Anthony S. Burns

Spinal shock revisited: a four-phase model

Spinal shock has been of interest to clinicians for over two centuries. Advances in our understanding of both the neurophysiology of the spinal cord and neuroplasticity following spinal cord injury have provided us with additional insight into the phenomena of spinal shock. In this review, we provide a historical background followed by a description of a novel four-phase model for understanding and describing spinal shock. Clinical implications of the model are discussed as well.

The management of neurogenic bladder and sexual dysfunction after spinal cord injury

Study Design. Review article. Objectives. To review the medical literature and comprehensively discuss the management of bladder and sexual dysfunction after spinal cord injury. Summary of Background Data. The physiologic alterations that accompany spinal cord injury can lead to significant bladder and sexual dysfunction. Fertility in men is also diminished. Without appropriate intervention, the above conditions can lead to significant morbidity and mortality. Methods. Structured review of published reports obtained through a MED-LINE search and texts. Results/Conclusion. With appropriate surveillance and management, morbidity and mortality from neurogenic bladder dysfunction can be successfully prevented. Current treatment interventions also facilitate the restoration of sexual function and fertility after spinal cord injury.

Establishing prognosis and maximizing functional outcomes after spinal cord injury: a review of current and future directions in rehabilitation management.

Study Design. Review article. Objectives. To review the medical literature and provide a framework for predicting neurorecovery and functional outcomes after spinal cord injury based on injury severity. Summary of Background Data. The ability to accurately predict the magnitude of neurorecovery and expected functional outcomes after spinal cord injury is of great importance. This information is needed to justify medical and rehabilitation interventions to third party payers as well as to begin the process of planning for postdischarge care. Over the past several decades, significant progress has been made in accurately predicting neurorecovery and its impact on functional outcomes. Methods. Structured review of published reports obtained through MED-LINE search and texts. Results/Conclusion. Within 72 hours to 1 month after a spinal cord injury, it is possible to predict with reasonable accuracy the magnitude of expected recovery based on physical examination. The impact of motor level on long-term functional outcomes is also clear and has remained relatively unchanged for several decades. Functional outcomes are likely to improve in upcoming years as novel interventions, such as drugs and functional neuromuscular stimulation, are developed with the goals of limiting secondary injury and restoring neurologic function. New training methods, such as body weight support, that use activity-dependent neuroplasticity will also have a more prominent role.

Patient selection for clinical trials: the reliability of the early spinal cord injury examination.

Patients with incomplete spinal cord injuries can spontaneously recover motor function. Because of this, phase I and II trials of invasive interventions for acute spinal cord injury will likely involve neurologically complete injuries. It is therefore important to reliably identify complete injuries as early as possible. We examined the reliability of the early examination in motor complete spinal cord injuries by retrospectively analyzing the stability of baseline neurological status determined within 2 days of injury in 103 subjects. Baseline neurological status was compared to neurological status at follow-up, preferably within one week (101 of 103 subjects). When available (n = 68), neurological status at 1 year or later was also compared. Overall, 6.2% (5/81) of motor complete, sensory complete (ASIA A) subjects converted to motor complete, sensory incomplete status (ASIA B) between the initial and follow-up assessments; however, none exhibited motor recovery (ASIA C or D). At initial follow-up, 9.3% (4/43) of ASIA A subjects with factors affecting examination reliability were reclassified as ASIA B injuries compared to 2.6% (1/38) of ASIA A subjects without such factors. At year 1 or later, 6.7% (2/30) of ASIA A subjects without factors affecting exam reliability, converted to ASIA B status. None developed volitional motor function below the zone of injury. For subjects with factors affecting exam reliability, 17.4% (4/23) of ASIA A subjects converted to incomplete status and 13.0% (3/23) regained some motor function by one year or later (ASIA C or D). These data suggest that it is possible to identify within 48 h of injury, a subset of patients with a negligible chance for motor recovery who would be suitable candidates for future clinical trials of invasive treatments.

Reliability of a novel classification system for thoracolumbar injuries: the Thoracolumbar Injury Severity Score.

Study Design. Prospective study of 5 spine surgeons rating 71 clinical cases of thoracolumbar spinal injuries using the Thoracolumbar Injury Severity Score (TLISS) and then re-rating the cases in a different order 1 month later. Objective. To determine the reliability of the TLISS system. Summary of Background Data. The TLISS is a recently introduced classification system for thoracolumbar spinal column injures designed to simplify injury classification and facilitate treatment decision making. Before being widely adopted, the reliability of the TLISS must be studied. Methods. A total of 71 cases of thoracolumbar spinal trauma were distributed on CD-ROM to 5 attending spine surgeons, including clinical/radiographic data, details of the TLISS, and a scoring sheet in which cases would be scored using the system. The surgeons were later assigned the task with the cases reordered. Intraobserver and interobserver reliability was calculated for TLISS components, total score, and surgeons treatment decision using the Cohen unweighted kappa coefficients and Spearman rank-order correlation. Results. Interrater reliability assessed by generalized kappa coefficients was 0.33 ± 0.03 for injury mechanism, 0.91 ± 0.02 for neurologic status, 0.35 ± 0.03 for posterior ligamentous complex status, 0.29 ± 0.02 for TLISS total, and 0.52 ± 0.03 for treatment recommendation. Respective results using the Spearman correlation were 0.35 ± 0.04, 0.94 ± 0.01, 0.48 ± 0.04, 0.65 ± 0.03, and 0.51 ± 0.04. Surgeons agreed with the TLISS recommendation 96.4% of the time. Intrarater kappa coefficients were 0.57 ± 0.04 for injury mechanism, 0.93 ± 0.02 for neurologic status, 0.48 ± 0.04 for posterior ligamentous complex status, 0.46 ± 0.03 for TLISS total, and 0.62 ± 0.04 for treatment recommendation. Respective results using the Spearman correlation were 0.70 ± 0.04, 0.95 ± 0.02, 0.59 ± 0.05, 0.77 ± 0.04, and 0.59 ± 0.05. Conclusions. The TLISS has good reliability and compares favorably to other contemporary thoracolumbar fracture classification systems.

Neurological and functional capacity outcome measures: essential to spinal cord injury clinical trials.

We intend to demonstrate that future treatment strategies in spinal cord injury (SCI) rehabilitation to restore function (SCI rehabilitation) should be based on the success of rigorous clinical trials with demonstrated effective interventions. Knowing the course of neurological recovery, its mechanism, and its measures will be essential in designing and executing these trials. We reviewed selected recovery outcomes and measures from multicenter studies and a large SCI database. The accuracy of baseline examinations in the first days following injury is critical to demonstrating changes in neurological recovery. Recovery of one neurologic level in subjects with tetraplegia depends on the severity of the injury, the initial level of the injury, and the strength of muscles below the level of injury. Motor recovery of the upper limbs typically correlates with self-care function. Neurological recovery following SCI often correlates with an increase in function and walking in addition to self-care. In subjects with paraplegia, predicting recovery of walking is possible based on the initial 1-week sensory and motor examination. Although initial neurological findings correlate with neurological and functional-recovery outcomes in large populations of 3,500 subjects reported by the Model SCI System centers in the United States, improved outcome measures for walking are needed. The Walking Index for Spinal Cord Injury (WISCI) has recently demonstrated criterion validity and increased sensitivity and responsiveness to change in neurological/walking function in subjects with SCI. The WISCI scale correlated well with measures in use to determine improved walking function regarding walking speed, lower-limb motor scores, and other measures. Demonstrating improved neurologic and functional outcomes following SCI requires accurate neurologic and sensitive functional measures.

The Early Evolution of Spinal Cord Lesions on MR Imaging following Traumatic Spinal Cord Injury

BACKGROUND AND PURPOSE: How early spinal cord injury (SCI) lesions evolve in patients after injury is unknown. The purpose of this study was to characterize the early evolution of spinal cord edema and hemorrhage on MR imaging after acute traumatic SCI. MATERIALS AND METHODS: We performed a retrospective analysis of 48 patients with clinically complete cervical spine injury. Inclusion criteria were the clear documentation of the time of injury and MR imaging before surgical intervention within 72 hours of injury. The length of intramedullary spinal cord edema and hemorrhage was assessed. The correlation between time to imaging and lesion size was determined by multiple regression analysis. Short-interval follow-up MR imaging was also available for a few patients (n = 5), which allowed the direct visualization of changes in spinal cord edema. RESULTS: MR imaging demonstrated cord edema in 100% of patients and cord hemorrhage in 67% of patients. The mean longitudinal length of cord edema was 10.3 ± 4.0 U, and the mean length of cord hemorrhage was 2.6 ± 2.0 U. Increased time to MR imaging correlated to increased spinal cord edema length (P = .002), even after accounting for the influence of other variables. A difference in time to MR imaging of 1.2 days corresponded to an average increase in cord edema by 1 full vertebral level. Hemorrhage length was not affected by time to imaging (P = .825). A temporal increase in the length of spinal cord edema was confirmed in patients with short-interval follow-up MR imaging (P = .003). CONCLUSION: Spinal cord edema increases significantly during the early time period after injury, whereas intramedullary hemorrhage is comparatively static.

Intrathecal baclofen in tetraplegia of spinal origin: efficacy for upper extremity hypertonia

Study design: Retrospective analysis.Objectives: To evaluate the efficacy of intrathecal baclofen (ITB) for upper extremity spastic hypertonia in tetraplegia of spinal origin.Setting: University of Alabama at Birmingham hospital.Methods: The medical records of 14 individuals with tetraplegia of spinal origin who underwent intrathecal baclofen pump placement were reviewed. The effects of intrathecal baclofen on spasm frequency, deep tendon reflexes, and tone (Ashworth scale) were assessed for the upper and lower extremities for a 1-year follow-up period.Results: There were statistically significant declines in upper extremity spasm scores (1.8 points, P=0.012), reflex scores (1.4 points, P<0.0001) and Ashworth scores (0.6 points, P<0.0001) for the 1-year follow-up period. For the lower extremities, all decreases were significant (P<0.0001). There was also a statistically significant (P<0.0001) increase in intrathecal baclofen dosage requirements during the 1-year follow-up period to maintain the reductions in spasm frequency, reflexes and tone.Conclusions: Intrathecal baclofen is a safe and effective intervention for treating upper extremity hypertonia of spinal origin. In addition, the level of intrathecal catheter placement is felt to be of importance.Spinal Cord (2001) 39, 413–419.

The challenge of spinal cord injury care in the developing world

Abstract Great strides have been made in reducing morbidity and mortality following spinal cord injury (SCI), and improving long-term health and community participation; however, this progress has not been uniform across the globe. This review highlights differences in global epidemiology of SCI and the ongoing challenges in meeting the needs of individuals with SCI in the developing world, including post-disaster. Significant disparities persist, with life expectancies of 2 years or less not uncommon for persons living with paraplegia in many developing countries. The international community has an important role in improving access to appropriate care following SCI worldwide.

The impact of methylprednisolone on lesion severity following spinal cord injury.

Study Design. Retrospective study comparing spinal cord injury (SCI) lesion characteristics in methylprednisolone (MPS) treated versus untreated patients as demonstrated by magnetic resonance (MR) imaging. Objective. Determine if the administration of MPS immediately following SCI affects lesion severity. Summary of Background Data. The administration of MPS in the setting of acute SCI has become controversial. Since magnetic resonance imaging (MRI) is sensitive for the detection of spinal cord edema and hemorrhage, changes in lesion characteristics would support a biologic effect due to MPS. Methods. Patients with cervical spinal injury treated with the recommended dose of methylprednisolone (bolus 30 mg/kg + 5.4 mg/kg per hour over 24 hours) initiated within 8 hours of injury were compared to historical controls that did not receive steroids. All patients (n = 82) sustained clinically complete SCI (ASIA Grade A) and underwent MRI on the same 1.5 Tesla unit. The length of spinal cord edema, presence/absence of intramedullary hemorrhage, and length of intramedullary hemorrhage were measured on T2-weighted and gradient echo MR images. Comparisons of lesion severity were then made between untreated and treated subjects. Results. Forty-eight of 82 patients with complete injuries received MPS therapy. After accounting for differences in the mean age of the treatment and control groups, multiple regression analysis demonstrated a persistent reduction in the mean length of intramedullary hemorrhage, 2.6 U in the treatment group versus 4.4 U in the control group (P = 0.04). Although there was a reduction in the number of patients exhibiting spinal cord hemorrhage in the treated group compared with the untreated group (65% vs. 91%), this result was not statistically significant (P = 0.16). There was no statistically significant effect of MPS treatment on the mean length of the spinal cord edema between treated versus untreated subjects (10.3 vs. 12.0, respectively, P = 0.85). Conclusions. MRI suggests MPS therapy in the acute phase of spinal cord injury may decrease the extent of intramedullary spinal cord hemorrhage.