Intramedullary spinal cord and filum tumours-long-term outcome: single institution case series.

BACKGROUND: Intramedullary spinal cord tumours are rare and account for about 2-4% of primary CNS tumours. Ependymomas and astrocytomas are most frequent. The aim of this study was to evaluate the long-term neurological outcome, quality of life (QoL), survival, need for additional treatment and frequency of neuropathic pain in a patient group treated at a tertiary university hospital. METHOD: Retrospective descriptive study of 52 long-term survivors with intramedullary or filum tumours consenting to participate in this study. Fifty-six operations were performed in 48 patients. Clinical and radiological follow-up period was 113 and 117 months, respectively. RESULTS: Good neurological outcome (ASIA score D or E, modified McCormick grade 1 or 2) was achieved in 88%. We found two negative prognostic factors in regards of severe disability which were large craniocaudal tumour size (p = 0.004) and histologic verified astrocytomas (p = 0.002). SF-36 results showed significantly lower results on all five subdomains concerning physical function, whereas scores for mental health and role emotional showed no significant differences compared to Norwegian norms. Ten patients including all astrocytoma patients, one primitive neuroectodermal tumour and three recurrent tumours of filum terminale had adjuvant therapy. None of the patients with intramedullary ependymoma had adjuvant therapy. Neuropathic pain was present in 54% of patients at the last follow-up. CONCLUSION: This series shows that good results can be obtained with surgery for intramedullary tumours, even without perioperative neurophysiological monitoring. Multicentre studies are needed for further evaluation of negative and positive prognostic factors to further improve outcome.

Non-traumatic spinal cord injury in Norway 2012-2016: analysis from a national registry and comparison with traumatic spinal cord injury.

STUDY DESIGN: Registry-based cross-sectional study. OBJECTIVES: To describe and analyze epidemiological and demographic characteristics of non-traumatic spinal cord injury (NTSCI) and to compare persons with NTSCI and traumatic spinal cord injury (TSCI). SETTING: A total of 225 non-traumatic and 349 traumatic SCI patients were admitted for primary rehabilitation at one of the three specialized SCI departments in Norway (located in Bergen, Trondheim, and Oslo) from 2012 to 2016. Patients who consented to registration in the Norwegian Spinal Cord Injury Registry (NorSCIR) were included. METHODS: Data were collected using the International SCI Core Data Set, as recommended by the International Spinal Cord Society (ISCoS). Demographics and injury characteristics were analyzed descriptively. The NTSCI and TSCI groups were compared using a Mann-Whitney U test and chi-square test. RESULTS: The mean age of the NTSCI patients was 55 years, and 59% were male. The incidence of NTSCI was 7.7-10.4 per million person-years, which is lower than the incidence of TSCI. NTSCI individuals were older, less severely injured, and their length of stay at the hospital was shorter than the TSCI individuals. The results may be influenced by the inclusion criterion in the registry. This makes the analyzed sample for NTSCI less complete. However, the majority of patients with nonprogressive NTSCI are included in the NorSCIR. CONCLUSION: For the first time, we are able to provide the national epidemiological status on NTSCI based on available data from the national registry. Further studies are required to improve the capture of NTSCI for future incidence studies.

Epidemiology of traumatic spinal cord injury in Norway in 2012-2016: a registry-based cross-sectional study.

STUDY DESIGN: A registry-based cross-sectional study. OBJECTIVES: To analyse the epidemiological and demographic characteristics of persons with traumatic spinal cord injury (TSCI) in Norway. SETTING: TSCI patients admitted for primary rehabilitation to one of the three specialised spinal cord injury (SCI) departments (located in Bergen, Trondheim, and Oslo) and consented to the Norwegian Spinal Cord Injury Registry (NorSCIR). METHODS: Analysis of data from NorSCIR during a 5-year period (2012-2016) was performed. Data were collected by using the International SCI Core Data Set as recommended by the International Spinal Cord Society (ISCoS). RESULTS: The lowest incidence of TSCI was 11.4/million (2012), and the highest incidence was 15.9/million (2014). In the study period, 349 individuals were registered with TSCI. In total, 76% were male, and the mean age was 47 (SD ± 19) years. We observed dominance in the 60-74 years age group. The distribution between tetraplegia and paraplegia was 48%/42%. For those initially classified as American Spinal Cord Injury Association Impairment Scale (AIS) grade A (complete injury), 77% remained grade A at discharge. Considerable changes during primary rehabilitation after incomplete lesions were observed. Most patients (68%) were discharged home after primary rehabilitation. Falls were the main cause of TSCI (47%) and occurred more often during the weekend. CONCLUSION: Through a National Medical Quality Registry based on internationally provided data sets, we are able to present systematic and updated data from Norway.

Telehealth for people with spinal cord injury: a narrative review.

STUDY DESIGN: Narrative review. OBJECTIVES: To find and discuss what has been published about the use of telehealth, on people with spinal cord injury (teleSCI). SETTING: International. METHOD: Cochrane Library, Ovid Medline, EMBASE and CINAHL, from 1996 till June 2017 have been searched. Searches in  PsycINFO, from 1996 till September 2017, were included afterwards. Extracted data include studies in English language, containing information about spinal cord injury and disorders, and telehealth. Literature reviews, systematic reviews, and studies containing other types of neurological disorders, were excluded. Studies were grouped based on how and to whom telehealth was offered. RESULTS: Twenty nine studies were included in the review. They were categorized according to the way teleSCI was provided, and to what modality was used. Some studies utilized more than one modality. TeleSCI seems to be favorable concerning treatment and follow-up, as well as favorable socioeconomically and environmentally. The studies spanned across several aims and outcomes. There was also heterogeneity in number of participants, the differences in modalities, and in the level of evidence. Thus  it was challenging to compare studies  and make future recommendations. CONCLUSIONS: TeleSCI can be used for examination and guiding purposes. Further research is warranted to evaluate optimal utilization, methodology and efficacy. SPONSORSHIP: The first author has received funding from the Norwegian Extra Foundation.

Long-term outcome after spinal cord infarctions.

OBJECTIVES: To investigate long-term outcome in patients with spontaneous spinal cord infarctions and secondly to compare outcome with that of patients with cerebral infarction. MATERIAL AND METHODS: The study includes 30 patients with spinal cord infarction discharged between 1995 and 2010. Surviving patients were contacted by telephone and sent a questionnaire. Data on employment, function, depression, fatigue, pain, and quality of life were obtained and compared to similar data obtained from a group of patients with cerebral infarction. RESULTS: Seven patients with spinal cord infarction had died after a mean follow-up of 7.1 years. Mortality was associated with poor functioning in the acute phase. Thirteen of 20 responding patients were able to walk. Compared to patients with cerebral infarction, patients with spinal cord infarction had significantly lower mortality, poorer functioning, higher re-employment rate, and more pain. CONCLUSION: Many patients with spinal cord infarction experience significant improvement. Even though functional outcome is worse, the mortality rate is lower and the frequency of re-employment higher among patients with spinal cord infarction compared to patients with cerebral infarction.

Impact of fatal cases on the epidemiology of traumatic spinal cord injury in Estonia.

BACKGROUND AND PURPOSE: Most epidemiological studies on traumatic spinal cord injury (TSCI) have not included patients who die before hospitalization. The aim of the research was to study the incidence of TSCI by including the individuals who die at the scene of the accident in addition to data retrieved from all hospitals in Estonia. METHODS: Medical records of patients with TSCI from all hospitals in Estonia from 2005 to 2007 were studied. With collaboration from the Estonian Forensic Science Institute the data of the victims of TSCI who died before hospitalization were included. RESULTS: From 2005 to 2007, 391 TSCI cases were identified: 183 patients were found retrospectively from medical records and 208 cases were detected from autopsy reports. Fifty-three per cent of patients died before hospitalization. The annual incidence rate was 97.0 per million population (95% confidence interval 87.4-106.6). The mean age at injury was 44.4 ± 18.7 years. Motor vehicle accidents were the leading cause of TSCI amongst the individuals who died before hospitalization (75%). Falls accounted for the highest number of TSCIs (43%) amongst the patients who reached hospital. CONCLUSIONS: Our study shows that, when the cases that die at the scene of the accident are included, the incidence of TSCI in Estonia rises from 39.7 to 97.0 per million population.

Factors influencing optimal seating pressure after spinal cord injury.

STUDY DESIGN: Retrospective, cross-sectional design. OBJECTIVES: To identify factors that predict unsatisfactory seating pressure in spinal cord-injured (SCI) individuals. SETTING: Seating Clinic at the University Hospital, Norway. METHODS: All wheelchair users with traumatic SCI hospitalized between 1 January 2007 and 31 December 2010 were included. Individual assessment by a team was performed. To measure seating pressure, a computerized seating pad with sensing points 40 × 40 cm was used. Primary end points were defined as satisfactory or unsatisfactory seating position based on measured pressure (more or less 100 mm Hg), clinical findings and physical activity level. To explore possible risk factors for high seating pressure, both univariate and multivariate regression analysis were performed. RESULTS: A total of 75 persons with SCI were assessed, 39 (52%) with unsatisfactory result. Statistical analysis revealed that use of manual wheelchair (odds ratio (OR)=6.86, confidence interval (CI) 1.77-26.63) and history of pressure ulcer (OR=8.47, CI 2.46-29.13) significantly increase the risk of unsatisfactory seating pressure. Paraplegia caused significantly higher risk (OR=2.5, CI 0.99-6.34) in the univariate model, probably because the SCI with tetraplegia do prefer electrically powered wheelchairs. CONCLUSIONS: Use of manually driven wheelchairs and persons with previous pressure ulcer are at significant risk of high seating pressure and consequently developing new pressure ulcers. The patients from these subcategories need close follow-up regarding seating position and prevention of pressure ulcers.

Traumatic spinal cord injury in two European countries: why the differences?

BACKGROUND AND PURPOSE: The aim of the study was to compare the incidence, causes, severity and mortality of traumatic spinal cord injury (TSCI) in Western Norway and Estonia from 1997 to 2001. METHODS: The patients were identified from hospital records. All patients were followed until death or 14 October 2011. Analysed data included demographic data, causes of injury, neurological level, American Spinal Injury Association Impairment Scale and mortality. RESULTS: A total of 71 patients in Western Norway and 244 in Estonia were included. The standardized incidence rate per million was 24.9 (CI 95%, 19.4-31.7) for Western Norway and 37.4 (CI 95%, 32.8-42.5) for Estonia. Falls was the most frequent cause of TSCI in both countries. The incidence of TSCI was highest among men in their 20s in Estonia and men in their 70s in Western Norway. The median survival time among the deceased was 4.0 (95% CI, 1.50-6.50) years in Norway and 2.8 (95% CI, 1.54-4.04) in Estonia. The mean standardized mortality ratio (SMR) was 5.00 (95% CI, 4.00-6.20) in Estonia and 1.89 (95% CI, 1.23-2.77) in Western Norway. CONCLUSION: Although the two cohorts had similar demographic, injury and clinical characteristics, the age profile of the victims was different. The incidence rate was 1.5 times higher and SMR was 2.7 times higher in Estonia. Probable explanations for the different outcomes of the two European countries are socioeconomic differences, lower physical activity level, lower life expectancy and insufficient injury prevention programmes in Estonia.

High incidence of traumatic spinal cord injury in Estonia.

STUDY DESIGN: Retrospective population-based cohort study. OBJECTIVES: To provide national data on epidemiology of traumatic spinal cord injury (TSCI) among the population of Estonia from 1997 to 2007. SETTING: All Estonian hospitals. METHODS: Medical records of patients with TSCI from all regional, central, general and rehabilitation hospitals in Estonia were retrospectively reviewed. Epidemiological characteristics, etiology, neurological level and severity of injury, concomitant injuries were analyzed. RESULTS: A total of 595 patients with TSCI from 1 January 1997 to 31 December 2007 were identified. The male to female ratio was 5.5:1. The mean age at injury was 39.0 years. The crude incidence rate was 39.7 (95% confidence interval: 36.6-43.0) per million population. The most frequent cause of TSCI was falls (41%), followed by traffic accidents (29%). Alcohol consumption preceded 43% of injuries. The lesion level was cervical in 59.4%, thoracic in 18.3% and lumbar/sacral in 22.3%. CONCLUSION: Compared to recent studies from Europe, where the incidence of TSCI is between 15 and 30 per million population, the incidence of TSCI in Estonia is among the highest. The rates are significantly higher in men compared with women and especially among the youngest men. The leading cause of TSCI is falls. A significant proportion of injuries are related to alcohol consumption before trauma in Estonia.

Cardiovascular and urological dysfunction in spinal cord injury.

OBJECTIVE: A spinal cord injury (SCI) above the sixth thoracic vertebra interrupts the supraspinal control of the sympathetic nervous system causing an imbalance between the sympathetic and the parasympathetic nervous system. This article focuses on the symptoms, treatment and examination of autonomic disturbances of the cardiovascular and the urinary system after a SCI. METHODS: A non-systematic literature search in the PubMed database. RESULTS: Frequent complications in the acute phase of cervical and high thoracic SCI are bradyarrhythmias, hypotension, hypothermia/hyperthermia, increased neurogenic shock, vagovagal reflex, supraventricular/ventricular ectopic beats, vasodilatation and congestion. Serious complications in the chronic phase of SCI are orthostatic hypotension, impaired cardiovascular reflexes, autonomic dysreflexia (AD), reduced sensation of cardiac pain, loss of reflex cardiac acceleration, quadriplegic cardiac atrophy due to loss of left ventricular mass and pseudo-myocardial infarction. AD is associated with a sudden, uncontrolled sympathetic response, triggered by stimuli below the injury. It may cause mild symptoms like skin rash or slight headache, but also severe hypertension, cerebral haemorrhage and death. Early recognition and prompt treatment are important. Urinary autonomic dysfunctions include hyperreflexia or areflexia of detrusor and/or sphincter of the bladder. CONCLUSIONS: Patients with SCI have a high risk of cardiovascular complications, AD and urinary autonomic dysfunction both in the acute phase and later, affecting their prognosis and quality of life. Knowledge of cardiovascular and urological complications after SCI is important for proper diagnosis and treatment.

Traumatic spinal cord injury and concomitant brain injury: a cohort study.

OBJECTIVE: To assess the temporal trends in the incidence and demographic characteristics of traumatic spinal cord injury (TSCI) with clinical concomitant traumatic brain injury (TBI), in an unselected, geographically defined cohort, 1952-2001. MATERIAL AND METHODS: The patients were identified from hospital records. TBI was classified as none, mild, moderate, and severe. RESULTS: Of 336 patients, 157 (46.7%) patients had a clinical concomitant TBI. Clinical TBI was classified as mild in 30.1%, moderate in 11.0% and severe in 5.7%. The average annual incidence increased from 3.3 per million in the first decade to 10.7 per million in the last. Alcohol was the strongest risk factor of clinical TBI (OR = 3.69) followed by completeness of TSCI (OR = 2.18). CONCLUSIONS: The incidence of TSCI with concomitant TBI has increased during the last 50 years. Alcohol and completeness of injury are strong risk factors. Increased awareness of dual diagnoses is necessary.

Clinical assessment and management of spasticity: a review.

Spasticity is a sign of upper motor neurone lesion, which can be located in the cerebrum or the spinal cord, and be caused by stroke, multiple sclerosis, spinal cord injury, brain injury, cerebral paresis, or other neurological conditions. Management is dependent on clinical assessment. Positive and negative effects of spasticity should be considered. Ashworth score and the modified Ashworth score are the most used scales for assessment of spasticity. These and other spasticity scales are based on assessment of resistance during passive movement. The main goal of management is functional improvement. A novel 100-point score to assess disability, function related to spasticity (Rekand disability and spasticity score) is proposed. Management of spasticity should be multimodal and should always include physiotherapy or exercise. Oral medications such as baclofen and tizanidine have limited efficacy and considerable side effects, but are easiest to use. Botulinum toxin combined with physiotherapy and/or orthopaedic surgery is effective treatment of localized spasticity. Treatment with intrathecal baclofen via programmable implanted pump is effective in generalized spasticity, particularly in the lower extremities. Neurosurgical and orthopaedic procedures may be considered in intractable cases.

A 50-year follow-up of the incidence of traumatic spinal cord injuries in Western Norway.

STUDY DESIGN: Retrospective population-based epidemiological study. OBJECTIVE: To assess the prevalence and temporal trends in the incidence of traumatic spinal cord injuries (TSCI), and demographic and clinical characteristics of an unselected, geographically defined cohort in the period 1952-2001. METHODS: The patients were identified from hospital records. Crude rates and age-adjusted rates were calculated for each year. The multivariate relationship between cause of injury, age at injury, decade of injury and gender was examined using a Poisson regression model. RESULTS: Of 336 patients, 199 patients were alive on 1 January 2002, giving a total prevalence of 36.5 per 100,000 inhabitants. The average annual incidence increased from 5.9 per million in the first decade to 21.2 per million in the last. Mean age at injury was 42.9 years and the male to female ratio 4.7:1. Fall was the most common cause of injury (45.5%), followed by motor vehicle accidents (MVA) (34.2%). The incidence of MVA-related injuries increased during the observation period, especially among men <30 years. The lesion level was cervical in 52.4%, thoracic in 29.5% and lumbar/sacral in 18.2%. The lesion was clinically incomplete in 58.6% and complete in 41.4%. The incidence of fall-related injuries and the proportion of incomplete cervical lesions increased during the observation period, especially among men >60 years. CONCLUSIONS: The incidence of TSCI has increased during the past 50 years. Falls and MVA are potentially preventable causes. The increasing proportion of older patients with cervical lesions poses a challenge to the health system.

Diagnostic coding accuracy for traumatic spinal cord injuries.

STUDY DESIGN: Retrospective register study enhanced and verified by medical records. OBJECTIVES: To study whether electronic searches of discharge diagnosis are valid for epidemiological research of traumatic spinal cord injury (SCI), using the International Classification of Diseases (ICD). SETTINGS: Haukeland University Hospital, Bergen, Norway. METHODS: We identified all hospital admissions with discharge codes suggesting a traumatic SCI from ICD-8 to ICD-10 in the electronic database at Haukeland University Hospital, and ascertained the cases by reviewing all hospital records. RESULTS: 1080 patients had an ICD diagnostic code suggesting a traumatic SCI. Only 260 were verified when reviewing the hospital records. The ICD-10 codes had superior positive predictive values (PPV) and likelihood ratios (LR+) compared with the codes from ICD-8 and ICD-9. Combining seven codes from ICD-10 (S14.0, S14.1, S24.0, S24.1, S34.1, S34.3, T91.3) gave the highest sensitivity (0.83), specificity (0.97), PPV (0.88) and LR+ (30.23). CONCLUSION: Obtaining hospital discharge diagnoses solely from electronic databases overestimates the incidence of traumatic SCI. Identification of patients using ICD-10 codes is more complicated because acute traumatic SCI and traumatic SCI sequelae are listed with several codes. The latest ICD version proved to be most reliable when identifying patients with traumatic SCI. However, ICD data cannot be trusted without extensive validity checks for either research or for health planning and administration.

Spinal cord injuries among paragliders in Norway.

STUDY DESIGN: A national retrospective descriptive study. OBJECTIVE: To study the clinical effects of spinal cord injuries (SCIs) caused by paragliding accidents in Norway. SETTING: Spinal cord units at Haukeland University Hospital, Sunnaas Rehabilitation Hospital and St Olav Hospital in Norway. METHODS: We studied the medical files for nine patients with SCI caused by paragliding accidents to evaluate the circumstances of the accidents, and clinical effects of injury. We obtained the data from hospital patient files at all three spinal units in Norway and crosschecked them through the Norwegian Paragliding Association's voluntary registry for injuries. RESULTS: All patients were hospitalized from 1997 to 2006, eight men and one woman, with mean age 30.7 years. The causes of the accidents were landing problems combined with unexpected wind whirls, technical problems and limited experience with unexpected events. All patients contracted fractures in the thoracolumbal junction of the spine, most commonly at the L1 level. At clinical follow-up, all patients presented clinically incomplete SCI (American Spinal Injury Association impairment scores B-D). Their main health problems differed widely, ranging from urinary and sexual disturbances to neuropathic pain and loss of motor functioning. Only three patients returned to full-time employment after rehabilitation. CONCLUSION: Paragliding accidents cause spinal fractures predominantly in the thoracolumbal junction with subsequent SCIs and increased morbidity. All patients experienced permanent health problems that influenced daily activities and required long-time clinical follow-up and medical intervention. Better education in landing techniques and understanding of aerodynamics may reduce the risk of paragliding accidents.

Post-polio syndrome patients treated with intravenous immunoglobulin: a double-blinded randomized controlled pilot study.

Post-polio syndrome (PPS) is characterized by new muscle weakness, atrophy, fatigue and pain developing several years after the acute polio. Some studies suggest an ongoing inflammation in the spinal cord in these patients. From this perspective, intravenous immunoglobulin (IvIg) could be a therapeutic option. We performed a double-blinded randomized controlled pilot study with 20 patients to investigate the possible clinical effects of IvIg in PPS. Twenty patients were randomized to either IvIg 2 g/kg body weight or placebo. Primary endpoints were changes in pain, fatigue and muscle strength 3 months after treatment. Surrogate endpoints were changes in cerebrospinal fluid (CSF) cytokine levels. Secondary endpoints were pain, fatigue and isometric muscle strength after 6 months. Patients receiving IvIg reported a significant improvement in pain during the first 3 months, but no change was noted for subjective fatigue and muscle strength. CSF levels of tumour necrosis factor-alpha (TNF-alpha) were increased compared with patients with non-inflammatory neurological disorders. In conclusion, in this small pilot study no effect was seen with IvIg treatment on muscle strength and fatigue, however IvIg treated PPS patients reported significantly less pain 3 months after treatment. TNF-alpha was increased in the CSF from PPS patients. The results are promising, but not conclusive because of the low number of patients studied.

Post-polio syndrome and total health status in a prospective hospital study.

New loss of function among patients with previous polio is frequently reported and has several causes. All patients referred to the Department of Neurology, Haukeland University Hospital, Bergen, for 13 months during 2000-2001 with diagnosis late effects of polio were examined prospectively to identify their symptoms and loss of function. Eighty-five patients aged 47-91 years with mean of 61 years were included. The most common complaints were pain (44%), muscular weakness (27%), and fatigue (16%). Muscular weakness occurred in lower limbs in 75%, in respiratory muscles in only 5%. Walking in stairs was impaired in 72% and outdoor walking in 65%. Seventeen patients (19%) reported no loss of function. Post-polio syndrome was diagnosed in 26% of the patients. Polio-related loss of function including cervical and lumbosacral radiculopathies, mononeuropathies and degenerative joint disease were found in an additional 53%. Eleven patients (13%) had distinct non-polio-related disorders that caused new loss of function. The remaining 8% had a stable condition. In conclusion, the majority of polio patients who seek hospital, experience a new loss of function because of polio-related disorders. A careful neurological examination is necessary to identify the correct diagnosis and treatment.

GM1 antibodies in post-polio syndrome and previous paralytic polio.

We studied the relationship between post-polio syndrome (PPS) and GM1 antibodies, since such antibodies have been associated with PPS and motor neuron disorders. Sera from 144 patients with previous poliomyelitis (105 paralytic, 22 nonparalytic and 17 PPS), 60 with previous Guillain-Barré syndrome, 44 with amyotrophic lateral sclerosis (ALS) and 22 healthy blood donors were analyzed with ELISA for GM1 IgM, IgG and IgA antibodies. GM1 antibodies were present in 14% of the PPS patients, but the prevalence did not differ significantly from that of the other groups. Our study does not support the hypothesis that GM1 antibodies are involved in the pathogenesis of PPS.