommended for spinal surgery, because a postoperative drain theoretically reduces the risk of infection and/or wound breakdown by decompressing the site of postoperative hematoma formation. However, if too much serosanguineous fluid drains postoperatively, stopping drainage or removing the drainage tube should be considered to prevent intracranial hypotension. Removal of the drain restores the normal CSF flow dynamics, allowing the cerebellum to resume its normal position [1]. Friedman et al. [8] described a 56-year-old woman with postoperative RCH whose headache resolved when suction drainage of the wound was discontinued. Thus, considering our case and the published literature, we suggest stopping drainage Suzuki et al. Journal of Medical Case Reports (2015) 9:68 when RCH is suspected based on the patient’s complaints, including nausea and headache, and/or if an excessive amount of serosanguineous fluid has been drained postoperatively. This complication can be prevented by observing the amount of drainage fluid. If an excessive amount of fluid is drained, drainage should be stopped or converted to a gravity drain instead of a suction drain. Conclusions RCH is a rare postoperative complication of spinal surgery. RCH must be suspected when intracranial symptoms or unexpected neurological signs occur after spinal surgery. If an excessive amount of serosanguineous fluid is found coming from the drainage tube postoperatively, drainage should be stopped. Consent Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal. Abbreviations CT: Computed tomography; CSF: Cerebrospinal fluid; CT: Computed tomography; MEP: Motor-evoked potential; MRI: Magnetic resonance imaging; RCH: Remote cerebellar hemorrhage. Page 6 of 6 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Competing interests The authors declare that they have no competing interests. 21. Authors’ contributions Surgery was performed by TK. MS, TK, and NM were the major contributors in writing the manuscript. EA, TA, and YS supervised the whole work. All authors read and approved the final manuscript. 22. Acknowledgments The authors wish to thank Mamiko Kondo for her valuable assistance with the editing of this manuscript. 24. Author details 1 Department of Orthopedic Surgery, Akita Kousei Medical Center, 1-1-1 Iijima, Nishifukuro, Akita 011-0948, Japan. 2Department of Orthopedic Surgery, Akita University Graduate School of Medicine, 1-1-1 Hondo, Akita 010-8543, Japan. Received: 22 August 2014 Accepted: 3 February 2015 23. 25. 26. 27. 28. References 1. Andrews RT, Koci TM. Cerebellar herniation and infarction as a complication of an occult postoperative lumbar dural defect. Am J Neuroradiol. 1995;16:1312–5. 2. Calisaneller T, Yilmaz C, Ozger O, Caner H, Altinors N. Remote cerebellar haemorrhage after spinal surgery. Can J Neurol Sci. 2007;34:483–4. 3. Cevik B, Kirbas I, Cakir B, Akin K, Teksam M. Remote cerebellar hemorrhage after lumbar spinal surgery. Eur J Radiol. 2009;70:7–9. 4. 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