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2. Treatment of unilateral cervical facet fractures without evidence of dislocation or subluxation: a narrative review and proposed treatment algorithm

Author

Juan Ignacio Cirillo, Guillermo A Ricciardi, Facundo Lisandro Alvarez Lemos, Alfredo Guiroy, Ratko Yurac, and Klaus Schnake

Subjects
cervical facet fracture, isolated, non-displaced, trauma, spine, Orthopedic surgery, RD701-811
Abstract

Isolated cervical spine facet fractures are often overlooked. The primary imaging modality for diagnosing these injuries is a computed tomography scan. Treatment of unilateral cervical facet fractures without evidence of dislocation or subluxation remains controversial. The available evidence regarding treatment options for these fractures is of low quality. Risk factors associated with the failure of nonoperative treatment are: comminution of the articular mass or facet joint, acute radiculopathy, high body mass index, listhesis exceeding 2 mm, fragmental diastasis, acute disc injury, and bilateral fractures or fractures that adversely affect 40% of the intact lateral mass height or have an absolute height of 1 cm.

Published
2024
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6. Lumbo-sacral Junction Instability by Traumatic Sacral Fractures: Isler’s Classification Revisited – A Narrative Review

Author

Rishi M Kanna, Shanmuganathan Rajasekaran, Gregory D Schroeder, Klaus Schnake, Alexander R Vaccaro, Lorin Benneker, Cumhur F Oner, Frank Kandziora, and Emiliano Vialle

Subjects
Orthopedics and Sports Medicine, Surgery, Neurology (clinical)
Abstract

Study Design Narrative review Objectives Multiple classifications have been proposed for sacral fractures since the last century. While initial classifications focussed on vertical and transverse fractures, the recent fracture classifications encompass all injury patterns. In 1990, Isler classified unilateral vertical sacral fractures based on its potential influence on lumbo-sacral joint (LSJ) stability. Methods We re-visited the original description of Isler’s classification of sacral fractures and subsequent studies that have cited it. We will further describe basic LSJ anatomy, evolution of sacral classification systems and the use of Isler’s classification system as it relates to LSJ instability and chronic low back pain. Results Isler described a subset of unilateral vertical sacral fractures where the fracture line exited medial or through the L5-S1 facet joint, based on radiographic review of 193 sacral fractures (incidence -3.5%). He stated that such a fracture should be recognised as it can impede hemi-pelvis reduction and can result in late LSJ instability. The article has been cited in 106 studies and only a few studies have described the incidence of this variant. Nevertheless, the injury is considered as an indication for surgical fixation. Conclusion A review of various classifications indicates that sacral fractures have three important bio-mechanical implications, namely, pelvic ring continuity (vertical fractures), spino-pelvic alignment (high transverse fractures) and lumbo-sacral joint integrity (Isler’s fractures). Though there is a universal recognition of Isler’s fractures and its impact on LSJ integrity, there is a lack of clinical and bio-mechanical evidence regarding the concept of instability caused by a unilateral Isler fracture.

Published
2022
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7. Effect of surgical experience and spine subspecialty on the reliability of the AO Spine Upper Cervical Injury Classification System

Author

Mark J. Lambrechts, Gregory D. Schroeder, Brian A. Karamian, Jose A. Canseco, F. Cumhur Oner, Lorin M. Benneker, Richard J. Bransford, Frank Kandziora, Shanmuganathan Rajasekaran, Mohammad El-Sharkawi, Rishi Kanna, Andrei Fernandes Joaquim, Klaus Schnake, Christopher K. Kepler, Alexander R. Vaccaro, Dewan Asif, Sachin Borkar, Joseph Bakar, Slavisa Zagorac, Welege Wimalachandra, Oleksandr Garashchuk, Francisco Verdu-Lopez, Giorgio Lofrese, Pragnesh Bhatt, Oke Obadaseraye, Axel Partenheimer, Marion Riehle, Eugen Cesar Popescu, Christian Konrads, Nur Aida Faruk Senan, Adetunji Toluse, Nuno Neves, Takahiro Sunami, Bart Kuipers, Jayakumar Subbiah, Anas Dyab, Peter Loughenbury, Derek Cawley, René Schmidt, Loya Kumar, Farhan Karim, Zacharia Silk, Michele Parolin, Hisco Robijn, Al Kalbani, Ricky Rasschaert, Christian Müller, Marc Nieuwenhuijse, Selim Ayhan, Shay Menachem, Sarvdeep Dhatt, Nasser Khan, Subramaniam Haribabu, Moses Kimani, Olger Alarcon, Nnaemeka Alor, Dinesh Iyer, Michal Ziga, Konstantinos Gousias, Gisela Murray, Michel Triffaux, Sebastian Hartmann, Sung-Joo Yuh, Siegmund Lang, Kyaw Linn, Charanjit Singh Dhillon, Waeel Hamouda, Stefano Carnesecchi, Vishal Kumar, Lady Lozano Cari, Gyanendra Shah, Furuya Takeo, Federico Sartor, Fernando Gonzalez, Hitesh Dabasia, Wongthawat Liawrungrueang, Lincoln Liu, Younes El Moudni, Ratko Yurak, Héctor Aceituno, Madhivanan Karthigeyan, Andreas Demetriades, Sathish Muthu, Matti Scholz, Wael Alsammak, Komal Chandrachari, Khoh Phaik Shan, Sokol Trungu, Joost Dejaegher, Omar Marroquin, Moisa Horatiu Alexandru, Máximo-Alberto Diez-Ulloa, Paulo Pereira, Claudio Bernucci, Christian Hohaus, Miltiadis Georgiopoulos, Annika Heuer, Ahmed Arieff Atan, Mark Murerwa, Richard Lindtner, Manjul Tripathi, Huynh Hieu Kim, Ahmed Hassan, Norah Foster, Amanda O’Halloran, Koroush Kabir, Mario Ganau, Daniel Cruz, Amin Henine, Jeronimo Milano, Abeid Mbarak, Arnaldo Sousa, Satyashiva Munjal, Mahmoud Alkharsawi, Muhammad Mirza, Parmenion Tsitsopoulos, Fon-Yih Tsuang, Oliver Risenbeck, Arun-Kumar Viswanadha, Samer Samy, David Orosco, Gerardo Zambito-Brondo, Nauman Chaudhry, Luis Marquez, Jacob Lepard, Juan Muñoz, Stipe Corluka, Soh Reuben, Ariel Kaen, Nishanth Ampar, Sebastien Bigdon, Damián Caba, Francisco De Miranda, Loren Lay, Ivan Marintschev, Mohammed Imran, Sandeep Mohindra, Naga Raju Reddycherla, Pedro Bazán, Abduljabbar Alhammoud, Iain Feeley, Konstantinos Margetis, Alexander Durst, Ashok Kumar Jani, Rian Souza Vieira, Felipe Santos, Joshua Karlin, Nicola Montemurro, Sergey Mlyavykh, Brian Sonkwe, Darko Perovic, Juan Lourido, Alessandro Ramieri, Eduardo Laos, Uri Hadesberg, Andrei-Stefan Iencean, Pedro Neves, Eduardo Bertolini, Naresh Kumar, Philippe Bancel, Bishnu Sharma, John Koerner, Eloy Rusafa Neto, Nima Ostadrahimi, Olga Morillo, Kumar Rakesh, Andreas Morakis, Amauri Godinho, P. Keerthivasan, Richard Menger, Louis Carius, Rajesh Bahadur Lakhey, Ehab Shiban, Vishal Borse, Elizabeth Boudreau, Gabriel Lacerda, Paterakis Konstantinos, Mubder Mohammed Saeed, Toivo Hasheela, Susana Núñez Pereira, Jay Reidler, Nimrod Rahamimov, Mikolaj Zimny, Devi Prakash Tokala, Hossein Elgafy, Ketan Badani, Bing Wui Ng, Cesar Sosa Juarez, Thomas Repantis, Ignacio Fernández-Bances, John Kleimeyer, Nicolas Lauper, Luis María Romero-Muñoz, Ayodeji Yusuf, Zdenek Klez, John Afolayan, Joost Rutges, Alon Grundshtein, Rafal Zaluski, Stavros I. Stavridis, Takeshi Aoyama, Petr Vachata, Wiktor Urbanski, Martin Tejeda, Luis Muñiz, Susan Karanja, Antonio Martín-Benlloch, Heiller Torres, Chee-Huan Pan, Luis Duchén, Yuki Fujioka, Meric Enercan, Mauro Pluderi, Catalin Majer, and Vijay Kamath

Subjects
orthopedic spine surgeon, AO Spine, upper cervical spine, reproducibility, neurosurgeon, reliability, trauma, 610 Medicine & health, General Medicine, 610 Medizin und Gesundheit
Abstract

OBJECTIVE The objective of this paper was to determine the interobserver reliability and intraobserver reproducibility of the AO Spine Upper Cervical Injury Classification System based on surgeon experience (< 5 years, 5–10 years, 10–20 years, and > 20 years) and surgical subspecialty (orthopedic spine surgery, neurosurgery, and "other" surgery). METHODS A total of 11,601 assessments of upper cervical spine injuries were evaluated based on the AO Spine Upper Cervical Injury Classification System. Reliability and reproducibility scores were obtained twice, with a 3-week time interval. Descriptive statistics were utilized to examine the percentage of accurately classified injuries, and Pearson’s chi-square or Fisher’s exact test was used to screen for potentially relevant differences between study participants. Kappa coefficients (κ) determined the interobserver reliability and intraobserver reproducibility. RESULTS The intraobserver reproducibility was substantial for surgeon experience level (< 5 years: 0.74 vs 5–10 years: 0.69 vs 10–20 years: 0.69 vs > 20 years: 0.70) and surgical subspecialty (orthopedic spine: 0.71 vs neurosurgery: 0.69 vs other: 0.68). Furthermore, the interobserver reliability was substantial for all surgical experience groups on assessment 1 (< 5 years: 0.67 vs 5–10 years: 0.62 vs 10–20 years: 0.61 vs > 20 years: 0.62), and only surgeons with > 20 years of experience did not have substantial reliability on assessment 2 (< 5 years: 0.62 vs 5–10 years: 0.61 vs 10–20 years: 0.61 vs > 20 years: 0.59). Orthopedic spine surgeons and neurosurgeons had substantial intraobserver reproducibility on both assessment 1 (0.64 vs 0.63) and assessment 2 (0.62 vs 0.63), while other surgeons had moderate reliability on assessment 1 (0.43) and fair reliability on assessment 2 (0.36). CONCLUSIONS The international reliability and reproducibility scores for the AO Spine Upper Cervical Injury Classification System demonstrated substantial intraobserver reproducibility and interobserver reliability regardless of surgical experience and spine subspecialty. These results support the global application of this classification system.

Published
2023
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8. AO Spine Upper Cervical Injury Classification System: A Description and Reliability Study

Author

Alexander R. Vaccaro, Mark J. Lambrechts, Brian A. Karamian, Jose A. Canseco, Cumhur Oner, Emiliano Vialle, Shanmuganathan Rajasekaran, Marcel R. Dvorak, Lorin M. Benneker, Frank Kandziora, Mohammad El-Sharkawi, Jin Wee Tee, Richard Bransford, Andrei F. Joaquim, Sander P.J. Muijs, Martin Holas, Masahiko Takahata, Waeel O. Hamouda, Rishi M. Kanna, Klaus Schnake, Christopher K. Kepler, and Gregory D. Schroeder

Subjects
Surgeons, Observer Variation, Spinal Injuries, Cervical Vertebrae, Humans, Reproducibility of Results, Surgery, Orthopedics and Sports Medicine, 610 Medicine & health, Neurology (clinical)
Abstract

BACKGROUND CONTEXT Prior upper cervical spine injury classification systems have focused on injuries to the craniocervical junction (CCJ), atlas, and dens independently. However, no previous system has classified upper cervical spine injuries using a comprehensive system incorporating all injuries from the occiput to the C2-3 joint. PURPOSE To (1) determine the accuracy of experts at correctly classifying upper cervical spine injuries based on the recently proposed AO Spine Upper Cervical Injury Classification System (2) to determine their interobserver reliability and (3) identify the intraobserver reproducibility of the experts. STUDY DESIGN/SETTING International Multi-Center Survey PATIENT SAMPLE: A survey of international spine surgeons on 29 unique upper cervical spine injuries OUTCOME MEASURES: Classification accuracy, interobserver reliability, intraobserver reproducibility METHODS: Thirteen international AO Spine Knowledge Forum Trauma members participated in two live webinar-based classifications of 29 upper cervical spine injuries presented in random order, four weeks apart. Percent agreement with the gold-standard and kappa coefficients (ƙ) were calculated to determine the interobserver reliability and intraobserver reproducibility. RESULTS Raters demonstrated 80.8% and 82.7% accuracy with identification of the injury classification (combined location and type) on the first and second assessment, respectively. Injury classification intraobserver reproducibility was excellent (mean, [range] ƙ = 0.82 [0.58-1.00]). Excellent interobserver reliability was found for injury location (ƙ = 0.922 and ƙ= 0.912) on both assessments, while injury type was substantial (ƙ=0.689 and 0.699) on both assessments. This correlated to a substantial overall interobserver reliability (ƙ = 0.729 and 0.732). CONCLUSION Early phase validation demonstrated classification of upper cervical spine injuries using the AO Spine Upper Cervical Injury Classification System to be accurate, reliable, and reproducible. Greater than 80% accuracy was detected for injury classification. The intraobserver reproducibility was excellent, while the interobserver reliability was substantial.

Published
2022
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9. The AO spine upper cervical injury classification system: Do work setting or trauma center affiliation affect classification accuracy or reliability?

Author

Mark J. Lambrechts, Gregory D. Schroeder, Brian A. Karamian, Jose A. Canseco, Richard Bransford, Cumhur Oner, Lorin M. Benneker, Frank Kandziora, Rajasekaran Shanmuganathan, Rishi Kanna, Andrei F. Joaquim, Jens R Chapman, Emiliano Vialle, Mohammad El-Sharkawi, Marcel Dvorak, Klaus Schnake, Christopher K. Kepler, and Alexander R. Vaccaro

Subjects
Observer Variation, Surgeons, Lumbar Vertebrae, Spinal Injuries, Humans, Reproducibility of Results, General Earth and Planetary Sciences, 610 Medicine & health, 610 Medizin und Gesundheit, Thoracic Vertebrae, General Environmental Science
Abstract

PURPOSE To assess the accuracy and reliability of the AO Spine Upper Cervical Injury Classification System based on a surgeons' work setting and trauma center affiliation. METHODS A total of 275 AO Spine members participated in a validation of 25 upper cervical spine injuries, which were evaluated by computed tomography (CT) scans. Each participant was grouped based on their work setting (academic, hospital-employed, or private practice) and their trauma center affiliation (Level I, Level II or III, and Level IV or no trauma center). The classification accuracy was calculated as percent of correct classifications, while interobserver reliability, and intraobserver reproducibility were evaluated based on Fleiss' Kappa coefficient. RESULTS The overall classification accuracy for surgeons affiliated with a level I trauma center was significantly greater than participants affiliated with a level II/III center or a level IV/no trauma center on assessment one (p1

Published
2022
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10. Management of C0 Sacral Fractures Based on the AO Spine Sacral Injury Classification: A Narrative Review

Author

Mark J. Lambrechts, Gregory D. Schroeder, William Conaway, Parth Kothari, Taylor Paziuk, Brian A. Karamian, Jose A. Canseco, Cumhur Oner, Frank Kandziora, Richard Bransford, Emiliano Vialle, Mohammad El-Sharkawi, Klaus Schnake, and Alexander R. Vaccaro

Subjects
Orthopedics and Sports Medicine, Surgery, Neurology (clinical)
Abstract

The Arbeitsgemeinschaft fur Osteosynthese fragen Spine Sacral Injury Classification hierarchically separates fractures based on their injury severity with A-type fractures representing less severe injuries and C-type fractures representing the most severe fracture types. C0 fractures represent moderately severe injuries and have historically been referred to as nondisplaced "U-type" fractures. Injury management of these fractures can be controversial. Therefore, the purpose of this narrative review is to first discuss the Arbeitsgemeinschaft fur Osteosynthese fragen Spine Sacral Injury Classification System and describe the different fracture types and classification modifiers, with particular emphasis on C0 fracture types. The narrative review will then focus on the epidemiology and etiology of C0 fractures with subsequent discussion focused on the clinical presentation for patients with these injuries. Next, we will describe the imaging findings associated with these injuries and discuss the injury management of these injuries with particular emphasis on operative management. Finally, we will outline the outcomes and complications that can be expected during the treatment of these injuries.

Published
2022

11. An international validation of the AO spine subaxial injury classification system

Author

Brian A, Karamian, Gregory D, Schroeder, Mark J, Lambrechts, Jose A, Canseco, Cumhur, Oner, Emiliano, Vialle, Shanmuganathan, Rajasekaran, Marcel R, Dvorak, Lorin M, Benneker, Frank, Kandziora, Klaus, Schnake, Christopher K, Kepler, Alexander R, Vaccaro, and Welege, Wimalachandra

Abstract

To validate the AO Spine Subaxial Injury Classification System with participants of various experience levels, subspecialties, and geographic regions.A live webinar was organized in 2020 for validation of the AO Spine Subaxial Injury Classification System. The validation consisted of 41 unique subaxial cervical spine injuries with associated computed tomography scans and key images. Intraobserver reproducibility and interobserver reliability of the AO Spine Subaxial Injury Classification System were calculated for injury morphology, injury subtype, and facet injury. The reliability and reproducibility of the classification system were categorized as slight (ƙ = 0-0.20), fair (ƙ = 0.21-0.40), moderate (ƙ = 0.41-0.60), substantial (ƙ = 0.61-0.80), or excellent (ƙ = 0.80) as determined by the Landis and Koch classification.A total of 203 AO Spine members participated in the AO Spine Subaxial Injury Classification System validation. The percent of participants accurately classifying each injury was over 90% for fracture morphology and fracture subtype on both assessments. The interobserver reliability for fracture morphology was excellent (ƙ = 0.87), while fracture subtype (ƙ = 0.80) and facet injury were substantial (ƙ = 0.74). The intraobserver reproducibility for fracture morphology and subtype were excellent (ƙ = 0.85, 0.88, respectively), while reproducibility for facet injuries was substantial (ƙ = 0.76).The AO Spine Subaxial Injury Classification System demonstrated excellent interobserver reliability and intraobserver reproducibility for fracture morphology, substantial reliability and reproducibility for facet injuries, and excellent reproducibility with substantial reliability for injury subtype.

Published
2022

12. The Influence of Regional Differences on the Reliability of the AO Spine Sacral Injury Classification System

Author

Brian A, Karamian, Gregory D, Schroeder, Mark J, Lambrechts, Jose A, Canseco, Emiliano N, Vialle, Shanmuganathan, Rajasekaran, Lorin M, Benneker, Marcel R, Dvorak, Frank, Kandziora, Cumhur, Oner, Klaus, Schnake, Christopher K, Kepler, and Alexander R, Vaccaro

Subjects
Orthopedics and Sports Medicine, Surgery, 610 Medicine & health, Neurology (clinical)
Abstract

Study Design Global cross-sectional survey. Objective To explore the influence of geographic region on the AO Spine Sacral Classification System. Methods A total of 158 AO Spine and AO Trauma members from 6 AO world regions (Africa, Asia, Europe, Latin and South America, Middle East, and North America) participated in a live webinar to assess the reliability, reproducibility, and accuracy of classifying sacral fractures using the AO Spine Sacral Classification System. This evaluation was performed with 26 cases presented in randomized order on 2 occasions 3 weeks apart. Results A total of 8320 case assessments were performed. All regions demonstrated excellent intraobserver reproducibility for fracture morphology. Respondents from Europe (k = .80) and North America (k = .86) achieved excellent reproducibility for fracture subtype while respondents from all other regions displayed substantial reproducibility. All regions demonstrated at minimum substantial interobserver reliability for fracture morphology and subtype. Each region demonstrated >90% accuracy in classifying fracture morphology and >80% accuracy in fracture subtype compared to the gold standard. Type C morphology (p2 = .0000) and A3 (p1 = .0280), B2 (p1 = .0015), C0 (p1 = .0085), and C2 (p1 =.0016, p2 =.0000) subtypes showed significant regional disparity in classification accuracy (p1 = Assessment 1, p2 = Assessment 2). Respondents from Asia (except in A3) and the combined group of North, Latin, and South America had accuracy percentages below the combined mean, whereas respondents from Europe consistently scored above the mean. Conclusions In a global validation study of the AO Spine Sacral Classification System, substantial reliability of both fracture morphology and subtype classification was found across all geographic regions.

Published
2022
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13. Global Validation of the AO Spine Upper Cervical Injury Classification

Author

Alexander R, Vaccaro, Mark J, Lambrechts, Brian A, Karamian, Jose A, Canseco, Cumhur, Oner, Lorin M, Benneker, Richard, Bransford, Frank, Kandziora, Rajasekaran, Shanmuganathan, Mohammad, El-Sharkawi, Rishi, Kanna, Andrei, Joaquim, Klaus, Schnake, Christopher K, Kepler, Gregory D, Schroeder, and Mauro, Pluderi

Subjects
Observer Variation, Cross-Sectional Studies, Spinal Injuries, Cervical Vertebrae, Humans, Reproducibility of Results, 610 Medicine & health, Orthopedics and Sports Medicine, Spinal Diseases, Neurology (clinical), 610 Medizin und Gesundheit
Abstract

STUDY DESIGN Global Cross Sectional Survey. OBJECTIVE To determine the classification accuracy, interobserver reliability, and intraobserver reproducibility of the AO Spine Upper Cervical Injury Classification System based on an international group of AO Spine members. SUMMARY OF BACKGROUND DATA Previous upper cervical spine injury classifications have primarily been descriptive without incorporating a hierarchical injury progression within the classification system. Further, upper cervical spine injury classifications have focused on distinct anatomical segments within the upper cervical spine. The AO Spine Upper Cervical Injury Classification System incorporates all injuries of the upper cervical spine into a single classification system focused on a hierarchical progression from isolated bony injuries (type A) to fracture dislocations (type C). METHODS A total of 275 AO Spine members participated in a validation aimed at classifying 25 upper cervical spine injuries via computed tomography (CT) scans according to the AO Spine Upper Cervical Classification System. The validation occurred on two separate occasions, three weeks apart. Descriptive statistics for percent agreement with the gold-standard were calculated and Pearson's chi square test evaluated significance between validation groups. Kappa coefficients (ƙ) determined the interobserver reliability and intraobserver reproducibility. RESULTS The accuracy of AO Spine members to appropriately classify upper cervical spine injuries was 79.7% on assessment 1 (AS1) and 78.7% on assessment 2 (AS2). The overall intraobserver reproducibility was substantial (ƙ=0.70), while the overall interobserver reliability for AS1 and AS2 was substantial (ƙ=0.63 and ƙ=0.61, respectively). Injury location had higher interobserver reliability (AS1: ƙ = 0.85 and AS2: ƙ=0.83) than the injury type (AS1: ƙ=0.59 and AS2: 0.57) on both assessments. CONCLUSION The global validation of the AO Spine Upper Cervical Injury Classification System demonstrated substantial interobserver agreement and intraobserver reproducibility. These results support the universal applicability of the AO Spine Upper Cervical Injury Classification System.

Published
2022
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15. Posterior stabilization of subaxial cervical spine trauma: indications and techniques

Author

Frank, Kandziora, Robert, Pflugmacher, Matti, Scholz, Klaus, Schnake, Michael, Putzier, Cyrus, Khodadadyan-Klostermann, and Norbert P, Haas

Subjects
Adult, Joint Instability, Male, musculoskeletal diseases, medicine.medical_specialty, Adolescent, Nerve root, medicine.medical_treatment, Bone Screws, Bed rest, Posterior stabilization, Fixation (surgical), Humans, Medicine, General Environmental Science, business.industry, Middle Aged, Traction (orthopedics), Spinal cord, Cervical spine, Internal Fixators, Surgery, medicine.anatomical_structure, Radiological weapon, Cervical Vertebrae, General Earth and Planetary Sciences, Female, business, Bone Wires, Follow-Up Studies
Abstract

Summary The use of instrumentation for stabilization following cervical trauma has evolved rapidly in the past few decades. Nonoperative maneuvers, including traction, extended bed rest, and cast immobilization, have given way to wiring or screw rod constructs that allow immediate fixation and early mobilization of the patient. These procedures can be performed soon after trauma and with a minimum of surgical risk. They offer immediate stability of the injured spine, and can prevent the sequelae of acute cervical spinal cord injury that may accompany prolonged bed rest, thus allowing early rehabilitation and the potential for improved recovery. Current techniques for posterior cervical spine stabilization following trauma include spinous process or facet wiring [1–9], lateral mass plating [10–18], and cervical pedicle screws [19–27]. Several radiological tools, including MRI [28] and reformatted CT, yield precise details of the injured spine and allow the treating physician to determine which, if any, fixation technique offers the best chance of recovery with the least amount of risk. The goals of surgery following acute cervical spine injury include decompressing the injured spinal cord or nerve root, maintaining alignment, providing stability to the spine, promoting healing and fusion, and allowing early mobilization. This article will review indications for posterior cervical spine surgery, as well as the techniques that are currently available to help achieve the above-noted goals. We also report a recent retrospective review of 5-year data in treating posterior cervical trauma with lateral mass and pedicle screw fixation.

Published
2005
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