Post-Operative Spinal Epidural Hematoma after Thoracic and Lumbar Spinous Process-Splitting Laminectomy for Thoracic and Lumbar Spinal Stenosis
Introduction: To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).Methods: A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new...
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| Published in | Spine Surgery and Related Research Vol. 3; no. 3; pp. 244 - 248 |
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| Main Authors | , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Japan
The Japanese Society for Spine Surgery and Related Research
27.07.2019
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| Online Access | Get full text |
| ISSN | 2432-261X 2432-261X |
| DOI | 10.22603/ssrr.2018-0086 |
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| Abstract | Introduction: To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).Methods: A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new neurologic deficit due to epidural hematoma requiring reoperation. The 133 subjects (72.5 years; 64 men) with normal postoperative course were used as controls, and comparisons were made between both groups using chi-squared and Student's t-tests. Regarding our investigation of risk factors for epidural hematoma, logistic regression was conducted with presence or absence of hematoma as our primary outcome variable, and age, gender, disease duration, number of laminectomies, which levels were decompressed, blood loss, length of case, drain output, coagulopathy, and whether or not there was an intraoperative dural tear were our explanatory variables.Results: All cases of hematoma were single-level laminectomies; there was one case of T9-10 and 3 cases of L2-3. In our direct comparison of both groups (hematoma versus control), the proportion of men was significantly higher in the hematoma group (100% versus 48%, p < 0.05); levels decompressed were also significantly higher (p < 0.05) in the hematoma group, and drain outputs were significantly lower (113 mL versus 234 mL, p < 0.05). From our logistic regression analysis, the levels were significantly higher (χ2 = 15, p = 0.0001) and the drain outputs were smaller (χ2 = 4.6, p = 0.03) in the hematoma group.Conclusions: Single-level decompression higher than the L2-3 level and reduced drain output were risk factors for spinal epidural hematoma. With this method of spinous process suturing and reconstruction there is less decompression compared with more conventional methods; therefore, the effect of hematoma may be more pronounced at higher vertebral levels with reduced canal width, and drain failure may also occur with this limited space. |
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| AbstractList | Introduction: To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL). Methods: A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new neurologic deficit due to epidural hematoma requiring reoperation. The 133 subjects (72.5 years; 64 men) with normal postoperative course were used as controls, and comparisons were made between both groups using chi-squared and Student's t-tests. Regarding our investigation of risk factors for epidural hematoma, logistic regression was conducted with presence or absence of hematoma as our primary outcome variable, and age, gender, disease duration, number of laminectomies, which levels were decompressed, blood loss, length of case, drain output, coagulopathy, and whether or not there was an intraoperative dural tear were our explanatory variables. Results: All cases of hematoma were single-level laminectomies; there was one case of T9-10 and 3 cases of L2-3. In our direct comparison of both groups (hematoma versus control), the proportion of men was significantly higher in the hematoma group (100% versus 48%, p < 0.05); levels decompressed were also significantly higher (p < 0.05) in the hematoma group, and drain outputs were significantly lower (113 mL versus 234 mL, p < 0.05). From our logistic regression analysis, the levels were significantly higher (χ2 = 15, p = 0.0001) and the drain outputs were smaller (χ2 = 4.6, p = 0.03) in the hematoma group. Conclusions: Single-level decompression higher than the L2-3 level and reduced drain output were risk factors for spinal epidural hematoma. With this method of spinous process suturing and reconstruction there is less decompression compared with more conventional methods; therefore, the effect of hematoma may be more pronounced at higher vertebral levels with reduced canal width, and drain failure may also occur with this limited space. To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).INTRODUCTIONTo investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new neurologic deficit due to epidural hematoma requiring reoperation. The 133 subjects (72.5 years; 64 men) with normal postoperative course were used as controls, and comparisons were made between both groups using chi-squared and Student's t-tests. Regarding our investigation of risk factors for epidural hematoma, logistic regression was conducted with presence or absence of hematoma as our primary outcome variable, and age, gender, disease duration, number of laminectomies, which levels were decompressed, blood loss, length of case, drain output, coagulopathy, and whether or not there was an intraoperative dural tear were our explanatory variables.METHODSA total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new neurologic deficit due to epidural hematoma requiring reoperation. The 133 subjects (72.5 years; 64 men) with normal postoperative course were used as controls, and comparisons were made between both groups using chi-squared and Student's t-tests. Regarding our investigation of risk factors for epidural hematoma, logistic regression was conducted with presence or absence of hematoma as our primary outcome variable, and age, gender, disease duration, number of laminectomies, which levels were decompressed, blood loss, length of case, drain output, coagulopathy, and whether or not there was an intraoperative dural tear were our explanatory variables.All cases of hematoma were single-level laminectomies; there was one case of T9-10 and 3 cases of L2-3. In our direct comparison of both groups (hematoma versus control), the proportion of men was significantly higher in the hematoma group (100% versus 48%, p < 0.05); levels decompressed were also significantly higher (p < 0.05) in the hematoma group, and drain outputs were significantly lower (113 mL versus 234 mL, p < 0.05). From our logistic regression analysis, the levels were significantly higher (χ2 = 15, p = 0.0001) and the drain outputs were smaller (χ2 = 4.6, p = 0.03) in the hematoma group.RESULTSAll cases of hematoma were single-level laminectomies; there was one case of T9-10 and 3 cases of L2-3. In our direct comparison of both groups (hematoma versus control), the proportion of men was significantly higher in the hematoma group (100% versus 48%, p < 0.05); levels decompressed were also significantly higher (p < 0.05) in the hematoma group, and drain outputs were significantly lower (113 mL versus 234 mL, p < 0.05). From our logistic regression analysis, the levels were significantly higher (χ2 = 15, p = 0.0001) and the drain outputs were smaller (χ2 = 4.6, p = 0.03) in the hematoma group.Single-level decompression higher than the L2-3 level and reduced drain output were risk factors for spinal epidural hematoma. With this method of spinous process suturing and reconstruction there is less decompression compared with more conventional methods; therefore, the effect of hematoma may be more pronounced at higher vertebral levels with reduced canal width, and drain failure may also occur with this limited space.CONCLUSIONSSingle-level decompression higher than the L2-3 level and reduced drain output were risk factors for spinal epidural hematoma. With this method of spinous process suturing and reconstruction there is less decompression compared with more conventional methods; therefore, the effect of hematoma may be more pronounced at higher vertebral levels with reduced canal width, and drain failure may also occur with this limited space. To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL). A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL were included. Of these, there were instances (3.7%; mean age, 70.5 years; all male) of postoperative development of new neurologic deficit due to epidural hematoma requiring reoperation. The 133 subjects (72.5 years; 64 men) with normal postoperative course were used as controls, and comparisons were made between both groups using chi-squared and Student's -tests. Regarding our investigation of risk factors for epidural hematoma, logistic regression was conducted with presence or absence of hematoma as our primary outcome variable, and age, gender, disease duration, number of laminectomies, which levels were decompressed, blood loss, length of case, drain output, coagulopathy, and whether or not there was an intraoperative dural tear were our explanatory variables. All cases of hematoma were single-level laminectomies; there was one case of T9-10 and 3 cases of L2-3. In our direct comparison of both groups (hematoma versus control), the proportion of men was significantly higher in the hematoma group (100% versus 48%, p < 0.05); levels decompressed were also significantly higher (p < 0.05) in the hematoma group, and drain outputs were significantly lower (113 mL versus 234 mL, p < 0.05). From our logistic regression analysis, the levels were significantly higher (χ = 15, p = 0.0001) and the drain outputs were smaller (χ = 4.6, p = 0.03) in the hematoma group. Single-level decompression higher than the L2-3 level and reduced drain output were risk factors for spinal epidural hematoma. With this method of spinous process suturing and reconstruction there is less decompression compared with more conventional methods; therefore, the effect of hematoma may be more pronounced at higher vertebral levels with reduced canal width, and drain failure may also occur with this limited space. |
| Author | Aoki, Yasuchika Ohtori, Seiji Yamanaka, Hajime Kanamoto, Hirohito Koda, Masao Orita, Sumihisa Suzuki, Miyako Norimoto, Masaki Inage, Kazuhide Furuya, Takeo Takahashi, Kazuhisa Nakamura, Junichi Kobayashi, Tatsuya Eguchi, Yawara Umimura, Tomotaka Akazawa, Tsutomu Sato, Takashi Tamai, Hiroshi Suzuki, Munetaka Abe, Koki |
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| Cites_doi | 10.1016/j.joca.2013.02.656 10.1007/s00586-014-3297-8 10.3928/01477447-20160616-03 10.3171/2011.3.SPINE10716 10.1302/0301-620X.87B9.16518 10.1097/00007632-199901010-00015 10.1097/00007632-199911010-00016 10.3171/spi.2005.3.5.0405 10.1016/j.spinee.2012.10.028 10.1097/00007632-200208010-00016 10.1227/00006123-199508000-00025 10.1097/BSD.0000000000000329 10.2106/00004623-199173080-00007 |
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| References | 7. Kao FC, Tsai TT, Chen LH, et al. Symptomatic epidural hematoma after lumbar decompression surgery. Eur Spine J. 2015;24 (2):348-57. 5. Poletti CE. Central lumbar stenosis caused by ligamentum flavum: unilateral laminotomy for bilateral ligamentectomy: preliminary report of two cases. Neurosurgery. 1995;37 (2):343-7. 4. Nakai O, Ookawa A, Yamaura I. Long-term roentgenographic and functional changes in patients who were treated with wide fenestration for central lumbar stenosis. J Bone Joint Surg Am. 1991;73 (8):1184-91. 13. Baghdadi YM, Moussallem CD, Shuaib MA, et al. Lumbar spinous process-splitting laminoplasty: A novel technique for minimally invasive lumbar decompression. Orthopedics. 2016;39 (5):e950-6. 9. Kou J, Fischgrund J, Biddinger A, et al. Risk factors for spinal epidural hematoma after spinal surgery. Spine. 2002;27 (15):1670-73. 1. Ishimoto Y, Yoshimura N, Muraki S, et al. Associations between radiographic lumbar spinal stenosis and clinical symptoms in the general population: the Wakayama spine study. Osteoarthritis Cartilage. 2013;21 (6):783-8. 12. Schroeder GD, Kurd MF, Kepler CK, et al. Postoperative Epidural Hematomas in the Lumbar Spine. J Spinal Disord Tech. 2015;28 (9):313-8. 8. Awad JN, Kebaish KM, Donigan J, et al. Analysis of the risk factors for the development of post-operative spinal epidural haematoma. J Bone Joint Surg Br. 2005;87 (9):1248-52. 3. Weiner BK, Walker M, Brower RS, et al. Microdecompression for lumbar spinal canal stenosis. Spine (Phila Pa 1976). 1999;24 (21):2268-72. 10. Aono H, Ohwada T, Hosono N, et al. Incidence of postoperative symptomatic epidural hematoma in spinal decompression surgery. J Neurosurg Spine. 2011;15: 202-5. 11. Amiri AR, Fouyas IP, Cro S, et al. Postoperative spinal epidural hematoma (SEH): incidence, risk factors, onset, and management. Spine J. 2013;13 (2):134-40. 2. Weiner BK, Fraser RD, Peterson M. Spinous process osteotomies to facilitate lumbar decompressive surgery. Spine (Phila Pa 1976). 1999;24 (1):62-6. 6. Watanabe K, Hosoya T, Shiraishi T, et al. Lumbar spinous process-splitting laminectomy for lumbar canal stenosis. Technical note. J Neurosurg Spine. 2005;3 (5):405-8. 11 12 13 1 2 3 4 5 6 7 8 9 10 |
| References_xml | – reference: 1. Ishimoto Y, Yoshimura N, Muraki S, et al. Associations between radiographic lumbar spinal stenosis and clinical symptoms in the general population: the Wakayama spine study. Osteoarthritis Cartilage. 2013;21 (6):783-8. – reference: 6. Watanabe K, Hosoya T, Shiraishi T, et al. Lumbar spinous process-splitting laminectomy for lumbar canal stenosis. Technical note. J Neurosurg Spine. 2005;3 (5):405-8. – reference: 12. Schroeder GD, Kurd MF, Kepler CK, et al. Postoperative Epidural Hematomas in the Lumbar Spine. J Spinal Disord Tech. 2015;28 (9):313-8. – reference: 13. Baghdadi YM, Moussallem CD, Shuaib MA, et al. Lumbar spinous process-splitting laminoplasty: A novel technique for minimally invasive lumbar decompression. Orthopedics. 2016;39 (5):e950-6. – reference: 3. Weiner BK, Walker M, Brower RS, et al. Microdecompression for lumbar spinal canal stenosis. Spine (Phila Pa 1976). 1999;24 (21):2268-72. – reference: 9. Kou J, Fischgrund J, Biddinger A, et al. Risk factors for spinal epidural hematoma after spinal surgery. Spine. 2002;27 (15):1670-73. – reference: 10. Aono H, Ohwada T, Hosono N, et al. Incidence of postoperative symptomatic epidural hematoma in spinal decompression surgery. J Neurosurg Spine. 2011;15: 202-5. – reference: 2. Weiner BK, Fraser RD, Peterson M. Spinous process osteotomies to facilitate lumbar decompressive surgery. Spine (Phila Pa 1976). 1999;24 (1):62-6. – reference: 11. Amiri AR, Fouyas IP, Cro S, et al. Postoperative spinal epidural hematoma (SEH): incidence, risk factors, onset, and management. Spine J. 2013;13 (2):134-40. – reference: 4. Nakai O, Ookawa A, Yamaura I. Long-term roentgenographic and functional changes in patients who were treated with wide fenestration for central lumbar stenosis. J Bone Joint Surg Am. 1991;73 (8):1184-91. – reference: 7. Kao FC, Tsai TT, Chen LH, et al. Symptomatic epidural hematoma after lumbar decompression surgery. Eur Spine J. 2015;24 (2):348-57. – reference: 5. Poletti CE. Central lumbar stenosis caused by ligamentum flavum: unilateral laminotomy for bilateral ligamentectomy: preliminary report of two cases. Neurosurgery. 1995;37 (2):343-7. – reference: 8. Awad JN, Kebaish KM, Donigan J, et al. Analysis of the risk factors for the development of post-operative spinal epidural haematoma. J Bone Joint Surg Br. 2005;87 (9):1248-52. – ident: 1 doi: 10.1016/j.joca.2013.02.656 – ident: 7 doi: 10.1007/s00586-014-3297-8 – ident: 13 doi: 10.3928/01477447-20160616-03 – ident: 10 doi: 10.3171/2011.3.SPINE10716 – ident: 8 doi: 10.1302/0301-620X.87B9.16518 – ident: 2 doi: 10.1097/00007632-199901010-00015 – ident: 3 doi: 10.1097/00007632-199911010-00016 – ident: 6 doi: 10.3171/spi.2005.3.5.0405 – ident: 11 doi: 10.1016/j.spinee.2012.10.028 – ident: 9 doi: 10.1097/00007632-200208010-00016 – ident: 5 doi: 10.1227/00006123-199508000-00025 – ident: 12 doi: 10.1097/BSD.0000000000000329 – ident: 4 doi: 10.2106/00004623-199173080-00007 |
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| Snippet | Introduction: To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).Methods: A total of 137 cases (mean age, 72.4... To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL). A total of 137 cases (mean age, 72.4 years; 68 men) of SPSL... To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL).INTRODUCTIONTo investigate the risk of epidural hematoma after... Introduction: To investigate the risk of epidural hematoma after spinous process-splitting laminectomy (SPSL). Methods: A total of 137 cases (mean age, 72.4... |
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| SubjectTerms | lumbar spinal stenosis Original risk factors spinal epidural hematoma spinous process-splitting laminectomy |
| Title | Post-Operative Spinal Epidural Hematoma after Thoracic and Lumbar Spinous Process-Splitting Laminectomy for Thoracic and Lumbar Spinal Stenosis |
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| ispartofPNX | Spine Surgery and Related Research, 2019/07/27, Vol.3(3), pp.244-248 |
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