Surgical outcome of posterior fixation, including fractured vertebra, for thoracolumbar fractures

Quan M. Zhao; Xiao F. Gu; Hui L. Yang; Zhong T. Liu

doi:10.17712/nsj.2015.4.20150318

References

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1. Bu BX,
2. Wang MJ,
3. Liu WF,
4. Wang YS,
5. Tan HL
(2015) Short-segment posterior instrumentation combined with calcium sulfate cement vertebroplasty for thoracolumbar compression fractures: radiographic outcomes including nonunion and other complications. Orthop Traumatol Surg Res 101, 227–233.
↵
1. Sapkas G,
2. Kateros K,
3. Papadakis SA,
4. Brilakis E,
5. Macheras G,
6. Katonis P
(2010) Treatment of unstable thoracolumbar burst fractures by indirect reduction and posterior stabilization: short-segment versus long-segment stabilization. Open Orthop J 4, 7–13.
↵
1. Liao JC,
2. Fan KF,
3. Keorochana G,
4. Chen WJ,
5. Chen LH
(2010) Transpedicular grafting after short-segment pedicle instrumentation for thoracolumbar burst fracture: calcium sulfate cement versus autogenous iliac bone graft. Spine (Phila Pa 1976) 35, 1482–1488.
↵
1. Dong SH,
2. Chen HN,
3. Tian JW,
4. Xia T,
5. Wang L,
6. Zhao QH,
7. et al.
(2013) Effects of minimally invasive percutaneous and trans-spatium intermuscular short-segment pedicle instrumentation on thoracolumbar mono-segmental vertebral fractures without neurological compromise. Orthop Traumatol Surg Res 99, 405–411.
↵
1. Zhang L,
2. Zou J,
3. Gan M,
4. Shi J,
5. Li J,
6. Yang H
(2013) Treatment of thoracolumbar burst fractures: short-segment pedicle instrumentation versus kyphoplasty. Acta Orthop Belg 79, 718–725.
↵
1. Yu SW,
2. Fang KF,
3. Tseng IC,
4. Chiu YL,
5. Chen YJ,
6. Chen WJ
(2002) Surgical outcomes of short-segment fixation for thoracolumbar fracture dislocation. Chang Gung Med J 25, 253–259.
↵
1. Kanna RM,
2. Shetty AP,
3. Rajasekaran S
(2015) Posterior fixation including the fractured vertebra for severe unstable thoracolumbar fractures. Spine J 15, 256–264.
↵
1. Božík M,
2. Magala M,
3. Heger T,
4. Matejička D,
5. Baka J,
6. Šimko P
(2014) [Pedicle screw fixation of thoracic spine fractures]. Acta Chir Orthop Traumatol Cech 81, 140–151, Slovak.
↵
1. McAfee PC,
2. Farey ID,
3. Sutterlin CE,
4. Gurr KR,
5. Warden KE,
6. Cunningham BW
(1991) The effect of spinal implant rigidity on vertebral bone density. A canine model. Spine (Phila Pa 1976) 16, S190–S197.
↵
1. McLain RF,
2. Burkus JK,
3. Benson DR
(2001) Segmental instrumentation for thoracic and thoracolumbar fractures: prospective analysis of construct survival and five-year follow-up. Spine J 1, 310–323.
↵
1. Cheng LM,
2. Wang JJ,
3. Zeng ZL,
4. Zhu R,
5. Yu Y,
6. Li C,
7. et al.
(2013) Pedicle screw fixation for traumatic fractures of the thoracic and lumbar spine. Cochrane Database Syst Rev 5, CD009073.
↵
1. Guven O,
2. Kocaoglu B,
3. Bezer M,
4. Aydin N,
5. Nalbantoglu U
(2009) The use of screw at the fracture level in the treatment of thoracolumbar burst fractures. J Spinal Disord Tech 22, 417–421.
↵
1. Anekstein Y,
2. Brosh T,
3. Mirovsky Y
(2007) Intermediate screws in short segment pedicular fixation for thoracic and lumbar fractures: a biomechanical study. J Spinal Disord Tech 20, 72–77.
↵
1. Mahar A,
2. Kim C,
3. Wedemeyer M,
4. Mitsunaga L,
5. Odell T,
6. Johnson B,
7. et al.
(2007) Short-segment fixation of lumbar burst fractures using pedicle fixation at the level of the fracture. Spine (Phila Pa 1976) 32, 1503–1507.
↵
1. Dick JC,
2. Jones MP,
3. Zdeblick TA,
4. Kunz DN,
5. Horton WC
(1994) A biomechanical comparison evaluating the use of intermediate screws and cross-linkage in lumbar pedicle fixation. J Spinal Disord 7, 402–407.
↵
1. Baaj AA,
2. Reyes PM,
3. Yaqoobi AS,
4. Uribe JS,
5. Vale FL,
6. Theodore N,
7. et al.
(2011) Biomechanical advantage of the index-level pedicle screw in unstable thoracolumbar junction fractures. J Neurosurg Spine 14, 192–197.
↵
1. McCormack T,
2. Karaikovic E,
3. Gaines RW
(1994) The load sharing classification of spine fractures. Spine (Phila Pa 1976) 19, 1741–1744.
↵
1. Shono Y,
2. Kaneda K,
3. Abumi K,
4. McAfee PC,
5. Cunningham BW
(1998) Stability of posterior spinal instrumentation and its effects on adjacent motion segments in the lumbosacral spine. Spine (Phila Pa 1976) 23, 1550–1558.
↵
1. Verlaan JJ,
2. Dhert WJ,
3. Oner FC
(2013) Intervertebral disc viability after burst fractures of the thoracic and lumbar spine treated with pedicle screw fixation and direct end-plate restoration. Spine J 13, 217–221.
↵
1. Kanna RM,
2. Shetty AP,
3. Rajasekaran S
(2015) Posterior fixation including the fractured vertebra for severe unstable thoracolumbar fractures. Spine J 15, 256–264.
↵
1. Hartensuer R,
2. Gehweiler D,
3. Schulze M,
4. Matuszewski L,
5. Raschke MJ,
6. Vordemvenne T
(2013) Biomechanical evaluation of combined short segment fixation and augmentation of incomplete osteoporotic burst fractures. BMC Musculoskelet Disord 14, 1471–2474.

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[1] ↵
Bu BX,
Wang MJ,
Liu WF,
Wang YS,
Tan HL
(2015) Short-segment posterior instrumentation combined with calcium sulfate cement vertebroplasty for thoracolumbar compression fractures: radiographic outcomes including nonunion and other complications. Orthop Traumatol Surg Res 101, 227–233.

[2] Bu BX,

[3] Wang MJ,

[4] Liu WF,

[5] Wang YS,

[6] Tan HL

[7] ↵
Sapkas G,
Kateros K,
Papadakis SA,
Brilakis E,
Macheras G,
Katonis P
(2010) Treatment of unstable thoracolumbar burst fractures by indirect reduction and posterior stabilization: short-segment versus long-segment stabilization. Open Orthop J 4, 7–13.

[8] Sapkas G,

[9] Kateros K,

[10] Papadakis SA,

[11] Brilakis E,

[12] Macheras G,

[13] Katonis P

[14] ↵
Liao JC,
Fan KF,
Keorochana G,
Chen WJ,
Chen LH
(2010) Transpedicular grafting after short-segment pedicle instrumentation for thoracolumbar burst fracture: calcium sulfate cement versus autogenous iliac bone graft. Spine (Phila Pa 1976) 35, 1482–1488.

[15] Liao JC,

[16] Fan KF,

[17] Keorochana G,

[18] Chen WJ,

[19] Chen LH

[20] ↵
Dong SH,
Chen HN,
Tian JW,
Xia T,
Wang L,
Zhao QH,
et al.
(2013) Effects of minimally invasive percutaneous and trans-spatium intermuscular short-segment pedicle instrumentation on thoracolumbar mono-segmental vertebral fractures without neurological compromise. Orthop Traumatol Surg Res 99, 405–411.

[21] Dong SH,

[22] Chen HN,

[23] Tian JW,

[24] Xia T,

[25] Wang L,

[26] Zhao QH,

[27] et al.

[28] ↵
Zhang L,
Zou J,
Gan M,
Shi J,
Li J,
Yang H
(2013) Treatment of thoracolumbar burst fractures: short-segment pedicle instrumentation versus kyphoplasty. Acta Orthop Belg 79, 718–725.

[29] Zhang L,

[30] Zou J,

[31] Gan M,

[32] Shi J,

[33] Li J,

[34] Yang H

[35] ↵
Yu SW,
Fang KF,
Tseng IC,
Chiu YL,
Chen YJ,
Chen WJ
(2002) Surgical outcomes of short-segment fixation for thoracolumbar fracture dislocation. Chang Gung Med J 25, 253–259.

[36] Yu SW,

[37] Fang KF,

[38] Tseng IC,

[39] Chiu YL,

[40] Chen YJ,

[41] Chen WJ

[42] ↵
Kanna RM,
Shetty AP,
Rajasekaran S
(2015) Posterior fixation including the fractured vertebra for severe unstable thoracolumbar fractures. Spine J 15, 256–264.

[43] Kanna RM,

[44] Shetty AP,

[45] Rajasekaran S

[46] ↵
Božík M,
Magala M,
Heger T,
Matejička D,
Baka J,
Šimko P
(2014) [Pedicle screw fixation of thoracic spine fractures]. Acta Chir Orthop Traumatol Cech 81, 140–151, Slovak.

[47] Božík M,

[48] Magala M,

[49] Heger T,

[50] Matejička D,

[51] Baka J,

[52] Šimko P

[53] ↵
McAfee PC,
Farey ID,
Sutterlin CE,
Gurr KR,
Warden KE,
Cunningham BW
(1991) The effect of spinal implant rigidity on vertebral bone density. A canine model. Spine (Phila Pa 1976) 16, S190–S197.

[54] McAfee PC,

[55] Farey ID,

[56] Sutterlin CE,

[57] Gurr KR,

[58] Warden KE,

[59] Cunningham BW

[60] ↵
McLain RF,
Burkus JK,
Benson DR
(2001) Segmental instrumentation for thoracic and thoracolumbar fractures: prospective analysis of construct survival and five-year follow-up. Spine J 1, 310–323.

[61] McLain RF,

[62] Burkus JK,

[63] Benson DR

[64] ↵
Cheng LM,
Wang JJ,
Zeng ZL,
Zhu R,
Yu Y,
Li C,
et al.
(2013) Pedicle screw fixation for traumatic fractures of the thoracic and lumbar spine. Cochrane Database Syst Rev 5, CD009073.

[65] Cheng LM,

[66] Wang JJ,

[67] Zeng ZL,

[68] Zhu R,

[69] Yu Y,

[70] Li C,

[71] et al.

[72] ↵
Guven O,
Kocaoglu B,
Bezer M,
Aydin N,
Nalbantoglu U
(2009) The use of screw at the fracture level in the treatment of thoracolumbar burst fractures. J Spinal Disord Tech 22, 417–421.

[73] Guven O,

[74] Kocaoglu B,

[75] Bezer M,

[76] Aydin N,

[77] Nalbantoglu U

[78] ↵
Anekstein Y,
Brosh T,
Mirovsky Y
(2007) Intermediate screws in short segment pedicular fixation for thoracic and lumbar fractures: a biomechanical study. J Spinal Disord Tech 20, 72–77.

[79] Anekstein Y,

[80] Brosh T,

[81] Mirovsky Y

[82] ↵
Mahar A,
Kim C,
Wedemeyer M,
Mitsunaga L,
Odell T,
Johnson B,
et al.
(2007) Short-segment fixation of lumbar burst fractures using pedicle fixation at the level of the fracture. Spine (Phila Pa 1976) 32, 1503–1507.

[83] Mahar A,

[84] Kim C,

[85] Wedemeyer M,

[86] Mitsunaga L,

[87] Odell T,

[88] Johnson B,

[89] et al.

[90] ↵
Dick JC,
Jones MP,
Zdeblick TA,
Kunz DN,
Horton WC
(1994) A biomechanical comparison evaluating the use of intermediate screws and cross-linkage in lumbar pedicle fixation. J Spinal Disord 7, 402–407.

[91] Dick JC,

[92] Jones MP,

[93] Zdeblick TA,

[94] Kunz DN,

[95] Horton WC

[96] ↵
Baaj AA,
Reyes PM,
Yaqoobi AS,
Uribe JS,
Vale FL,
Theodore N,
et al.
(2011) Biomechanical advantage of the index-level pedicle screw in unstable thoracolumbar junction fractures. J Neurosurg Spine 14, 192–197.

[97] Baaj AA,

[98] Reyes PM,

[99] Yaqoobi AS,

[100] Uribe JS,

[101] Vale FL,

[102] Theodore N,

[103] et al.

[104] ↵
McCormack T,
Karaikovic E,
Gaines RW
(1994) The load sharing classification of spine fractures. Spine (Phila Pa 1976) 19, 1741–1744.

[105] McCormack T,

[106] Karaikovic E,

[107] Gaines RW

[108] ↵
Shono Y,
Kaneda K,
Abumi K,
McAfee PC,
Cunningham BW
(1998) Stability of posterior spinal instrumentation and its effects on adjacent motion segments in the lumbosacral spine. Spine (Phila Pa 1976) 23, 1550–1558.

[109] Shono Y,

[110] Kaneda K,

[111] Abumi K,

[112] McAfee PC,

[113] Cunningham BW

[114] ↵
Verlaan JJ,
Dhert WJ,
Oner FC
(2013) Intervertebral disc viability after burst fractures of the thoracic and lumbar spine treated with pedicle screw fixation and direct end-plate restoration. Spine J 13, 217–221.

[115] Verlaan JJ,

[116] Dhert WJ,

[117] Oner FC

[118] ↵
Kanna RM,
Shetty AP,
Rajasekaran S
(2015) Posterior fixation including the fractured vertebra for severe unstable thoracolumbar fractures. Spine J 15, 256–264.

[119] Kanna RM,

[120] Shetty AP,

[121] Rajasekaran S

[122] ↵
Hartensuer R,
Gehweiler D,
Schulze M,
Matuszewski L,
Raschke MJ,
Vordemvenne T
(2013) Biomechanical evaluation of combined short segment fixation and augmentation of incomplete osteoporotic burst fractures. BMC Musculoskelet Disord 14, 1471–2474.

[123] Hartensuer R,

[124] Gehweiler D,

[125] Schulze M,

[126] Matuszewski L,

[127] Raschke MJ,

[128] Vordemvenne T

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