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4. Variability in Early Surgery for Acute Cervical Spinal Cord Injury Patients: An Opportunity for Enhanced Care Delivery.

Author

Neal, Chris J., Ugiliweneza, Beatrice, Toups, Elizabeth G., Abd-El-Barr, Muhammad, Jimsheleishvili, George, Kurpad, Shekar N., Aarabi, Bizhan, Harrop, James S., Shaffrey, Christopher I., Fehlings, Michael G., Tator, Charles H., Grossman, Robert G., and Guest, James D.

Subjects
*SPINAL cord injuries, *CERVICAL cord, *SYSTOLIC blood pressure
Abstract

Data supporting the benefits of early surgical intervention in acute spinal cord injury (SCI) is growing. For early surgery to be accomplished, understanding the causes of variabilities that effect the timing of surgery is needed to achieve this goal. The purpose of this analysis is to determine factors that affect the timing of surgery for acute cervical SCI within the North American Clinical Trials Network (NACTN) for SCI registry. Patients in the NACTN SCI registry from 2005 to 2019 with a cervical SCI, excluding acute traumatic central cord syndrome, were analyzed for time elapsed from injury to arrival to the hospital, and time to surgery. Two categories were defined: 1) Early Arrival with Early Surgery (EAES) commenced within 24 h of injury, and 2) Early Arrival but Delayed Surgery (EADS), with surgery occurring between 24 to 72 h post-injury. Patients' demographic features, initial clinical evaluation, medical comorbidities, neurological status, surgical intervention, complications, and outcome data were correlated with respect to the two arrival groups. Of the 222 acute cervical SCI patients undergoing surgery, 163 (73.4%) were EAES, and 59 (26.6%) were EADS. There was no statistical difference in arrival time between the EAES and EADS groups. There was a statistical difference in the median arrival time to surgery between the EAES group (9 h) compared with the EADS group (31 h; p < 0.05). There was no statistical difference in race, sex, age, mechanism of injury, Acute Physiologic Assessment and Chronic Health Evaluation (APACHE) II scores, or medical comorbidities between the two groups, but the EAES group did present with a significantly lower systolic blood pressure (p < 0.05). EADS patients were more likely to present as an American Spinal Injury Association Impairment Scale (AIS) D than EAES (p < 0.05). Early surgery was statistically more likely to occur if the injury occurred over the weekend (p < 0.05). There were variations in the rates of early surgery between the eight NACTN sites within the study, ranging from 57 to 100%. Of the 114 patients with 6-month outcome data, there was no significant change between the two groups regarding AIS grade change and motor/pin prick/light touch score recovery. A trend towards improved motor scores with early surgery was not statistically significant (p = 0.21). Although there is data that surgery within 24 h of injury improves outcomes and can be performed safely, there remain variations in care outside of clinical trials. In the present study of cervical SCI, NACTN achieved its goal of early surgery in 73.4% of patients from 2005-2019 who arrived within 24 h of their injury. Variability in achieving this goal was related to severity of neurological injury, the day of the week, and the treating NACTN center. Evaluating variations within our network improves understanding of potential systemic limitations and our decision-making process to accomplish the goal of early surgery. [ABSTRACT FROM AUTHOR]

Published
2023
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5. An Introduction to the North American Clinical Trials Network for Spinal Cord Injury Special Edition: Reflections on Accomplishments and a Look to the Future.

Author

Fehlings, Michael G., Neal, Chris J., Hejrati, Nader, Harrop, James S., Toups, Elizabeth G., and Guest, James D.

Subjects
*SPINAL cord injuries, *CLINICAL trials, *BODY-weight-supported treadmill training, *MEDICAL research, *TRANSLATIONAL research, *CLINICAL medicine
Abstract

The North American Clinical Trials Network (NACTN) has been established as a network of translational clinical research centers focused on traumatic spinal cord injury (SCI) with the goals of facilitating clinical translational research, promotion of enhanced clinical care protocols including the principle of early surgery for SCI, and improving outcomes for individuals with acute SCI. Since its foundation in 2004 by Dr. Robert Grossman, NACTN has evolved into a powerful multi-stakeholder consortium of eight neurosurgical department faculties at university-affiliated institutions in the United States and Canada, a data management center, and a pharmacological center. To date, high-quality data from more than 1000 patients have been prospectively collected, providing us with a strong body of evidence surrounding SCI epidemiology, the natural history, and complications of acute and subacute SCI management. Key accomplishments of NACTN are summarized in this Focus issue. They include the launch, in collaboration with AO Spine, of the international, multi-center, placebo-controlled, Phase III Riluzole in Acute Spinal Cord Injury Study (RISCIS) that recruited 192 patients. While the primary analyses did not achieve the predetermined endpoint of efficacy for Riluzole, likely related to insufficient power, pre-planned secondary analyses demonstrated that all subgroups of cervical SCI subjects (AIS grades A, B and C) treated with Riluzole showed significant gains in functional recovery. The Focus Issue also includes a detailed analysis of the pharmacokinetics and pharmacodynamics of riluzole in the setting of acute SCI (RISCIS-PK study). Additional achievements include key contributions to the evidence supporting the role of early surgery in acute SCI, and a better understanding of the impact of complications on the outcomes of SCI. Future directions of NACTN will build on past accomplishments and focus on enhanced collaborations with other SCI networks, advanced analytics to examine large datasets, and a greater focus on chronic SCI. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Interhospital Transfer Delays Care for Spinal Cord Injury Patients: A Report from the North American Clinical Trials Network for Spinal Cord Injury.

Author

Kelly-Hedrick, Margot, Ugiliweneza, Beatrice, Toups, Elizabeth G., Jimsheleishvili, George, Kurpad, Shekar N., Aarabi, Bizhan, Harrop, James S., Foster, Norah, Goodwin, Rory C., Shaffrey, Christopher I., Fehlings, Michael G., Tator, Charles H., Guest, James D., Neal, Chris J., Abd-El-Barr, Muhammad M., and Williamson, Theresa

Published
2023
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11. Demographics, Mechanism of Injury, and Outcomes for Acute Upper and Lower Cervical Spinal Cord Injuries: An Analysis of 470 Patients in the Prospective, Multi-Center, North American Clinical Trials Network Registry.

Author

Futch, Brittany Grace, Kouam, Romaric Waguia, Ugiliweneza, Beatrice, Harrop, James, Kurpad, Shekar, Foster, Norah, Than, Khoi, Crutcher, Clifford, Goodwin, C. Rory, Tator, Charles, Shaffrey, Christopher I., Aarabi, Bizhan, Fehlings, Michael, Neal, Chris J., Guest, James, and Abd-El-Barr, Muhammad M.

Published
2023
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17. An Update of a Clinical Practice Guideline for the Management of Patients With Acute Spinal Cord Injury: Recommendations on the Role and Timing of Decompressive Surgery.

Author

Fehlings, Michael G., Tetreault, Lindsay A., Hachem, Laureen, Evaniew, Nathan, Ganau, Mario, McKenna, Stephen L., Neal, Chris J., Nagoshi, Narihito, Rahimi-Movaghar, Vafa, Aarabi, Bizhan, Hofstetter, Christoph P., Wengel, Valerie ter, Nakashima, Hiroaki, Martin, Allan R., Kirshblum, Steven, Rodrigues Pinto, Ricardo, Marco, Rex A. W., Wilson, Jefferson R., Kahn, David E., and Newcombe, Virginia F. J.

Subjects
SPINAL cord injuries, BODY-weight-supported treadmill training, SURGICAL decompression, PHYSICIANS, PHYSICAL medicine, NERVE tissue, EMERGENCY medicine
Abstract

Study Design: Clinical practice guideline development. Objectives: Acute spinal cord injury (SCI) can result in devastating motor, sensory, and autonomic impairment; loss of independence; and reduced quality of life. Preclinical evidence suggests that early decompression of the spinal cord may help to limit secondary injury, reduce damage to the neural tissue, and improve functional outcomes. Emerging evidence indicates that "early" surgical decompression completed within 24 hours of injury also improves neurological recovery in patients with acute SCI. The objective of this clinical practice guideline (CPG) is to update the 2017 recommendations on the timing of surgical decompression and to evaluate the evidence with respect to ultra-early surgery (in particular, but not limited to, <12 hours after acute SCI). Methods: A multidisciplinary, international, guideline development group (GDG) was formed that consisted of spine surgeons, neurologists, critical care specialists, emergency medicine doctors, physical medicine and rehabilitation professionals, as well as individuals living with SCI. A systematic review was conducted based on accepted methodological standards to evaluate the impact of early (within 24 hours of acute SCI) or ultra-early (in particular, but not limited to, within 12 hours of acute SCI) surgery on neurological recovery, functional outcomes, administrative outcomes, safety, and cost-effectiveness. The GRADE approach was used to rate the overall strength of evidence across studies for each primary outcome. Using the "evidence-to-recommendation" framework, recommendations were then developed that considered the balance of benefits and harms, financial impact, patient values, acceptability, and feasibility. The guideline was internally appraised using the Appraisal of Guidelines for Research and Evaluation (AGREE) II tool. Results: The GDG recommended that early surgery (≤24 hours after injury) be offered as the preferred option for adult patients with acute SCI regardless of level. This recommendation was based on moderate evidence suggesting that patients were 2 times more likely to recover by ≥ 2 ASIA Impairment Score (AIS) grades at 6 months (RR: 2.76, 95% CI 1.60 to 4.98) and 12 months (RR: 1.95, 95% CI 1.26 to 3.18) if they were decompressed within 24 hours compared to after 24 hours. Furthermore, patients undergoing early surgery improved by an additional 4.50 (95% 1.70 to 7.29) points on the ASIA Motor Score compared to patients undergoing surgery after 24 hours post-injury. The GDG also agreed that a recommendation for ultra-early surgery could not be made on the basis of the current evidence because of the small sample sizes, variable definitions of what constituted ultra-early in the literature, and the inconsistency of the evidence. Conclusions: It is recommended that patients with an acute SCI, regardless of level, undergo surgery within 24 hours after injury when medically feasible. Future research is required to determine the differential effectiveness of early surgery in different subpopulations and the impact of ultra-early surgery on neurological recovery. Moreover, further work is required to define what constitutes effective spinal cord decompression and to individualize care. It is also recognized that a concerted international effort will be required to translate these recommendations into policy. [ABSTRACT FROM AUTHOR]

Published
2024
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18. A Clinical Practice Guideline for the Management of Patients With Acute Spinal Cord Injury: Recommendations on Hemodynamic Management.

Author

Kwon, Brian K., Tetreault, Lindsay A., Martin, Allan R., Arnold, Paul M., Marco, Rex A.W., Newcombe, Virginia F.J., Zipser, Carl M., McKenna, Stephen L., Korupolu, Radha, Neal, Chris J., Saigal, Rajiv, Glass, Nina E., Douglas, Sam, Ganau, Mario, Rahimi-Movaghar, Vafa, Harrop, James S., Aarabi, Bizhan, Wilson, Jefferson R., Evaniew, Nathan, and Skelly, Andrea C.

Subjects
MEDICAL personnel, HEMODYNAMICS, SPINAL cord injuries, NERVE tissue, PATIENT preferences, SPINAL cord
Abstract

Study Design: Clinical practice guideline development following the GRADE process. Objectives: Hemodynamic management is one of the only available treatment options that likely improves neurologic outcomes in patients with acute traumatic spinal cord injury (SCI). Augmenting mean arterial pressure (MAP) aims to improve blood perfusion and oxygen delivery to the injured spinal cord in order to minimize secondary ischemic damage to neural tissue. The objective of this guideline was to update the 2013 AANS/CNS recommendations on the hemodynamic management of patients with acute traumatic SCI, acknowledging that much has been published in this area since its publication. Specifically, we sought to make recommendations on 1. The range of mean arterial pressure (MAP) to be maintained by identifying an upper and lower MAP limit; 2. The duration of such MAP augmentation; and 3. The choice of vasopressor. Additionally, we sought to make a recommendation on spinal cord perfusion pressure (SCPP) targets. Methods: A multidisciplinary guideline development group (GDG) was formed that included health care professionals from a wide range of clinical specialities, patient advocates, and individuals living with SCI. The GDG reviewed the 2013 AANS/CNS guidelines and voted on whether each recommendation should be endorsed or updated. A systematic review of the literature, following PRISMA standards and registered in PROSPERO, was conducted to inform the guideline development process and address the following key questions: (i) what are the effects of goal-directed interventions to optimize spinal cord perfusion on extent of neurological recovery and rates of adverse events at any time point of follow-up? and (ii) what are the effects of particular monitoring techniques, perfusion ranges, pharmacological agents, and durations of treatment on extent of neurological recovery and rates of adverse events at any time point of follow-up? The GDG combined the information from this systematic review with their clinical expertise in order to develop recommendations on a MAP target range (specifically an upper and lower limit to target), the optimal duration for MAP augmentation, and the use of vasopressors or inotropes. Using methods outlined by the GRADE working group, recommendations were formulated that considered the balance of benefits and harms, financial impact, acceptability, feasibility and patient preferences. Results: The GDG suggested that MAP should be augmented to at least 75-80 mmHg as the "lower limit," but not actively augmented beyond an "upper limit" of 90-95 mmHg in order to optimize spinal cord perfusion in acute traumatic SCI. The quality of the evidence around the "target MAP" was very low, and thus the strength of this recommendation is weak. For duration of hemodynamic management, the GDG "suggested" that MAP be augmented for a duration of 3-7 days. Again, the quality of the evidence around the duration of MAP support was very low, and thus the strength of this recommendation is also weak. The GDG felt that a recommendation on the choice of vasopressor or the use of SCPP targets was not warranted, given the dearth of available evidence. Conclusion: We provide new recommendations for blood pressure management after acute SCI that acknowledge the limitations of the current evidence on the relationship between MAP and neurologic recovery. It was felt that the low quality of existing evidence and uncertainty around the relationship between MAP and neurologic recovery justified a greater range of MAP to target, and for a broader range of days post-injury than recommended in previous guidelines. While important knowledge gaps still remain regarding hemodynamic management, these recommendations represent current perspectives on the role of MAP augmentation for acute SCI. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Cervical and Thoracolumbar Spine Injury Evaluation, Transport, and Surgery in the Deployed Setting.

Author

Neal, Chris J, McCafferty, Randall R, Freedman, Brett, Helgeson, Melvin D, Rivet, Dennis, Gwinn, David E, and Rosner, Michael K

Subjects
*SPINAL cord injuries, *WAR wounds, *BLUNT trauma, *SPINAL cord surgery, *NEUROLOGIC examination, *CERVICAL vertebrae, *HOSPITAL admission & discharge, *MEDICAL protocols, *THORACIC vertebrae, *DISEASE management
Abstract

This Cervical and Thoracolumbar Spine Injury Evaluation, Transport, and Surgery Clinical Practice Guideline (CPG) is designed to provide guidance to the deployed provider when they are treating a combat casualty who has sustained a spine or spinal cord injury. The CPG objective for the treatment and the movement of these patients is to maintain spinal stability through transport, perform decompression when urgently needed, achieve definitive stabilization when appropriate, avoid secondary injury, and prevent deterioration of the patient's neurological condition. Thorough and accurate documentation of the patient's neurological examination is crucial to ensure appropriate management decisions are made as the patient transits through the evacuation system. The use of this CPG should be in conjunction with good clinical judgment. [ABSTRACT FROM AUTHOR]

Published
2018
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24. Catastrophic Non-Survivable Brain Injury Care-Role 2/3.

Author

Neal, Chris J, Bell, Randy S, Carmichael, J Jonas, DuBose, Joseph J, Grabo, Daniel J, Oh, John S, Remick, Kyle N, Bailey, Jeffrey A, and Stockinger, Zsolt T

Subjects
*BRAIN injuries, *BRAIN function localization, *ENDOCRINE function tests, *THYROXINE, *HEMODYNAMICS, *THERAPEUTICS, *BRAIN injury treatment, *DO-not-resuscitate orders, *HOSPITAL admission & discharge, *MILITARY hospitals, *FUTILE medical care, *TREATMENT effectiveness
Abstract

A catastrophic brain injury is defined as any brain injury that is expected to result in permanent loss of all brain function above the brain stem level. These clinical recommendations will help stabilize the patient so that they may be safely evacuated from theater. In addition to cardiovascular and hemodynamic goals, special attention must be paid to their endocrine dysfunction and its treatment-specifically steroid, insulin and thyroxin (t4) replacement while evaluating for and treating diabetes insipidus. Determining the futility of care coupled with resource management must also be made at each echelon. Logistical coordination and communication is paramount to expedite these patients to higher levels of care so that there is an increased probability of reuniting them with their family. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Neurosurgery and Medical Management of Severe Head Injury.

Author

McCafferty, Randall R, Neal, Chris J, Marshall, Scott A, Pamplin, Jeremy C, Rivet, Dennis, Hood, Brian J, Cooper, Patrick B, and Stockinger, Zsolt

Subjects
*HEAD injuries, *NEUROSURGERY, *TRAUMATIC shock (Pathology) treatment, *COMPUTED tomography, *GLASGOW Coma Scale, *THERAPEUTICS, *BRAIN injuries, *INTRACRANIAL hypertension
Abstract

Management of the patient with moderate to severe brain injury in any environment can be time consuming and resource intensive. In the austere or hostile environment, the challenges to deliver care to this patient population are magnified. These guidelines have been developed by acknowledging commonly recognized recommendations for neurosurgical and neuro-critical care patients and augmenting those evaluations and interventions based on the experience of neurosurgeons, trauma surgeons, and intensivists who have delivered care during recent coalition conflicts. [ABSTRACT FROM AUTHOR]

Published
2018
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29. Spine Injuries Sustained by U.S. Military Personnel in Combat are Different From Non-Combat Spine Injuries.

Author

Szuflita, Nicholas S., Neal, Chris J., Rosner, Michael K., Frankowski, Ralph F., and Grossman, Robert G.

Subjects
*AMERICAN military personnel, *SPINAL cord injuries, *VETERANS of the Afghan War, 2001-2021, *IRAQ War veterans, *MILITARY medicine, *WOUNDS & injuries, *LONGITUDINAL method, *MECHANICS (Physics), *MILITARY personnel, *SPINAL injuries, *ACQUISITION of data, *DISEASE prevalence, *RETROSPECTIVE studies, *TRAUMA severity indices
Abstract

Spine injuries are more prevalent among Iraq and Afghanistan veterans than among veterans of previous conflicts. The purpose of this investigation was to characterize the context, mode, and clinical outcomes of spine injuries sustained by U.S. military personnel in theater. Injury and clinical data from patients who sustained a spine injury in Iraq or Afghanistan between 2003 and 2008 were extracted from the Joint Theater Trauma Registry. Fischer's exact test was used to compare demographic variables between battle and nonbattle spine injuries. Two-sided t tests and univariate analyses were performed to analyze the association between injury context, mechanism, and severity with clinical outcome. A total of 307 patients sustained spine injuries in theater during the study period, and 296 had adequate data for analysis. Most injuries occurred in battle (69.6%), and these injuries were more likely to have an Injury Severity Score considered severe (44.7% vs. 20.0%; p < 0.001) or critical (13.6% vs. 5.6%; p = 0.0458). Blast was the most common mechanism of injury (42.2%) and was more likely to be blunt (81.6%) than penetrating (18.4%; p < 0.0001). Battle-associated spine injuries were most commonly caused by blasts, were more severe, and more likely to involve multiple spinal levels. [ABSTRACT FROM AUTHOR]

Published
2016
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33. Contributors

Author

Abbed, Khalid M., Abdullah, Kalil G., Agabegi, Steven S., Agrawal, Basheal M., Ahmed, Manzoor, Ahrens, Michael, Alapan, Yunus, Alcedo-Guardia, Rodolfo E., Alexander, Joseph T., Anand, Neel, Anderson, D. Greg, Angelov, Lilyana, Anson, John A., Apfelbaum, Ronald I., Arnold, Paul M., Arzi, Harel, Asghar, Ferhan A., Aubin, Michelle, Awad, Basem I., Baggot, Christopher, Baird, Lissa C., Baisden, Jamie, Baldwin, Nevan G., Ball, Perry A., Baron, Eli M., Batjer, H. Hunt, Bauer, Andrew M., Bauer, Thomas W., Bean, James R., Bell, Gordon R., Bellotte, J. Brad, Benglis, David M., Jr., Bennett, Gregory, Benzel, Edward C., Bergey, Darren L., Bertrand, Marc L., Berven, Sigurd, Bhalla, Tarun, Bianco, Aaron J., Bidros, Dani S., Bilsky, Mark H., Birch, Barry D., Bishop, Frank S., Blaylock, Kevin, Boakye, Maxwell, Boden, Scott D., Bono, Christopher, Branch, Charles L., Brodke, Darrel S., Brooks, Nathaniel, Brotea, Cristian, Browd, Samuel R., Bruner, Harlan, Butler, John, Cadotte, David W., Cahill, David W., Caruso, John R., Ceuppens, Jeroen, Chaudhary, Saad B., Chen, Morgan N., Chen, Thomas C., Choudhri, Tanvir, Conley, Adam, Connelly, Camille, Connolly, Edward S., Cooper, Kevin, Cooper, Paul R., Coric, Domagoj, Coumans, Jean-Valery C.E., Craciunas, Sorin, Cram, Albert E., Crawford, Charles H., III, Crockard, H. Alan, Curry, William T., Jr., Cusick, Joseph F., Daffner, Scott D., Dahdaleh, Nader S., Dalbayrak, Sedat, D’Alise, Mark D., DeMicco, Russell C., DePalma, Michael, Deutsch, Harel, DiAngelo, Denis, Dickman, Curtis A., DiPaola, Christian P., Dix, Gary A., Doyle, John, Ducker, Thomas B., Ebersold, Michael, Ehni, Bruce L., Eichholz, Kurt, Eichler, Marc, Eickman, John P., Elbabaa, Samer K., Elder, J. Bradley, Ellenbogen, Richard, Emery, Sanford E., Epstein, Nancy E., Errico, Thomas J., Fakhar, Malik, Falowski, Steven M., Farag, Ehab, Farley, Chad W., Fehlings, Michael G., Feigenbaum, Frank, Ferrara, Lisa A., Fessler, Richard G., Fiorella, David, Fischgrund, Jeffrey S., Foley, Kevin T., Fontes, Ricardo, Francis, Todd B., Fu, Kai-Ming G., Gantwerker, Brian R., Garrett, Mark, Germain, Rasha, German, John W., Ghanayem, Alexander J., Ghobrial, George M., Ghogawala, Zoher, Glazer, Paul A., Goel, Vijay K., Goffin, Jan, Gokaslan, Ziya, Goldsmith, Harry S., Gollogly, Sohrab, Gonzalez, L. Fernando, Gonzalez-Martinez, Jorge A., Gross, Jeffrey D., Guan, Yabo, Gulec, I·lker, Gwinn, David, Hadar, Elad, Hadjipavlou, Alexander, Hadley, Mark N., Haid, Regis W., Jr., Hanbali, Fadi, Harel, Ran, Harms, Jurgen, Harris, Colin B., Harrop, James S., Hart, Blaine L., Hart, Robert A., Hayek, Reyaad A., Heary, Robert F., Heller, Joshua E., Henderson, Fraser C., Henwood, Ann M., Hirano, Yoshitaka, Hiremath, Girish K., Hitchon, Patrick W., Hoh, Daniel J., Holman, Paul J., Hosono, Noboru, Houton, John K., Hsia, Augusto T., Jr., Hsieh, Joseph C., Hwang, Steven, Iannotti, Christopher A., Ianuzzi, Allyson, I˙nceog˘lu, Serkan, Isaacs, Robert E., Itoh, Yasunobu, Jackson, Adam W., Jethwa, Pinakin R., Jha, Neilank, Johnson, J. Patrick, Jones, G. Alexander, Kager, Christopher D., Kakarla, Udaya K., Kakavelakis, Kyriakos, Kalani, M. Yashar S., Kalfas, Iain H., Kamali-Nejad, Tara, Karam, Youssef R., Karimi, Reza J., Katzan, Irene, Kaul, Vikas, Kelly, Michael, Kenning, James A., Kenning, Tyler J., Kern, Matthew B., Khairi, Saad, Khalaf, Tagreed, Kiapour, Ali, Killory, Brendan, Kim, Daniel H., Kim, David H., Kim, Paul, Kim, Sang-Don, Kistler, Brian J., Kitab, Sameer A., Kitagawa, Ryan S., Klimo, Paul, Klineberg, Eric, Kopitnik, Thomas A., Korovessis, Panagiotis, Koski, Tyler, Kowalski, Robert J., Krishna, Chandan, Krishnaney, Ajit A., Kshettry, Varun R., Kuntz, Charles, IV, Kurtz, Steven M., Lancon, John A., Lastra-Power, Jorge, Lavelle, Elizabeth Demers, Lavelle, William F., Lebwohl, Nathan H., Lee, Joon Y., Lenke, Lawrence G., Leon, Steven P., Levi, Allan D., Lieberman, Isador H., Lindley, Timothy, Liu, James K.C., Livingston, Andrew D., Lobo, Bjorn, Lollis, S. Scott, Long, Donlin M., Lopez-Gonzalez, Miguel, Louis, Robert G., Lu, Daniel C., Luciano, Mark G., Machado, Andre, Maiman, Dennis J., Malone, David G., Maloney, Lisabeth L., Mammis, Antonios, Marawar, Satyajit, Marchan, Edward, Marcotte, Nicolas, Maroon, Joseph, Martin, Michael, Martineau, Mitchell, Massicotte, Eric M., Matheus, Virgilio, Matsuoka, Hidenori, Maurer, Paul K., Mayer, Eric A.K., Mazanec, Daniel J., McAfee, Paul C., McCormack, Bruce M., McCormick, Paul C., McCormick, William, McGuire, Robert A., Jr., McKibben, Michael D., McLain, Robert F., Melton, D. Mark, Memon, Muhammad Zeeshan, Metkar, Umesh S., Miele, Vincent, Miranpuri, Amrendra S., Mizuno, Junichi, Mlyavykh, Sergey, Modic, Michael T., Morisue, Hikaru, Morone, Michael A., Mroz, Thomas E., Mullin, Jeffrey P., Mummaneni, Praveen V., Murtagh, F. Reed, Murtagh, Ryan D., Myseros, John S., Naderi, Sait, Nair, Dileep, Nakagawa, Hiroshi, Nanda, Anil, Neal, Chris J., Nockels, Russ P., Ohaegbulam, Chima, Okada, Eijiro, Ordonez, Bernardo Jose, Orning, Jennifer, Orr, R. Douglas, O’Toole, John, Ozer, A. Fahir, Parkinson, Richard J., Pashman, Robert S., Patel, Nirav J., Patel, Vishal C., Pelofsky, Stanley, Perin, Noel I., Perlmutter, Olga, Phillips, Frank M., Placide, Rick, Porensky, Paul, Prasad, Srinivas, Prasarn, Mark L., Przybylski, Gregory J., Rabin, Doron, Ragab, Ashraf A., Rajpal, Sharad, Rampersaud, Y. Raja, Rasmussen, Peter A., Rausching, Wolfgang, Rea, Gary L., Reames, Davis L., Rechtine, Glenn R., II, Regan, John, Resnick, Daniel K., Rhines, Laurence, Riesenburger, Ron, Riew, K. Daniel, Rodts, Gerald E., Jr., Roeser, Andrew C., Roger, Eric, Rusafa, Eloy, Saavedra, Fanor Manuel, Satyan, Krishna, Sawin, Paul D., Sayadipour, Amirali, Scheid, Edward H., Jr., Schippert, David W., Schlenk, Richard, Schmidt, Meic H., Sciubba, Daniel M., Severson, Meryl, Shaffrey, Christopher I., Shaffrey, Mark E., Sharan, Alok D., Sharan, Ashwini D., Shedid, Daniel, Shields, Christopher B., Shin, John H., Shook, Steven, Siemionow, Krzysztof, Simeone, Fredrick A., Simmons, James W., II, Sin, Anthony, Sinclair, George L., III, Singh, Harminder, Sinkov, Vladimir, Smith, Donald A., Smith, Justin S., Smith, Maurice M., Smith, Sean R., Smith, Zachary A., Sonntag, Volker K.H., Speck, Micheal J., Spetzler, Robert F., Spiotta, Alejandro, Starke, Robert M., Steenland, Peter, Steinmetz, Michael P., Stillerman, Charles B., Strayer, Andrea L., Sullivan, Brian J., Swanson, Kyle I., Tabbosha, Monir N., Talac, Robert, Tallarico, Richard, Tashjian, Vartan, Tator, Charles H., Techy, Fernando, Teufack, Sonia G., Theodore, Nicholas, Thomas, Nicholas W.M., Thompson, James D., Thorpe, Steven W., Tibbs, Robert E., Jr., Tintle, Scott, Tjoumakaris, Stavropoula, Togawa, Daisuke, Toussaint, C. Philip, Traynelis, Vincent C., Trost, Gregory R., Tsai, Eve C., Tumialán, Luis M., Turner, Michael, Tye, Gary W., Ugokwe, Kene, Uschold, Timothy, Utter, Andrew, Vaccaro, Alexander R., Valadka, Alex, Varma, Gandhi, Vaynman, Shoshanna, Verma, Kushagra, Virella, Anthony A., Vitarbo, Elizabeth, Vitaz, Todd W., von Hertwig Fernandes de Oliveira, Tatiana, Voyadzis, Jean-Marc, Walsh, Kevin M., Walton, Sharon, Wang, Jeffrey C., Wang, Michael Y., Ward, John D., Wardak, Zabi, Watson, Joseph, Weinstein, Philip R., Weisman, Michael, Welch, William C., Weller, Simcha J., Westerlund, L. Erik, White, Andrew P., White, Jonathan A., Whitmore, Robert G., Wienecke, Robert J., Wilberger, Jack E., Williams, Brian J., Wilson, William A., IV, Wolfla, Christopher, Wolinsky, Jean-Paul, Woodard, Eric J., Woodrow, Sarah I., Yanni, Daniel S., Yazbak, Philip A., Yeung, Anthony T., Yilmaz, Mesut, Yoganandan, Narayan, Yonemura, Kenneth S., Yonenobu, Kazuo, Yuan, Hansen A., Zachary, Adrian M., Zeidman, Seth M., Zide, Barry M., and Zileli, Mehmet

Published
2012
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38. Symptomatic lumbar osteochondroma treated via a multidisciplinary military surgical team: case report and review of the literature.

Author

Rymarczuk, George N, Dirks, Michael S, Whittaker, David R, and Neal, Chris J

Abstract

The authors describe the case of a giant osteochondroma emanating from the L5 vertebral body and extending into the retroperitoneum of a 40-year-old man, causing low back pain. Osteochondromas are benign bony tumors that typically occur within the appendicular skeleton, although in the sporadic form, up to 4% occur in the spine. A review of the English language literature has returned 44 cases of lumbar osteochondroma, including the present example. The lesions were sporadic in 81% of cases. Mean age of presentation overall is 39.5 years, with a mean age of 18.4 years (range 8-34 years) for hereditary cases and 45.7 years (range 11-81 years) for solitary lesions. Of the instances where gender was reported, 64% were male. The most common level of origin was L4 (38%). The most common anatomic site of origin was the inferior articular process (one-third). Of those lesions treated operatively, 46% underwent simple decompression, with 22% requiring decompression and fusion. This particular lesion was resected via a transperitoneal approach performed by a multidisciplinary team of neurosurgeons, vascular surgeons, and urologists. The bony tumor measured 6.1 × 7.8 × 7.7 cm. Removal of the lesion resulted in a significant improvement of the patient's symptoms. [ABSTRACT FROM AUTHOR]

Published
2015
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40. Bow hunter syndrome in rheumatoid arthritis: illustrative case.

Author

Curry BP, Ravindra VM, Boulter JH, Neal CJ, and Ikeda DS

Abstract

Background: Rheumatoid arthritis (RA) frequently features degeneration and instability of the cervical spine. Rarely, this degeneration manifests as symptoms of bow hunter syndrome (BHS), a dynamic cause of vertebrobasilar insufficiency., Observations: The authors reviewed the literature for cases of RA associated with BHS and present a case of a man with erosive RA with intermittent syncopal episodes attributable to BHS as a result of severe extrinsic left atlantooccipital vertebral artery compression from RA-associated cranial settling. A 72-year-old man with RA-associated cervical spine disease who experienced gradual, progressive functional decline was referred to a neurosurgery clinic for evaluation. He also experienced intermittent syncopal events and vertiginous symptoms with position changes and head turning. Vascular imaging demonstrated severe left vertebral artery compression between the posterior arch of C1 and the occiput as a result of RA-associated cranial settling. He underwent left C1 hemilaminectomy and C1-4 posterior cervical fusion with subsequent resolution of his syncope and vertiginous symptoms., Lessons: This is an unusual case of BHS caused by cranial settling as a result of RA. RA-associated cervical spine disease may rarely present as symptoms of vascular insufficiency. Clinicians should consider the possibility, though rare, of cervical spine involvement in patients with RA experiencing symptoms consistent with vertebral basilar insufficiency., Competing Interests: Disclosures The authors report no conflict of interest concerning the materials or methods used in this study or the findings specified in this paper., (© 2021 The authors.)

Published
2021
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43. Deformity surgery. Response.

Author

Acosta FL Jr, McClendon J Jr, O'Shaughnessy BA, Koski TR, Ondra SL, Koller H, Meier O, Neal CJ, and Ames CP

Subjects
Female, Humans, Male, Postoperative Complications mortality, Spinal Curvatures mortality, Spinal Curvatures surgery, Spinal Fusion mortality
Published
2013

44. Techniques for operative correction of proximal junctional kyphosis of the upper thoracic spine.

Author

McClendon J Jr, O'Shaughnessy BA, Sugrue PA, Neal CJ, Acosta FL Jr, Koski TR, and Ondra SL

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Cervical Vertebrae diagnostic imaging, Cervical Vertebrae pathology, Female, Humans, Intraoperative Period, Kyphosis complications, Kyphosis pathology, Male, Middle Aged, Neck Pain etiology, Neck Pain pathology, Postoperative Complications, Radiography, Plastic Surgery Procedures methods, Retrospective Studies, Spinal Fusion adverse effects, Spinal Fusion methods, Thoracic Vertebrae diagnostic imaging, Thoracic Vertebrae pathology, Treatment Outcome, Young Adult, Cervical Vertebrae surgery, Kyphosis therapy, Manipulation, Spinal methods, Neck Pain therapy, Osteotomy methods, Thoracic Vertebrae surgery, Traction methods
Abstract

Study Design: Retrospective study of a consecutive series of patients treated for proximal junctional kyphosis (PJK) of the upper thoracic and cervicothoracic spine., Objective: To discuss corrective techniques for the management of symptomatic kyphosis at the junction of fused and mobile segments of the upper thoracic and cervicothoracic spine in patients who complain of pain, neurological deficit, ambulatory difficulty, and/or social isolation., Summary of Background Data: PJK is an unfortunately common, but important, complication seen in long instrumented fusions to the upper thoracic and cervicothoracic spine. Although often asymptomatic, its incidence and prevalence warrant a discussion on treatment options for symptomatic patients., Methods: After the institutional review board confirmed approval, we retrospectively analyzed patients who received treatment of PJK from 2003 to 2009. Segmental instrumentation and intraoperative neurophysiological monitoring were used in all patients. Data acquisition was performed by reviewing electronic medical records and radiographs. Inclusion criteria were patients who underwent surgical correction of PJK of the cervicothoracic and upper thoracic spine and had more than 2-year follow-up. Preoperative lumbar lordosis, preoperative thoracic kyphosis, pre- and postoperative sagittal balance, and sagittal proximal junctional Cobb angle were obtained. All corrective procedures were performed in 2 stages, each patient receiving cervical traction between cases., Results: Inclusion criteria were met in 7 patients (5 women and 2 men), with mean age of 55 years (range, 18-80 years). Six patients received multilevel Smith-Petersen osteotomies, with 2 patients receiving rib osteotomies, and 1 patient received a vertebral column resection. The mean preoperative and postoperative proximal junctional Cobb angles were 45° (range, 14°-89.7°) and 14° (range, 3.0°-38.0°), respectively. The mean degree of correction was 31° (range, 11°-79.2°). All patients had maintained or improved sagittal balance. No patient sustained a temporary or permanent neurological deficit after correction related to surgery. All patients had 2-year follow-up, and there were no mortalities., Conclusion: For a selected cohort of patients who develop PJK of the upper thoracic and cervicothoracic spine, osteotomies, cervical traction, and intraoperative manual reduction provide a significant improvement of proximal junctional Cobb angles. To our knowledge, this is the first study to address treatment for symptomatic patients with this condition.

Published
2012
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45. Morbidity and mortality after spinal deformity surgery in patients 75 years and older: complications and predictive factors.

Author

Acosta FL Jr, McClendon J Jr, O'Shaughnessy BA, Koller H, Neal CJ, Meier O, Ames CP, Koski TR, and Ondra SL

Subjects
Aged, Aged, 80 and over, Female, Follow-Up Studies, Humans, Logistic Models, Lumbar Vertebrae surgery, Male, Morbidity, Predictive Value of Tests, Retrospective Studies, Thoracic Vertebrae surgery, Treatment Outcome, Postoperative Complications mortality, Spinal Curvatures mortality, Spinal Curvatures surgery, Spinal Fusion mortality
Abstract

Object: As the population continues to age, relatively older geriatric patients will present more frequently with complex spinal deformities that may require surgical intervention. To the authors' knowledge, no study has analyzed factors predictive of complications after major spinal deformity surgery in the very elderly (75 years and older). The authors' objective was to determine the rate of minor and major complications and predictive factors in patients 75 years of age and older who underwent major spinal deformity surgery requiring a minimum 5-level arthrodesis procedure., Methods: Twenty-one patients who were 75 years of age or older and underwent thoracic and/or lumbar fixation and arthrodesis across 5 or more levels for spinal deformity were analyzed retrospectively. The medical and surgical records were reviewed in detail. Age, diagnosis, comorbidities, operative data, hospital data, major and minor complications, and deaths were recorded. Factors predictive of perioperative complications were identified by logistic regression analysis., Results: The mean patient age was 77 years old (range 75-83 years). There were 14 women and 7 men. The mean follow-up was 41.2 months (range 24-81 months). Fifteen patients (71%) had at least 1 comorbidity. A mean of 10.5 levels were fused (range 5-15 levels). Thirteen patients (62%) had at least 1 perioperative complication, and 8 (38%) had at least one major complication for a total of 17 complications. There were no perioperative deaths. Increasing age was predictive of any perioperative complication (p = 0.03). However, major complications were not predicted by age or comorbidities as a whole. In a subset analysis of comorbidities, only hypertension was predictive of a major complication (OR 10, 95% CI 1.3-78; p = 0.02). Long-term postoperative complications occurred in 11 patients (52%), and revision fusion surgery was necessary in 3 (14%)., Conclusions: Patients 75 years and older undergoing major spinal deformity surgery have an overall perioperative complication rate of 62%, with older age increasing the likelihood of a complication, and a long-term postoperative complication rate of 52%. Patients in this age group with a history of hypertension are 10 times more likely to incur a major perioperative complication. However, the mortality risk for these patients is not increased.

Published
2011
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46. Paradoxical herniation in wartime penetrating brain injury with concomitant skull-base trauma.

Author

Choi JJ, Cirivello MJ, Neal CJ, and Armonda RA

Subjects
Afghan Campaign 2001-, Decompression, Surgical, Disease Progression, Head Injuries, Penetrating diagnostic imaging, Head Injuries, Penetrating etiology, Head Injuries, Penetrating physiopathology, Humans, Intracranial Pressure, Male, Patient Positioning, Skull Base diagnostic imaging, Skull Fractures diagnostic imaging, Skull Fractures etiology, Skull Fractures physiopathology, Sleep Disorders, Intrinsic diagnostic imaging, Sleep Disorders, Intrinsic etiology, Sleep Disorders, Intrinsic physiopathology, Sleep Disorders, Intrinsic therapy, Spinal Puncture, Tomography, X-Ray Computed, Wounds, Gunshot complications, Wounds, Gunshot diagnostic imaging, Wounds, Gunshot physiopathology, Young Adult, Endoscopy methods, Head Injuries, Penetrating surgery, Skull Base injuries, Skull Base surgery, Skull Fractures surgery, Wounds, Gunshot surgery
Abstract

A case of the syndrome of the trephined progressing to paradoxical herniation is presented in a patient with a penetrating brain injury, postdecompressive craniectomy, and a delayed cerebral spinal fluid leak from a skull base defect. The patient had a penetrating head trauma from a high-velocity ballistic projectile during military wartime operations. The patient's clinical course, which demonstrates a rare presentation of central sleep apnea syndrome or Ondine's curse, is reviewed. Radiographic imaging includes sequential computed tomography (CT) scans with and without intrathecal contrast. Medical management was directed at increasing the intracranial pressures (ICPs) by placing the patient into Trendelenburg position and increasing hydration. Surgical intervention involved correction of the skull base defect by intranasal endoscopic repair. A literature review of paradoxical herniation and delayed neurologic decline in postcraniectomy patients is conducted, and the surgical and neurocritical care management is discussed.

Published
2011
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47. Predicting ideal spinopelvic balance in adult spinal deformity.

Author

Neal CJ, McClendon J, Halpin R, Acosta FL, Koski T, and Ondra SL

Subjects
Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Pelvis surgery, Spinal Fusion, Spine surgery, Treatment Outcome, Pelvis abnormalities, Spine abnormalities
Abstract

Objective: Spinopelvic balance is based on the theory that adjacent segments of the spine are related and influenced by one another. By understanding the correlation between the thoracolumbar spine and the pelvis, a concept of spinopelvic balance can be applied to adult deformity. The purpose of this study was to develop a mathematical relationship between the pelvis and spine and apply it to a population of adults who had undergone spinal deformity surgery to determine whether patients in spinopelvic balance have improved health measures., Methods: Using values published in the literature, a mathematical relationship between the spine and pelvis was derived where pelvic incidence (PI) was divided by the sum of the lumbosacral lordosis (LL; T12-S1) plus the main thoracic kyphosis (TK; T4-12). The result was termed the spinopelvic constant (r): r = PI/(LL + TK). This was performed in patients in 2 age groups previously defined in the literature as "adult" (18-60 years of age) and "geriatric" (> 60 years). The equation was then constructed to relate an individual's measured PI to his or her predicted thoracolumbar curvature (LL + TK)(p) based on the age-specific spinopelvic constant: (LL + TK)(p) = r/PI. A retrospective review was then performed using cases involving patients who had undergone spine deformity surgery and were enrolled in our spinal deformity database. Sagittal balance, PI, and the sum of the main thoracic and lumbar curves were measured. The difference between the predicted sum of the regional curves (LL + TK)(p), based on the individual's measured PI and the age-specific spinopelvic constant, and the measured sum of the regional curves (LL + TK)(m) was then calculated to determine the degree of spinopelvic imbalance. Health status measures were then compared., Results: Using the formula r = PI/(TK = LL) and normative values in the literature, the adult spinopelvic constant was calculated to be -2.57, and the geriatric constant -5.45. For the second portion of the study, 41 patients met inclusion criteria (13 classified as nongeriatric adults and 28 as geriatric patients). Application of these constants found a statistically significant decline in almost all outcome categories when the spinopelvic balance showed at least 10° of kyphosis more than predicted. While not statistically significant, the trend was that better outcomes were associated with a spinopelvic balance within 0 to +10° of the predicted value. The final analysis compared and separated outcomes from sagittal balance and spinopelvic balance. For patients to be considered in sagittal balance, they must be within 50 mm (± 50 mm) of neutral. For patients to be considered in spinopelvic balance, they must be within ± 10° of predicted spinopelvic balance. Patients in both sagittal and spinopelvic balance have statistically significant better outcomes than those in neither sagittal nor spinopelvic balance. Except for the mean SF-12 PCS (12-Item Short-Form Health Survey Physical Component Summary), there were no significant differences between those that were either in sagittal or spinopelvic balance, but not the other., Conclusions: Restoring a normative relationship between the spine and the pelvis during adult deformity correction may play an important role in determining surgical outcomes in these patients independent of sagittal balance.

Published
2011
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48. Resident learning curve for minimal-access transforaminal lumbar interbody fusion in a military training program.

Author

Neal CJ and Rosner MK

Subjects
Bone Screws, Humans, Internal Fixators, Internship and Residency methods, Internship and Residency statistics & numerical data, Learning, Minimally Invasive Surgical Procedures methods, Retrospective Studies, Spinal Fusion methods, Spondylolisthesis surgery, Surgical Instruments, Treatment Outcome, Clinical Competence standards, Lumbar Vertebrae surgery, Military Medicine education, Minimally Invasive Surgical Procedures education, Spinal Fusion education
Abstract

Object: Minimal-access transforaminal lumbar interbody fusion (TLIF) has gained popularity as a method of achieving interbody fusion via a posterior-only approach with the aim of minimizing injury to adjacent tissue. While many studies have reported successful outcomes, questions remain regarding the potential learning curve for successfully completing this procedure. The goal of this study, based on a single resident's experience at the only Accreditation Council for Graduate Medical Education-approved neurosurgical training center in the US military, was to determine if there is in fact a significant learning curve in performing a minimal-access TLIF., Methods: The authors retrospectively reviewed all minimal-access TLIFs performed by a single neurosurgical resident between July 2006 and January 2008. Minimal-access TLIFs were performed using a tubular retractor inserted via a muscle-dilating exposure to limit approach-related morbidity. The accuracy of screw placement and operative times were assessed., Results: A single resident/attending team performed 28 minimal-access TLIF procedures. In total, 65 screws were placed at L-2 (1 screw), L-3 (2 screws), L-4 (18 screws), L-5 (27 screws), and S-1 (17 screws) from the resident's perspective. Postoperative CTs were reviewed to determine the accuracy of screw placement. An accuracy of 95.4% (62 of 65) properly placed screws was noted on postoperative imaging. Two screws (at L-5 in the patient in Case 17 and at S-1 in the patient in Case 9) were lateral, and no revision was needed. One screw (at L-4 in Case 24) was 1 mm medial without symptoms or the need for revision. In evaluating the operative times, 2 deformity cases (Grade III spondylolisthesis) were excluded. The average operating time per level in the remaining 26 cases was 113.25 minutes. The average time per level for the first 13 cases was 121.2 minutes; the amount of time decreased to 105.3 minutes for the second group of 13 cases (p = 0.25)., Conclusions: In summary, minimal-access TLIF can be safely performed in a training environment without a significant complication rate due to the expected learning curve.

Published
2010
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49. Effect of penetrating brain injury on aquaporin-4 expression using a rat model.

Author

Neal CJ, Lee EY, Gyorgy A, Ecklund JM, Agoston DV, and Ling GS

Subjects
Animals, Astrocytes metabolism, Astrocytes pathology, Blotting, Western, Disease Models, Animal, Glial Fibrillary Acidic Protein biosynthesis, Head Injuries, Penetrating pathology, Immunohistochemistry, Male, Rats, Rats, Sprague-Dawley, Aquaporin 4 biosynthesis, Head Injuries, Penetrating metabolism, Head Injuries, Penetrating physiopathology
Abstract

Cerebral edema (CE) is a frequent and potentially lethal consequence of various neurotraumas, including penetrating brain injury (PBI). Aquaporin-4 (AQP4) water channel is predominantly expressed by astrocytes and plays an important role in regulating water balance in the normal and injured brain. Using a rat model of PBI, we show that AQP4 immunoreactivity was substantially increased in the peri-injury area at both 24 and 72 h after PBI. The increase in AQP4 expression was paralleled by increased GFAP expression. The two proteins were co-expressed by peri-vascular astrocytes, whereas reactive astroglia identified by their stellar morphology did not express AQP4 at either time points after injury. Western analysis confirmed the increase in AQP4 immunoreactivity observed in the injured tissue. The apparent increase in AQP4 immunoreactivity was likely due to de novo AQP4 protein synthesis, as most of the increased AQP4 immunoreactivity was found in the soluble (cytosolic) fraction. Our results demonstrate dynamic spatial and temporal changes in AQP4 expression that contribute to the molecular pathophysiology of PBI.

Published
2007
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50. Magnetic resonance imaging evaluation of adjacent segments after disc arthroplasty.

Author

Neal CJ, Rosner MK, and Kuklo TR

Subjects
Adult, Artifacts, Back Pain etiology, Female, Humans, Lumbar Vertebrae pathology, Lumbar Vertebrae surgery, Magnetic Resonance Imaging, Male, Middle Aged, Movement, Prosthesis Implantation, Sensitivity and Specificity, Treatment Outcome, Arthroplasty, Replacement, Intervertebral Disc surgery
Abstract

Object: Disc arthroplasty in the lumbar spine is an alternative to fusion when treating discogenic pain. Its theoretical benefits include preservation of the motion segment and the potential prevention of adjacent-segment degeneration. Despite the need to evaluate the benefit of preserving the adjacent segments after disc replacement, no study has been conducted to assess the ability of magnetic resonance (MR) imaging to depict the adjacent segments in patients who have undergone disc replacement surgery., Methods: Postoperative lumbar MR images were obtained in the first 10 patients in whom a metal-on-metal disc arthroplasty system was used to treat the L4-5 or L5-S1 levels. At the superior adjacent level, the superior endplate and disc space were demonstrated on 90% of the images on both T1-weighted fluid-attenuated inversion-recovery (FLAIR) and T2-weighted sequences despite the presence of artifacts. The inferior endplate at this level was documented on 70% of both T1-weighted FLAIR and T2-weighted sequences. At the level below the disc replacement in patients who underwent L4-5 surgery, the superior endplate was demonstrated on 66.7% of the T1-weighted FLAIR sequences but only 33.3% of the T2-weighted images. The disc space and inferior endplate were depicted on 66.7% of both T1-weighted FLAIR and T2-weighted sequences. Axial images revealed an artifact in every adjacent space except at the L5-S1 level., Conclusions: Based on the results of this pilot study, it appears that sagittal MR imaging can be undertaken to evaluate the adjacent motion segment for degenerative changes following total disc arthroplasty in most patients. This imaging modality will provide an additional measure to assess the long-term efficacy of this intervention compared with other treatment modalities and the natural history of lumbar disc degeneration.

Published
2005
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