Relationship Between Neurological Injury and Patterns of Upright Mobility in Children With Spinal Cord Injury

Background:

The predictors and patterns of upright mobility in children with a spinal cord injury (SCI) are poorly understood.

Objective:

The objective of this study was to develop a classification system that measures children’s ability to integrate ambulation into activities of daily living (ADLs) and to examine upright mobility patterns as a function of their score and classification on the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI) exam.

Methods:

This is a cross-sectional, multicenter study that used a convenience sample of subjects who were participating in a larger study on the reliability of the ISNCSCI. A total of 183 patients between 5 and 21 years old were included in this study. Patients were asked if they had participated in upright mobility in the last month and, if so, in what environment and with what type of bracing. Patients were then categorized into 4 groups: primary ambulators (PrimA), unplanned ambulators (UnPA), planned ambulators (PlanA), and nonambulators.

Results:

Multivariate analyses found that only lower extremity strength predicted being a PrimA, whereas being an UnPA was predicted by both lower extremity strength and lack of preservation of S45 pinprick sensation. PlanA was only associated with upper extremity strength.

Conclusions:

This study introduced a classification system based on the ability of children with SCI to integrate upright mobility into their ADLs. Similar to adults, lower extremity strength was a strong predictor of independent mobility (PrimA and UnPA). Lack of pinprick predicted unplanned ambulation, but not being a PrimA. Finally, upper extremity strength was a predictor for planned ambulation.Key words: ambulation, ISNCSCI, pediatrics, spinal cord injuryAfter a spinal cord injury (SCI), learning to walk often becomes the focus of rehabilitation for children and their families.^1,2 Although the majority of children with SCI do not return to full-time functional ambulation, those who accomplish some level of walking report positive outcomes such as feeling “normal” again, being eye-to-eye with peers, and having easier social interactions.³ Although not frequently reported by patients, there is some evidence of physiological benefits as well.^3–9 Regardless of age, upright mobility has been positively associated with community participation and life satisfaction.^10–12 For children, upright mobility allows them to explore their physical environment, which facilitates independence and learning as part of the typical developmental process.^13,14With the use of standers, walkers, and other assistive devices, as well as a variety of lower extremity orthoses, it is a reasonable expectation that some children with spinal injuries achieve upright stance and mobility.^7,9,13–21 However, there are 2 main challenges for clinicians and patients: understanding the factors that either encourage or discourage upright activities, and identifying how best to determine whether upright mobility is successful and meaningful. The literature on adults suggests that upright mobility is dependent on physiological and psychosocial factors. Physiological factors include the patient’s current age, neurological level, muscle strength, and comorbidities.^14,22–27 Psychosocial factors include satisfaction with the appearance of the gait pattern, cosmesis, social support for donning/doffing braces, and assistance with transfer and during ambulation.^{3,9,19,28–32}The identification of outcome measures that provide a meaningful indication of successful upright mobility has been difficult. The World Health Organization (WHO) describes 2 constructs for considering outcomes – capacity and performance.³³ Capacity refers to maximal capability in a laboratory setting. An example of a capacity measure is the Walking Index for Spinal Cord Injury (WISCI), which is an ordinal scale used to quantify walking capacity based on assistive device, type of orthosis, and amount of assistance required.^34,35 Other capacity measures include the Timed Up and Go test and the 6-minute walk test.^36,37 On the other hand, performance refers to actual activity during a patient’s daily activities in typical, real-life environments.³³ For example, the FIM is an observation scale that scores the patient’s typical daily performance.^36,38–40 The FIM is considered a burden of care measure that determines the amount of actual assistance provided to a patient during typical routines and environments, which may or may not reflect maximal ability or capacity. Performance measures provide an adequate clinical snap-shot of a patients’ daily function (evaluates what they do), whereas capacity measures are better research tools, as they are able to detect subtle changes in ambulation (evaluates what they can do).In children, no capacity outcome measures of ambulation have been tested for validity or reliability. Availability of reliable and valid performance measures is also lacking. The WeeFIM is a performance measure for children, but it is not SCI specific. It is scored on the child’s burden of care, that is, on the maximal assistance required rather than the child’s maximal independence or the highest capacity of performance during a typical day. For children, another commonly used scale is the Hoffer Scale, which relies on the physician’s or therapist’s subjective determination of the purpose of the upright mobility activities (for function or for exercise).^41,42 Because parents and school systems are encouraged to integrate “exercise” ambulation into daily activities, it may not be possible to distinguish between therapeutic and functional ambulation in the home, school, or community environments. In the schools, a teacher/therapist should incorporate upright mobility into the classroom setting by donning a child’s braces and then having her/him ambulate a short distance to stand at an easel in art class or to stand upright when talking to friends during recess. In this situation, walking serves the dual purpose of being functional and therapeutic.For this study, it was decided not to rely on a subjective determination of therapeutic versus functional ambulation as the main outcome measure. Instead, we were interested in the children and adolescents who have successfully integrated independent mobility into their daily activities, regardless of frequency, distance, or purpose. Recent literature in studies of children and adolescents suggests that spontaneity is important for participation in functional and social activities. For example, a survey of patients using functional electrical stimulation for hand function found a reduction in the dependence on others for donning splints, which facilitated independence with activities of daily living (ADLs) in adolescents.^43–45 In a more recent study, Mulcahey et al⁴⁶ found that a reduction of spontaneity in adolescents was a barrier for social activity; during cognitive interviews, children reported not participating in sleepovers due to planning their bowel/bladder programs.To date, there are no measures that integrate spontaneity of standing and/or upright mobility into the daily activities of children. Toward that aim, this study introduces a new scale that attempts to categorize children into 4 mutually exclusive groups: primary ambulators, unplanned ambulators, planned ambulators, and nonambulators. The purpose of this study was to examine ambulation patterns among children and adolescents with SCI as a function of neurological level, motor level, and injury severity, as defined by the motor, sensory, and anorectal examinations of the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI). A secondary aim of the study was to determine how performance on the ISNCSCI exam was associated with the ability of children to independently integrate ambulation into their daily routines.     

Outcome Measures for Gait and Ambulation in the Spinal Cord Injury Population

Background: At the 2006 National Institute on Disability and Rehabilitation Research (NIDRR) sponsored pre-conference on spinal cord injury (SCI) outcomes, several gait and ambulation measures were evaluatedfor utility in clinical practice, validity, and reliability as research measurement tools. The Conference Subcommittee on Gait and Ambulation chose to review the Walking Index for Spinal Cord Injury II (WISCIII), 50-Foot Walk Test (50FTWT), 6-Minute Walk Test (6MWT), 10-Meter Walk Test (1 OMWT), andFunctional Independence Measure-Locomotor (FIM-L).

Methods: A subcommittee of international experts evaluated each instrument for test construct,administration, population applicability, reliability, sensitivity to change, and validity. Evaluations for eachoutcome measure were compiled, distributed to the whole committee, and then further reviewed withaddition of comments and recommendations for consensus. An audience of experts voted on the validity and usefulness of each measure.

Results: WISCI II and 1 OMWT were found to be the most valid and clinically useful tests to measureimprovement in gait for patients with SCI. FIM-L had little utility and validity for research in SCI. 6MWT and50FTWT were found to be useful but in need of further validation or changes for the SCI population.

Conclusion: A combination of the 1 OMWT and WI SCI II would provide the most valid measure of improvement in gait and ambulation in as much as objective changes of speed, and functional capacity allow for interval measurement. To provide the most comprehensive battery, however, it will be importantto include a measure of endurance such as the 6MWT. Further validation and study should be devoted toWISCI II, 1 OMWT, and 6MWT as primary outcome measuresfor gait in SCI.     

Efficacy of Surgical Decompression in the Setting of Complete Thoracic Spinal Cord Injury

Abstract

Background/Objective: An assessment of neurological improvement after surgical intervention in the setting of traumatic thoracic spinal cord injury (SCI).

Methods: A retrospective evaluation of a nonconsecutive cohort of patients with a thoracic SCI from T2 to T11. The analysis included a total of 12 eligible patients. The neurologic and functional outcomes were recorded from the acute hospital admission to the most recent follow-up. Data included patient age, level of injury, neurologic examination according to the Frankel grading system, the performance of surgery, and the mechanism of the time-related SCI decompression.

Results: All patients had a complete thoracic SCI. The median interval from injury to surgery was 11 days (range, 1-36 days). Decompression, bone fusion, and instrumentation were the most common surgical procedures performed. The median length of follow-up was 18 months after surgery (range, 9-132 months). Motor functional improvement was seen in 1 patient (Frankel A to C).

Conclusion: Surgical decompression and fusion imparts no apparent benefit in terms of neurologic improvement (spinal cord) in the setting of a complete traumatic thoracic SCI. To better define the role of surgical decompression and stabilization in the setting of a complete SCI, randomized, controlled, prospective studies are necessary.     

Outcome Measures for Gait and Ambulation in the Spinal Cord Injury Population

Background:     

Bowel Management in Children and Adolescents with Spinal Cord Injury

Abstract

There is little in the literature regarding bowel management in children and adolescents with spinal cord injuries (SCI). This study was undertaken to examine specific patterns of bowel care, individual levels of satisfaction with bowel management, the incidence of incontinence in this population, and effects on lifestyle because of time commitment and dependence in bowel management. Surveys were sent to all persons (n = 45) under age 19 with a diagnosis of SCI who had received care at our medical center since 1985. Thirty-one subjects (69 percent) returned the surveys. The average age at injury was 8.1 years, with an average follow-up period of 3.9 years. Fifty-five percent were individuals with tetraplegia and 77 percent had a complete injury (ASIA Class A). A bowel management program, including medications or manual manipulation, was required for 81 percent of the subjects; only two were independent in their bowel management. Over half of the subjects performed evening bowel care and over half performed their care daily. Digital stimulation tended to be used more commonly by younger children. Medications, either oral, rectal, or both, were used by 88 percent. Sixty percent of the subjects reported they were completely or very satisfied with their bowel management. About half the subjects had limited freedom because of their bowel programs, which caused some dissatisfaction. Sixty-eight percent reported occasional or frequent interference with school activities because of their bowel programs. No correlation was found between bowel accidents and satisfaction with bowel management, despite the fact that almost 84 percent of the children reported at least rare accidents. Lifestyle limitations, bowel accidents, dependence in bowel management, and subject and family dissatisfaction continue to be significant problems for children and adolescents with SCI. (/Spinal Cord Med 1998; 21:335-341)     

Vision Loss After Spinal Fusion for Scoliosis in a Child With Spinal Cord Injury

Background:

Vision loss after spinal surgery is a rare and devastating complication. Risk factors include patient age, operative time, estimated blood loss, and intraoperative fluid management. Children with spinal cord injury often develop scoliosis that requires surgical correction.

Study Design:

Case report.

Methods:

Clinical and radiographic review was conducted of a 15-year-old boy who developed severe scoliosis after sustaining a C5 level injury at age 4 years from a motor vehicle crash.

Findings:

The patient underwent a posterior spinal fusion from T2 to the pelvis, and good correction of the spinal deformity was attained. During the 8-hour procedure, blood loss was 4,000 mL (approximately 1.2 blood volumes) and 17,000 mL of fluids were administered. On postoperative day 5, it was determined that the patient had complete visual loss. Neuro-ophthalmology consultation confirmed the diagnosis of posterior ischemic optic neuropathy.

Conclusions:

A significant number of children with spinal cord injury develop scoliosis requiring surgical correction. These procedures are often lengthy, with the potential for extensive blood loss and fluid shifts, factors that may increase the likelihood of postoperative vision loss. Patients should be counseled about this complication, and the surgical and anesthesiology teams should take all measures to minimize its occurrence.     

Vision Loss After Spinal Fusion for Scoliosis in a Child With Spinal Cord Injury

Abstract

Background: Vision loss after spinal surgery is a rare and devastating complication. Risk factors include patient age, operative time, estimated blood loss, and intraoperative fluid management. Children with spinal cord injury often develop scoliosis that requires surgical correction.

Study Design: Case report.

Methods: Clinical and radiographic review was conducted of a 15-year-old boy who developed severe scoliosis after sustaining a C5 level injury at age 4 years from a motor vehicle crash.

Findings: The patient underwent a posterior spinal fusion from T2 to the pelvis, and good correction of the spinal deformity was attained. During the 8-hour procedure, blood loss was 4,000 mL (approximately 1.2 blood volumes) and 17,000 mL of fluids were administered. On postoperative day 5, it was determined that the patient had complete visual loss. Neuro-ophthalmology consultation confirmed the diagnosis of posterior ischemic optic neuropathy.

Conclusions: A significant number of children with spinal cord injury develop scoliosis requiring surgical correction. These procedures are often lengthy, with the potential for extensive blood loss and fluid shifts, factors that may increase the likelihood of postoperative vision loss. Patients should be counseled about this complication, and the surgical and anesthesiology teams should take all measures to minimize its occurrence.     

Outcome of Transanal Irrigation for Bowel Dysfunction in Patients With Spinal Cord Injury

Background/Objective:     

Post-traumatic Subserosal Small Bowel Herniation Leading to Obstruction in a Child with Acute Spinal Cord Injury

The presentation of small bowel injury from lap belt use varies substantially, ranging from gross hemodynamic instability to insidious physiologic deterioration to simple failure of improvement. Rarely does small bowel injury manifest as an obstruction. This paper describes one such occurrence; in this case, herniation of intact mucosa/submucosa through a serosal tear caused a high-grade small bowel obstruction in a pediatric patient with an acute spinal cord injury and a virgin abdomen.     

A Simplified Pharmacologic Erection Program for Patients with Spinal Cord Injury

Abstract

Introduction and objectives: Intracavernosal injection (ICI) of vasoactive agents has been successfully used in the treatment of erectile dysfunction (ED). The authors’ pharmacologic erection program, using a fixed combination of prostaglandin El (PGE1) and papaverine, is notable for its simplicity and acceptance by patients who have suffered spinal cord injuries (SCIs).

Methods: Patients undergo baseline questionnaire, physical examination, and hormone profile followed by instruction and injection of a fixed combination of PGE1 and papaverine. On successive visits, the patient injects himself and the dosage is titrated until a satisfactory erection is obtained. Patients who do not respond to injection of 1.0 cc are considered treatment failures. Patients return periodically for routine follow-up.

Results: From May 1994 to March 1997, 37 patients with SCI underwent initial evaluation and 28 (76%) responded to injection therapy and were successfully using self-injection therapy at 3-month follow-up. Twenty-three patients are still on injection therapy. Five patients have dropped out for several reasons including a lack of a current sexual partner (60%) and pain with injection (40%). Patient age ranges from 24 to 72. The dosage range was 0.10 to 0.50 cc (mean = 0.29 cc). The average duration of erection was 43 minutes. At 3-month follow-up, 85% of the patients rated their erections as good or excellent. Forty-three percent of patients are using ICI 1 or more times per week. Seventy-seven percent of patients are moderately or extremely satisfied with their treatment and 89% said that they would recommend this program to a friend.

Conclusions: This simplified pharmacologic erection program offers safe, well accepted, and effective therapy for ED to a SCI population with very high patient satisfaction.     

A comparison of FES with KAFO for providing ambulation and upright mobility in a child with a complete thoracic spinal cord injury

This study compared functional and physiologic measures of ambulation and upright mobility with functional electrical stimulation (FES) versus knee-ankle-foot-orthoses (KAFO) in an 11-year-old boy with a T-10 level spinal cord injury. The child was a limited community ambulator with bilateral KAFO and loftstrand crutches. The FES system consisted of percutaneous intramuscular electrodes controlled by a portable stimulator and thumbswitch, an AFO for ankle and foot support, and loftstrand crutches. The subject used a swing-through gait pattern with both modes of mobility. The Functional Independence Measure scoring system and time to completion were used to compare performance in 6 standardized activities: donning, high transfer, inaccessible toilet transfer, ascend/descend stairs, and floor-to-standing transfer. Ten repeated measures were performed for each mode. Physiologic measures included energy expenditure, postural stability using forceplates, and a Functional Standing Test (FST). The subject performed all 6 mobility activities independently with FES and KAFO. In 4 of 6 activities, there was a trend toward faster times with FES, but this was not statistically significant. Toilet transfers and stair descent were performed significantly faster with KAFO. There was no difference in completion times on the activities of the FST. Measures of postural sway suggested that the subject was more stable with KAFO during quiet standing, while the modes were equal during a dynamic activity (raising arm for functional use). Energy expenditure results revealed no significant difference in oxygen cost per meter but a significantly higher oxygen consumption rate per minute for FES. Ambulation with both modes was performed at levels consistent with strenuous exercise. Maximum ambulation distances were relatively equal while the subject's velocity was significantly faster with FES. Of note, the subject reported ceasing ambulation during maximum distance trials due to general fatigue when using FES and due to shoulder pain with KAFO ambulation. For this subject, FES provided a means of performing upright mobility tasks independently, comparable with that of KAFO, while providing a faster ambulation velocity and a potential means of cardiovascular training.     

Reduction of Spinal Cord Injury with Pentobarbital and Hypothermia in a Rabbit Model

OBJECTIVES: to evaluate the effects of hypothermia and pentobarbital on spinal cord ischaemia induced in a rabbit model. MATERIALS AND METHODS: thirty-two rabbits, allocated into four equal groups, had the infrarenal aorta clamped distal to the left renal artery and above the iliac bifurcation for 40 min. Groups 3 and 4 had infusion of 15 mg/kg of pentobarbital intravenously for 5 min, 15 min before the cross-clamping. Groups 2 and 4 had infusion of 20 ml of Ringer's lactate (LR) solution at 3 degrees C for 3 min during aortic cross clamp into the isolated aortic segment. Group 1 was untreated and served as control. Postoperative functions of spinal cord were assessed. RESULTS: paraplegia occurred in all rabbits in Group 1, in one in each of Groups 2 and 3, whereas no paraplegia was observed in Group 4. In addition 2 and 3 animals of Groups 2 and 3, respectively revealed varying degree of neurological disturbances, whereas all animals of Group 4 had normal function. This difference between Groups 2, 3, and 4 vs Group 1 was significant (p<0.002). So was the difference between Groups 2 and 4 (p=0.03), whereas the difference between Groups 3 and 4 was not significant. CONCLUSIONS: hypothermia and pentobarbital was more effective than hypothermia alone for prevention of spinal cord ischaemia in a rabbit model.     

Osteoporosis in Spinal Cord Injury: Using an Index of Mobility and its Relationship to Bone Density

ABSTRACT

This study was undertaken to improve quantification of the extent of osteoporosis that accompanies spinal cord injuries (SCI) of various types, using single photon densitometry. In this study, we evaluated subjects with complete and incomplete SCI to determine whether there is a correlation between mobility and bone density. We created an index to rank the various levels of mobility among SCI subjects. Mobility index parameters ranged from 1, for complete immobility, to 9, for the full mobility of the uninjured control population. Incomplete SCI subjects (motor and/or sensory) ranked from 2 to 8 on the mobility scale. We also attempted to define clearly the mechanism of osteoporosis in those with predominantly unilateral SCI (Brown-Sequard syndrome). Using single photon absorptiometry (SPA), we found a strong correlation between our mobility Index and observed bone density. These observations clearly show that osteoporosis Is affected by the subject's level of physical activity. These observations also support the hypothesis that SCI Individuals benefit from efforts to maintain a standing posture with some regularity. This effort to improve bone density slows the development of osteoporosis, a process that results in physical impairments in the SCI population.     

Opinions on the Preclinical Evaluation of Novel Therapies for Spinal Cord Injury: A Comparison between Researchers and Spinal Cord-Injured Individuals

Abstract We previously conducted a survey to gather the opinions and perspectives of scientific and clinical researchers on what levels of preclinical evidence were needed to justify translating a promising neuroprotective or neuroregenerative therapy in spinal cord injury (SCI) into a human clinical trial (Kwon et al., 2010 ). Here we conducted an analogous survey of individuals living with SCI in which we gathered their expectations for the levels of preclinical evidence achieved by researchers in substantiating the neuroprotective and neuroregenerative therapies being offered to them in clinical trials. In total, 214 individuals with SCI completed the survey, and their responses were compared to the responses of the 235 scientists and clinicians who completed our previous survey. SCI individuals were more likely than SCI researchers to opine that demonstrating efficacy and safety in rodent models of SCI alone is sufficient to proceed with clinical trials. However, SCI individuals also reported strong support for large animal and primate model studies, and in the case of the latter, were actually more in agreement for the need for primate studies than researchers. SCI individuals also reported strong support for independent replication studies. In general, individuals with SCI had high expectations for the levels of preclinical evidence required to justify translating novel therapies into clinical trials. These expectations should be considered in the decisions to translate specific experimental therapies for SCI.     

复位内固定治疗脊柱骨折脱位合并脊髓损伤

本文报告1989年3月至1990年1月外院转入我院53例脊柱骨折脱位合并脊髓损伤患者,其中50例曾行手术治疗。结果,复位:向后成角平均20.5°,37例有成角,占70％;椎体移位平均0.5cm,47例有移位,移位率88％。固定:53例中仍存有内固定者18例,有11例内固定失败,占61％。减压:27例做核磁检查,有椎管狭窄脊髓受压者19例占70.4％。我院1981～1989年对32例新鲜脊柱骨折脱位进行复位内固定术。结果,复位:完全复位24例(75％),大部复位6例(19％),部分复位2例(6％)。内固定:无改变29例,3例失败,占9％。通过对比分析,提出充分复位、减压及有效内固定的重要性。     

Neuromotor and Musculoskeletal Responses to Locomotor Training for an Individual With Chronic Motor Complete AIS-B Spinal Cord Injury

Background/objective:     

Neuromotor and Musculoskeletal Responses to Locomotor Training for an Individual With Chronic Motor Complete AIS-B Spinal Cord Injury

Background/objective: To determine the effects of locomotor training (LT)using body weight support(BWS), treadmill, and manual assistance on muscle activation, bone mineral density (BMD), and body composition changes for an individual with motor complete spinal cord injury (AIS B), 1 year after injury.

Methods: A man with chronic C6 AIS B (motor complete and sensory incomplete) spinal cord injury (SCI),1 year after injury, completed 2 blocks of LT over a 9-monthtraining period (35-session block followed by8.6 weeks of no training and then a 62-session block).

Results: Before training, muscle activation was minimal for any muscle examined, whereas after the 2 blocksof LT (97 sessions), hip and knee muscle activation patterns for the bilateral rectus femoris, biceps femoris,and gastrocnemius were in phase with the kinematics. Mean EMG amplitude increased for all bilateral muscles and burst duration increased for rectus femoris and gastrocnemius muscles, whereas burst duration decreased for the biceps femoris after 62 LT sessions. Before LT, left biceps femoris had a pattern that reflected muscle stretch, whereas after training, muscle stretch of the left biceps femoris could not totally account for mean EMG amplitude or burst duration. After the62 training sessions, total BMD decreased (1.54%), and regional BMD decreased (legs: 6.72%). Total weight increased, lean mass decreased (6.6%), and fat mass increased (7.4%) in the arms, whereas fat mass decreased (3.5%) and lean mass increased (4%) in the legs.

Conclusions: LT can induce positive neural and body composition changes in a nonambulatory personwith chronic SCI, indicating that neuromuscular plasticity can beinduced by repetitive locomotor trainingafter a motor complete SCI.     

Late-Life Spinal Cord Injury and Aging with a Long Term Injury: Characteristics of Two Emerging Populations

Abstract

Modern care of patients with spinal cord injury is leading to greater numbers of individuals surviving into old age and the emergence of a cohort that has sustained injury at an advanced age. The clinical characteristics of either group of patients has not been well characterized. Analyses from the Aging with a Long-Term Disability Research Program database, which is enriched by the presence of a high quality Spinal Cord Injury Service, revealed a population of 510 recently assessed individuals with a mean age of 50 years, ranging from 16 to 84 years. Twenty-three percent of the patients were at least 65 years of age. Spinal cord injuries were usually the result of automobile accidents in individuals injured younger than 50 years of age and falls in individuals injured when older than 50 years of age. Patients surviving late life injury are much more likely to have incomplete injuries predominantly affecting the cervical spine. A number of conditions were found to be more prevalent in older patients. These included carpal tunnel syndrome, chronic obstructive pulmonary disease, myocardial infarction, diabetes, kidney stones, pressure ulcers and hypertension. The development of diabetes, kidney stones and perhaps pressure ulcers was directly related to aging with SCI, but not just to aging alone. The better functional outcomes in late life spinal cord injury may be secondary to selective survival. The excess morbidity associated with late life spinal cord injury has significance for future planning of healthcare needs for the spinal cord injured patient. (J Spinal Cord Med; 18:183–193)