Status epilepticus and seizures induced by iopamidol myelography (original) (raw)
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Iopamidol Myelography Induced Status Epilepticus
The Internet Journal of Neurology, 2009
A forty-eight year old woman presented with convulsive status epilepticus and respiratory arrest 45 minutes after a lumbar myelogram with iopamidol. Status epilepticus in epileptic patients are very rare complication after myelography with iopamidol and to our knowledge status epilepticus in non epileptic patients have been previously reported only in one patient. Although it is a rare complication, physicians should be aware of this potential complication, myelogram should be performed in a full organized hospital. It will be better to observe patients carefully after the procedure.
Risk of seizures after myelography: comparison of iohexol and metrizamide
AJNR. American journal of neuroradiology, 1988
A parallel, double-blind, randomized study comparing iohexol and metrizamide--both 180 mg l/ml--in lumbar myelography was carried out in 60 consecutive patients. Eight to 15 ml of contrast medium were administered with the upper level at the middle thoracic column. A detailed neurologic examination was performed before and 24 hr after myelography. EEG recordings--evaluated visually and with fast Fourier transformation analysis--and somatosensory evoked responses were registered before, 6 hr after, and 24 hr after myelography. All patients were observed for adverse reactions for 24-48 hr. Iohexol did not produce any epileptiform activity but epileptiform activity was detected in five patients receiving metrizamide. Iohexol produced significantly less frequent and less severe EEG changes than did metrizamide both at visual evaluation (p less than .0025) and at fast Fourier transformation analysis (p less than .04). No significant changes occurred in the early components of the somatos...
Status epilepticus after myelography with iohexol (Omnipaque)
The American Journal of Emergency Medicine, 2012
Myelography has been of great use as a diagnostic modality, especially when other modalities were not conclusive. However, considering the invasive nature of myelography, it should receive the attention of medical personnel for them to be aware of its possible complications, especially when newer agents are applied as the contrast media. Myelography could lead to some common adverse effects and complications, but in this case report, we will present one of the most serious and uncommon complications accompanied with myelography using Omnipaque, a nonionic second-generation contrast agent. These complications include lower-extremity myoclonic spasms, tonic seizure leading to status epilepticus, rhabdomyolysis, disseminated intravascular coagulation and anaphylactic shock. Having the knowledge of possible complications and available solutions, particularly fatal ones, could prepare medical staff beforehand for primary and secondary preventions. www.elsevier.com/locate/ajem ☆ Conflict of interest: All authors declare that there is no conflict of interest. 0735-6757/$see front matter
A case of acute encephalopathy after iohexol lumbar myelography
Clinical Neurology and Neurosurgery, 1993
A case of acute ei~cephalopathy after lumbar myeIography is reported in a female aged 26 years. Fourteen hours after the procedure, the patient developed coma (GCS 6) and had generalized slowing of EEG activity. This state lasted about 12 h. followed by gradual and full recovery.
Status Epilepticus in Our Patients, 15-Years Follow-Up Study
Scripta Medica, 2018
Introduction: Status epilepticus (SE) is the second most frequent neurological emergency. The purpose of this study was to analyse clinical presentation, causes and outcome of SE. Aim of the Study: The aim was to establish clinical characteristics, etiology and the outcome of status epilepticus as well as sex and age distribution in patients hospitalized at the Clinic of Neurology UCC RS in a 15-year follow-up. Patients and Methods: In this prospective 15-year study, all patients with SE admitted to the University Clinical Center of Republic of Srpska, Clinic of Neurology, were treated in the period of 15 years (2003-2017). Demographic and clinical data were collected. Results: In the aforesaid period, 124 patients with SE were treated, and there were 71 man (57%) with mean age of 59 years and 54 woman (43%), with mean age of 52.5 years. Primarily generalized tonic-clonic SE was identified in 70 (56%) and 44 (35.2%) patients, retrospectively. Simple partial SE occurred in 10 (8%) patients. 62% of the patients had previously had epilepsy while 38% had not. The main underlying causes were noncompliance to treatment in the first group (n=56; 72%) and cerebrovascular disease (n=36; 75%) in the second group. Overall mortality rate was 11.2% , which correlated with acute symptomatic etiology and patients of older age (mean: 73 years). Conclusion: Epileptic patients are at greater risk to develop SE. However, in patients with no prior history of epilepsy and acute neurological problems SE may also occur. Cerebrovascular disease was the most common cause of SE in those with the initial seizure. Noncompliance to treatment was the major cause in patients with preexisting epilepsy.
Evaluation of intractable epilepsy. Invasive monitoring
Neurosciences, 2010
Accurate localization of the epileptogenic zone is the fundamental key factor for successful epilepsy surgery. Despite the progress achieved in the field of neuroimaging, invasive intracranial recording is still the gold standard that helps recognize the patient population who may profit from surgery. Meticulous implantation of intracranial electrodes and judicious interpretation of their data is a definite need in a successful epilepsy program. Few centers in the Arab world are in that domain. Moreover, the society itself is not well informed to appreciate the potentials of surgical treatment of seizure disorders. In this review article, we will go over various types of intracranial recordings, discussing their indications, and the last updates for each. Some of the cases carried out at the American University of Beirut Medical Center, Beirut, Lebanon will be illustrated as examples of our current practice. Then, the future of epilepsy monitoring will be highlighted in brief.
Neuroradiology, 1993
To assess the influence of contrast medium on cortical function, we studied 20 patients undergoing lumbar myelography with iopamidol and 10 patients undergoing diagnostic lumbar puncture (controls). The examinations performed before and 6 and 24 h after myelography (or lumbar puncture) included a neuropsychological battery and an electrophysiological evaluation. In the patients cranial CT was performed thrice to assess passage of contrast medium from the cerebrospinal fluid into the brain. Neither patients nor controls had significantly different scores on neuropsychological testing after the diagnostic examinations. A transient slowing of basal EEG activity could be detected in 2 patients and 3 controls 6 h after the lumbar puncture. In 3 patients CT showed a transient increase in density of the brain. None of the parameters studied was significantly affected by myelography with iopamidol. CT findings support the hypothesis of early clearance of iopamidol from brain tissue, explaining its low neurotoxicity.
Etiology and clinical predictors of intractable epilepsy
Pediatric Neurology, 2002
To determine the etiology and clinical predictors of intractable epilepsy, a case-control study comprising 50 patients and 50 control subjects was performed. Patients included children who had more than one seizure per month over at least 6 months. Control subjects included children with epilepsy who had been seizure-free for more than 6 months. Patients were evaluated with special reference to birth history and development. Clinical examination and neurodevelopmental assessment were performed in all the patients. Drug monitoring was performed to exclude pseudointractability. Epilepsy in the study group was caused by perinatal problems (48%) and sequelae of central nervous system infection (24%) and was idiopathic in 20%. In the control group, epilepsy was idiopathic in 72%, a result of calcified granuloma in 22%, and perinatal problems comprised 6% of the subjects. On univariate analysis, strong association was evident between intractable epilepsy and several factors, including age at onset of seizure, remote symptomatic epilepsy, initial seizure type, history of neonatal seizure, high initial seizure frequency, microcephaly, and neurologic impairment. On multivariate analysis, neurologic impairment (odds ratio [OR] 12.25; 95% confidence interval [CI] 3.58-41.89), age at onset of seizure less than 1 year (OR 11.70; 95% CI 2.95-46.43), myoclonic seizure/infantile spasm (OR 10.36; 95% CI 2.39-44.93), and remote symptomatic epilepsy (OR 2.9; 95% CI 1.13-7.43), were independent predictors of intractability.
Management of Medically Intractable Epilepsy in Adults
2018
Course Description: This course is aimed at students of various levels of training, from medical students to practicing epileptologists and other clinical practitioners; it progresses from a basic to a more advanced level. It will walk students through the diagnosis of medically intractable epilepsy, the mechanisms believed to underlie medical intractability, existing diagnostic modalities, as well as the available management techniques and the science behind them. The course is composed of mini-modules with the main mini-modules explaining basic concepts, followed by testing to encode these basic concepts and to connect them with more advanced concepts in a meaningful way. Bonus modules will help students develop a deeper understanding of more advanced concepts; they will also help target important concepts for professionals in various specialties, and push students toward a deeper understanding of the subject matter. While this course can be taken on students’ own time at any time...