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European Spine Journal
Erschienen in: European Spine Journal 7/2019

27.04.2019 | Original Article

The cement leakage in cement-augmented pedicle screw instrumentation in degenerative lumbosacral diseases: a retrospective analysis of 202 cases and 950 augmented pedicle screws

verfasst von: Hui-zhi Guo, Yong-chao Tang, Dan-qing Guo, Shun-cong Zhang, Yong-xian Li, Guo-ye Mo, Pei-jie Luo, Ten-peng Zhou, Yan-huai Ma, De Liang, Xiao-bing Jiang

Erschienen in: European Spine Journal | Ausgabe 7/2019

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Abstract

Purpose

To evaluate the incidence, type and risk factors of cement leakage (CL) with cement-augmented pedicle screw instrumentation (CAPSI) in degenerative lumbosacral disease.

Methods

Two hundred and two patients using a total of 950 cement-augmented screws were enrolled. CL was classified into three types: type S: leakage via segmental veins; type B: leakage via basivertebral veins; and type I: leakage via pedicle screw instrumentation to paravertebral soft tissue. The age, gender, operation stage (primary or later stage), body mass index, bone mineral density, the number and type of augmented screw, the position of the tip of screw (lateral or internal part of vertebral body), the position of screw (left or right side), the volume of bone cement, location of the augmented vertebra (lumbar or sacrum), the type of CL and complications were recorded. Binary logistic regression correlation was used to analyze risk factors of veins leakage (type S and type B).

Results

The CL was observed in 165 patients (81.68%) and 335 screws (35.26%), leakage types of S, B and I were seen in 255 (76.12%), 77 (22.99%), and 30 (8.96%) of screws, respectively. Besides, double or multiple routes of leakage were seen in 27 screws. Number of augmented screw was a risk factor for vein leakage (OR 0.58; 95% CI 0.44–0.77; P = 0.000). Furthermore, the doses of cement (OR 0.79; 95% CI 0.61–0.99; P = 0.038) and the position of screw (OR 0.39; 95% CI 0.29–0.53; P = 0.000) were identified as risk factors for type S, and the doses of bone cement (OR 0.37; 95% CI 0.25–0.54; P = 0.000) and the position of the tip of screw (OR 0.07; 95% CI 0.04–0.13; P = 0.000) were risk factors for type B.

Conclusions

CAPSI bears a high risk of asymptomatic CL, with a higher rate of leakage into segmental veins and basivertebral veins. As is known, more augmented screws and larger doses of cement are risk factors for veins leakage (type S and type B), while the tip of screw approaching to the midline of the vertebral body is another risk factor to type B. Thus, the CL could be reduced by the amelioration of operative techniques and procedures.

Graphical abstract

These slides can be retrieved under Electronic Supplementary Material.
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Literatur
1.
Keorochana G, Pairuchvej S, Trathitephun W, Arirachakaran A, Predeeprompan P, Kongtharvonskul J (2017) Comparative outcomes of cortical screw trajectory fixation and pedicle screw fixation in lumbar spinal fusion: systematic review and meta-analysis. World Neurosurg 102:340–349CrossRefPubMed
2.
Lykissas MG, Jain VV, Nathan ST, Pawar V, Eismann EA, Sturm PF et al (2013) Mid- to long-term outcomes in adolescent idiopathic scoliosis after instrumented posterior spinal fusion: a meta-analysis. Spine (Phila Pa 1976) 38(2):E113–E119CrossRef
3.
Hoppe S, Keel MJB (2017) Pedicle screw augmentation in osteoporotic spine: indications, limitations and technical aspects. Eur J Trauma Emerg Surg 43(1):3–8CrossRefPubMed
4.
Halvorson TL, Kelley LA, Thomas KA, Whitecloud TS, Cook SD (1994) Effects of bone mineral density on pedicle screw fixation. Spine (Phila Pa 1976) 19(21):2415–2420CrossRef
5.
Ramaswamy R, Evans S, Kosashvili Y (2010) Holding power of variable pitch screws in osteoporotic, osteopenic and normal bone: are all screws created equal. Injury 41(2):179–183CrossRefPubMed
6.
Choma TJ, Pfeiffer FM, Swope RW, Hirner JP (2012) Pedicle screw design and cement augmentation in osteoporotic vertebrae: effects of fenestrations and cement viscosity on fixation and extraction. Spine (Phila Pa 1976) 37(26):E1628–E1632CrossRef
7.
Chang MC, Kao HC, Ying SH, Liu CL (2013) Polymethylmethacrylate augmentation of cannulated pedicle screws for fixation in osteoporotic spines and comparison of its clinical results and biomechanical characteristics with the needle injection method. J Spinal Disord Tech 26(6):305–315CrossRefPubMed
8.
Moussazadeh N, Rubin DG, McLaughlin L, Lis E, Bilsky MH, Laufer I (2015) Short-segment percutaneous pedicle screw fixation with cement augmentation for tumor-induced spinal instability. Spine J 15(7):1609–1617CrossRefPubMed
9.
Elder BD, Lo SF, Holmes C, Goodwin CR et al (2015) The biomechanics of pedicle screw augmentation with cement. Spine J 15(6):1432–1445CrossRefPubMed
10.
Mueller JU, Baldauf J, Marx S, Kirsch M, Schroeder HW, Pillich DT (2016) Cement leakage in pedicle screw augmentation: a prospective analysis of 98 patients and 474 augmented pedicle screws. J Neurosurg Spine 25(1):103–109CrossRefPubMed
11.
Martín-Fernández M, López-Herradón A, Piñera AR, Tomé-Bermejo F et al (2017) Potential risks of using cement-augmented screws for spinal fusion in patients with low bone quality. Spine J 17(8):1192–1199CrossRefPubMed
12.
Röllinghoff M, Siewe J, Eysel P, Delank KS (2010) Pulmonary cement embolism after augmentation of pedicle screws with bone cement. Acta Orthop Belg 76(2):269–273PubMed
13.
Yeom JS, Kim WJ, Choy WS, Lee CK, Chang BS, Kang JW (2003) Leakage of cement in percutaneous transpedicular vertebroplasty for painful osteoporotic compression fractures. J Bone Joint Surg Br 85(1):83–89CrossRefPubMed
14.
Kerry G, Ruedinger C, Steiner HH (2013) Cement embolism into the venous system after pedicle screw fixation: case report, literature review, and prevention tips. Orthop Rev (Pavia) 5(3):e24CrossRef
15.
Ding J, Zhang Q, Zhu J, Tao W et al (2016) Risk factors for predicting cement leakage following percutaneous vertebroplasty for osteoporotic vertebral compression fractures. Eur Spine J 25(11):3411–3417CrossRefPubMed
16.
Arabmotlagh M, Rickert M, Lukas A, Rauschmann M, Fleege C (2017) Small cavity creation in the vertebral body reduces the rate of cement leakage during vertebroplasty. J Orthop Res 35(1):154–159CrossRefPubMed
17.
Zhan Y, Jiang J, Liao H, Tan H, Yang K (2017) Risk factors for cement leakage after vertebroplasty or kyphoplasty: a meta-analysis of published evidence. World Neurosurg 101:633–642CrossRefPubMed
18.
Galbusera F, Volkheimer D, Reitmaier S, Berger-Roscher N, Kienle A, Wilke HJ (2015) Pedicle screw loosening: a clinically relevant complication. Eur Spine J 24(5):1005–1016CrossRefPubMed
19.
Chen YL, Chen WC, Chou CW, Chen JW et al (2014) Biomechanical study of expandable pedicle screw fixation in severe osteoporotic bone comparing with conventional and cement-augmented pedicle screws. Med Eng Phys 36(11):1416–1420CrossRefPubMed
20.
Nakashima H, Kawakami N, Tsuji T, Ohara T et al (2015) Adjacent segment disease after posterior lumbar interbody fusion: based on cases with a minimum of 10 years of follow-up. Spine (Phila Pa 1976) 40(14):E831–E841CrossRef
21.
Gazzeri R, Roperto R, Fiore C (2016) Surgical treatment of degenerative and traumatic spinal diseases with expandable screws in patients with osteoporosis: 2-year follow-up clinical study. J Neurosurg Spine 25(5):610–619CrossRefPubMed
22.
Bullmann V, Liljenqvist UR, Rödl R, Schulte TL (2010) Pedicle screw augmentation from a biomechanical perspective. Orthopade 39(7):673–678CrossRefPubMed
23.
Tan JS, Bailey CS, Dvorak MF, Fisher CG, Cripton PA, Oxland TR (2007) Cement augmentation of vertebral screws enhances the interface strength between interbody device and vertebral body. Spine (Phila Pa 1976) 32(3):334–341CrossRef
24.
Janssen I, Ryang YM, Gempt J, Bette S et al (2017) Risk of cement leakage and pulmonary embolism by bone cement-augmented pedicle screw fixation of the thoracolumbar spine. Spine J 17(6):837–844CrossRefPubMed
25.
Hatzantonis C, Czyz M, Pyzik R, Boszczyk BM (2017) Intracardiac bone cement embolism as a complication of vertebroplasty: management strategy. Eur Spine J 26(12):3199–3205CrossRefPubMed
26.
Audat ZA, Alfawareh MD, Darwish FT, Alomari AA (2016) Intracardiac leakage of cement during kyphoplasty and vertebroplasty: a case report. Am J Case Rep 17:326–330CrossRefPubMedPubMedCentral
27.
El SA, Kelm A, Meier S, Sander AL et al (2013) Intraoperative PEEP-ventilation during PMMA-injection for augmented pedicle screws: improvement of leakage rate in spinal surgery. Eur J Trauma Emerg Surg 39(5):461–468CrossRef
28.
Zhu SY, Zhong ZM, Wu Q, Chen JT (2016) Risk factors for bone cement leakage in percutaneous vertebroplasty: a retrospective study of four hundred and eighty five patients. Int Orthop 40(6):1205–1210CrossRefPubMed
29.
Fölsch C, Goost H, Figiel J, Paletta JR, Schultz W, Lakemeier S (2012) Correlation of pull-out strength of cement-augmented pedicle screws with CT-volumetric measurement of cement. Biomed Tech (Berl) 57(6):473–480CrossRef
30.
Bokov A, Mlyavykh S, Aleynik A, Kutlaeva M, Anderson G (2016) The potential impact of venobasillar system morphology and applied technique on epidural cement leakage with percutaneous vertebroplasty. Pain Physician 19(6):357–362PubMed
31.
Kasó G, Horváth Z, Szenohradszky K, Sándor J, Dóczi T (2008) Comparison of CT characteristics of extravertebral cement leakages after vertebroplasty performed by different navigation and injection techniques. Acta Neurochir (Wien) 150(7):677–683 (discussion 683) CrossRef
32.
Tajsic T, Patel K, Farmer R, Mannion RJ, Trivedi RA (2018) Spinal navigation for minimally invasive thoracic and lumbosacral spine fixation: implications for radiation exposure, operative time, and accuracy of pedicle screw placement. Eur Spine J 27(8):1918–1924CrossRefPubMed
33.
Kafchitsas K, Geiger F, Rauschmann M, Schmidt S (2010) Cement distribution in vertebroplasty pedicle screws with different designs. Orthopade 39(7):679–686CrossRefPubMed
34.
Loeffel M, Ferguson SJ, Nolte LP, Kowal JH (2008) Vertebroplasty: experimental characterization of polymethylmethacrylate bone cement spreading as a function of viscosity, bone porosity, and flow rate. Spine (Phila Pa 1976) 33(12):1352–1359CrossRef
Metadaten
Titel
The cement leakage in cement-augmented pedicle screw instrumentation in degenerative lumbosacral diseases: a retrospective analysis of 202 cases and 950 augmented pedicle screws
verfasst von
Hui-zhi Guo
Yong-chao Tang
Dan-qing Guo
Shun-cong Zhang
Yong-xian Li
Guo-ye Mo
Pei-jie Luo
Ten-peng Zhou
Yan-huai Ma
De Liang
Xiao-bing Jiang
Publikationsdatum
27.04.2019
Verlag
Springer Berlin Heidelberg
Erschienen in
European Spine Journal / Ausgabe 7/2019
Print ISSN: 0940-6719
Elektronische ISSN: 1432-0932
DOI
https://doi.org/10.1007/s00586-019-05985-4

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