Biomaterial Database

Electroencephalographic dipoles of spikes with and without myoclonic jerks caused by epilepsia partialis continua. 2002

Ayako Ochi, and Hiroshi Otsubo, and Yo Honda, and Yosuke Hara, and Rohit Sharma, and Irene Elliott, and James T Rutka, and Sylvester H Chuang, and Ken-ichi Kamijo, and Tomoharu Kiyuna, and Toshimasa Yamazaki, and O Carter Snead

Department of Pediatrics, The Hospital for Sick Children, Toronto, Ontario, Canada. ayako.ochi@sickkids.ca

We used electroencephalographic (EEG) dipole analysis to investigate the generators of spikes with and without myoclonic jerks in a 12-year-old patient with epilepsia partialis continua secondary to left parietal cortical dysplasia. We recorded EEG and right wrist extensor electromyography (EMG) and collected 42 spikes with jerks (jerking spikes) and 42 spikes without jerks (nonjerking spikes). We applied a single moving dipole model to the individual and averaged spikes. Dipoles at the negative peak of individual jerking and nonjerking spikes were localized in the dysplastic area. At the onset of the averaged jerking spike that preceded the EMG discharges by 20 ms, the dipole was in the motor cortex, whereas for the averaged nonjerking spike, the dipole was in the sensory cortex. The dipole moment at averaged jerking spike onset was twice that of the averaged nonjerking spike. Electroencephalographic dipole analysis of averaged spikes differentiated the generator of jerking and nonjerking spikes in epilepsia partialis continua. Individual dipoles demonstrated the area of epileptogenic cortical dysplasia.

UI	MeSH Term	Description	Entries
D008279	Magnetic Resonance Imaging	Non-invasive method of demonstrating internal anatomy based on the principle that atomic nuclei in a strong magnetic field absorb pulses of radiofrequency energy and emit them as radiowaves which can be reconstructed into computerized images. The concept includes proton spin tomographic techniques.	Chemical Shift Imaging,MR Tomography,MRI Scans,MRI, Functional,Magnetic Resonance Image,Magnetic Resonance Imaging, Functional,Magnetization Transfer Contrast Imaging,NMR Imaging,NMR Tomography,Tomography, NMR,Tomography, Proton Spin,fMRI,Functional Magnetic Resonance Imaging,Imaging, Chemical Shift,Proton Spin Tomography,Spin Echo Imaging,Steady-State Free Precession MRI,Tomography, MR,Zeugmatography,Chemical Shift Imagings,Echo Imaging, Spin,Echo Imagings, Spin,Functional MRI,Functional MRIs,Image, Magnetic Resonance,Imaging, Magnetic Resonance,Imaging, NMR,Imaging, Spin Echo,Imagings, Chemical Shift,Imagings, Spin Echo,MRI Scan,MRIs, Functional,Magnetic Resonance Images,Resonance Image, Magnetic,Scan, MRI,Scans, MRI,Shift Imaging, Chemical,Shift Imagings, Chemical,Spin Echo Imagings,Steady State Free Precession MRI
D008297	Male		Males
D008991	Monitoring, Physiologic	The continuous measurement of physiological processes, blood pressure, heart rate, renal output, reflexes, respiration, etc., in a patient or experimental animal; includes pharmacologic monitoring, the measurement of administered drugs or their metabolites in the blood, tissues, or urine.	Patient Monitoring,Monitoring, Physiological,Physiologic Monitoring,Monitoring, Patient,Physiological Monitoring
D009044	Motor Cortex	Area of the FRONTAL LOBE concerned with primary motor control located in the dorsal PRECENTRAL GYRUS immediately anterior to the central sulcus. It is comprised of three areas: the primary motor cortex located on the anterior paracentral lobule on the medial surface of the brain; the premotor cortex located anterior to the primary motor cortex; and the supplementary motor area located on the midline surface of the hemisphere anterior to the primary motor cortex.	Brodmann Area 4,Brodmann Area 6,Brodmann's Area 4,Brodmann's Area 6,Premotor Cortex and Supplementary Motor Cortex,Premotor and Supplementary Motor Cortices,Anterior Central Gyrus,Gyrus Precentralis,Motor Area,Motor Strip,Precentral Gyrus,Precentral Motor Area,Precentral Motor Cortex,Premotor Area,Premotor Cortex,Primary Motor Area,Primary Motor Cortex,Secondary Motor Areas,Secondary Motor Cortex,Somatic Motor Areas,Somatomotor Areas,Supplementary Motor Area,Area 4, Brodmann,Area 4, Brodmann's,Area 6, Brodmann,Area 6, Brodmann's,Area, Motor,Area, Precentral Motor,Area, Premotor,Area, Primary Motor,Area, Secondary Motor,Area, Somatic Motor,Area, Somatomotor,Area, Supplementary Motor,Brodmann's Area 6s,Brodmanns Area 4,Brodmanns Area 6,Central Gyrus, Anterior,Cortex, Motor,Cortex, Precentral Motor,Cortex, Premotor,Cortex, Primary Motor,Cortex, Secondary Motor,Cortices, Secondary Motor,Gyrus, Anterior Central,Gyrus, Precentral,Motor Area, Precentral,Motor Area, Primary,Motor Area, Secondary,Motor Area, Somatic,Motor Areas,Motor Cortex, Precentral,Motor Cortex, Primary,Motor Cortex, Secondary,Motor Strips,Precentral Motor Areas,Precentral Motor Cortices,Premotor Areas,Primary Motor Areas,Primary Motor Cortices,Secondary Motor Area,Secondary Motor Cortices,Somatic Motor Area,Somatomotor Area,Supplementary Motor Areas
D010296	Parietal Lobe	Upper central part of the cerebral hemisphere. It is located posterior to central sulcus, anterior to the OCCIPITAL LOBE, and superior to the TEMPORAL LOBES.	Brodmann Area 39,Brodmann Area 40,Brodmann Area 5,Brodmann Area 7,Brodmann's Area 39,Brodmann's Area 40,Brodmann's Area 5,Brodmann's Area 7,Inferior Parietal Cortex,Secondary Sensorimotor Cortex,Superior Parietal Lobule,Angular Gyrus,Gyrus Angularis,Gyrus Supramarginalis,Intraparietal Sulcus,Marginal Sulcus,Parietal Cortex,Parietal Lobule,Parietal Region,Posterior Paracentral Lobule,Posterior Parietal Cortex,Praecuneus,Precuneus,Precuneus Cortex,Prelunate Gyrus,Supramarginal Gyrus,Area 39, Brodmann,Area 39, Brodmann's,Area 40, Brodmann,Area 40, Brodmann's,Area 5, Brodmann,Area 5, Brodmann's,Area 7, Brodmann,Area 7, Brodmann's,Brodmanns Area 39,Brodmanns Area 40,Brodmanns Area 5,Brodmanns Area 7,Cortex, Inferior Parietal,Cortex, Parietal,Cortex, Posterior Parietal,Cortex, Precuneus,Cortex, Secondary Sensorimotor,Cortices, Inferior Parietal,Gyrus, Angular,Gyrus, Prelunate,Gyrus, Supramarginal,Inferior Parietal Cortices,Lobe, Parietal,Lobule, Parietal,Lobule, Posterior Paracentral,Lobule, Superior Parietal,Paracentral Lobule, Posterior,Paracentral Lobules, Posterior,Parietal Cortex, Inferior,Parietal Cortex, Posterior,Parietal Cortices,Parietal Cortices, Inferior,Parietal Cortices, Posterior,Parietal Lobes,Parietal Lobule, Superior,Parietal Lobules,Parietal Lobules, Superior,Parietal Regions,Posterior Paracentral Lobules,Posterior Parietal Cortices,Precuneus Cortices,Region, Parietal,Secondary Sensorimotor Cortices,Sensorimotor Cortex, Secondary,Superior Parietal Lobules
D011183	Postoperative Complications	Pathologic processes that affect patients after a surgical procedure. They may or may not be related to the disease for which the surgery was done, and they may or may not be direct results of the surgery.	Complication, Postoperative,Complications, Postoperative,Postoperative Complication
D002648	Child	A person 6 to 12 years of age. An individual 2 to 5 years old is CHILD, PRESCHOOL.	Children
D004569	Electroencephalography	Recording of electric currents developed in the brain by means of electrodes applied to the scalp, to the surface of the brain, or placed within the substance of the brain.	EEG,Electroencephalogram,Electroencephalograms
D004576	Electromyography	Recording of the changes in electric potential of muscle by means of surface or needle electrodes.	Electromyogram,Surface Electromyography,Electromyograms,Electromyographies,Electromyographies, Surface,Electromyography, Surface,Surface Electromyographies
D004831	Epilepsies, Myoclonic	A clinically diverse group of epilepsy syndromes characterized either by myoclonic seizures or by myoclonus in association with other seizure types. Myoclonic epilepsy syndromes are divided into three subtypes based on etiology: familial, cryptogenic, and symptomatic.	Idiopathic Myoclonic Epilepsy,Myoclonic Absence Epilepsy,Myoclonic Encephalopathy,Myoclonic Epilepsy,Symptomatic Myoclonic Epilepsy,Benign Infantile Myoclonic Epilepsy,Cryptogenic Myoclonic Epilepsy,Doose Syndrome,Dravet Syndrome,Early Childhood Epilepsy, Myoclonic,Early Childhood, Myoclonic Epilepsy,Encephalopathy, Myoclonic,Epilepsy, Early Childhood, Myoclonic,Epilepsy, Myoclonic, Early Childhood,Epilepsy, Myoclonic, Infantile,Epilepsy, Myoclonic, Infantile, Benign,Epilepsy, Myoclonic, Infantile, Severe,Epilepsy, Myoclonus,Infantile Severe Myoclonic Epilepsy,Myoclonic Astatic Epilepsy,Myoclonic Epilepsy, Benign Infantile,Myoclonic Epilepsy, Early Childhood,Myoclonic Epilepsy, Infantile,Myoclonic Epilepsy, Infantile, Benign,Myoclonic Epilepsy, Infantile, Severe,Myoclonic Epilepsy, Severe Infantile,Myoclonic Epilepsy, Severe, Of Infancy,Myoclonic Seizure Disorder,Severe Infantile Myoclonic Epilepsy,Severe Myoclonic Epilepsy Of Infancy,Severe Myoclonic Epilepsy, Infantile,Astatic Epilepsies, Myoclonic,Astatic Epilepsy, Myoclonic,Cryptogenic Myoclonic Epilepsies,Dravet Syndromes,Encephalopathies, Myoclonic,Epilepsies, Cryptogenic Myoclonic,Epilepsies, Idiopathic Myoclonic,Epilepsies, Infantile Myoclonic,Epilepsies, Myoclonic Absence,Epilepsies, Myoclonic Astatic,Epilepsies, Symptomatic Myoclonic,Epilepsy, Cryptogenic Myoclonic,Epilepsy, Idiopathic Myoclonic,Epilepsy, Infantile Myoclonic,Epilepsy, Myoclonic,Epilepsy, Myoclonic Absence,Epilepsy, Myoclonic Astatic,Epilepsy, Symptomatic Myoclonic,Idiopathic Myoclonic Epilepsies,Infantile Myoclonic Epilepsies,Infantile Myoclonic Epilepsy,Myoclonic Absence Epilepsies,Myoclonic Astatic Epilepsies,Myoclonic Encephalopathies,Myoclonic Epilepsies,Myoclonic Epilepsies, Cryptogenic,Myoclonic Epilepsies, Idiopathic,Myoclonic Epilepsies, Infantile,Myoclonic Epilepsies, Symptomatic,Myoclonic Epilepsy, Cryptogenic,Myoclonic Epilepsy, Idiopathic,Myoclonic Epilepsy, Symptomatic,Myoclonic Seizure Disorders,Myoclonus Epilepsies,Myoclonus Epilepsy,Seizure Disorder, Myoclonic,Seizure Disorders, Myoclonic,Symptomatic Myoclonic Epilepsies