RÉSUMÉ
Objective To illustrate the semiological characteristics of the three sub-types within the broad bilateral asymmetric tonic seizures (BATS),summarize their predictive values on lateralization and localization of seizure onset zone (SOZ),and analyze the difference between BATS and asymmetrical tonic limb posturing (ATLP).Methods A retrospective review of 385 patients who underwent stereotactic electrode implantation in the Sanbo Brain Hospital,Capital Medical University from September 2011 to May 2018 was performed.As long as there was a clinical epileptic seizure in the presence of BATS or ATLP,the patients were classified into the corresponding groups.Postoperative prognosis was assessed using Engel's grading criteria for a follow-up of no less than six months.Seizure descriptions were based on the classification of epileptic seizures introduced by Lüiders,which used arrows to connect the symptoms in chronological order.Results There was no statistically significant difference between the classic BATS and bilateral proximal tonic seizure in terms of whether it could be an independent seizure,as the onset and end of the seizure,with version and generalized tonic-clonic seizure (P>0.05).Compared with the ATLP,except for whether it could be an independent seizure (P=1.000) and onset before versive seizure (P=0.068),the BATS showed significantly different semiological features (P<0.05).The classic BATS and secondary motor area epilepsy had a 100.0% predictive accuracy on the lateralization of SOZ.In the patients with broad BATS,the SOZ distribution was more extensive,but it was rare in the orbitofrontal gyrus,frontal pole and mesial temporal lobe.Compared with the bilateral proximal tonic seizures from the other regions,those originated from supplementary somatosensory motor area and its adjacent areas were rare and showed no statistically significant difference (0/8 vs 40.0% (18/45),x2=3.226,P=0.072) but a low trend.The predictive value of BATS on lateralization of SOZ was higher than that of ATLP (84.9% (45/53) vs 57.1% (24/42),x2=9.086,P=0.003),and BATS was less originated from temporal lobe than ATLP (3.8% (2/53) vs 23.8% (10/42),x2=8.523,P=0.004).Conclusion Different from ATLP,the broad BATS are characterized by tonic proximal upper limb posturing,and have a higher predictive value on lateralization and localization of SOZ.
RÉSUMÉ
The epileptic eye and head movements during epileptic seizures may be much more complicated thanpeople originally understood, which can be ipsilateral or contralateral to the electroencephalographyfocus. Here, we describe a male patient with drug resistant focal seizures associated with a directionalseparation between head and eye movement before evolving into generalized tonic-clonic seizure.His contralateral head leading turning showed forced, sustained, and unnatural features companiedby ipsilateral eye staring. Stereoeletroencephalography monitoring was performed, and 4 habitualseizures were recorded over 5 days. Three seizures showed left head leading turning and generalizedtonic-clonic seizure, and only one showed dizziness and ringing in the ears. All the seizures showedthat the ictal onset contacts were located in the posterior inferior temporal sulcus which borders onthe anterolateral part of medial superior temporal area. The patient underwent a resection includingtemporooccipital region, and the histopathology showed focal cortical dysplasia type Ic. He has beenseizure free for two years after operation. The scores of the intelligence and memory quotient improvedhalf year after operation.
RÉSUMÉ
Objective To investigate the role and neuroinflammatory mechanism of iron on dopamine ( DA) neurons in multiple primary midbrain cultures that mimic human substantia nigra pars compacta.Methods Ferrous chloride ( Fe2+ ) with the desired concentrations of 5,25 and 100 μmol/L was used to ( 1 ) treat primary midbrain neuron-microglia-astroglia cultures for 7 days and the numbers of DA neurons and total neurons were counted after tyrosine hydroxylase (TH) and neuron-specific neuclear protein neurons in 5,25 and 100 μmol/L Fe2 + -treated groups were 89%,70% and 55% of control group,and 25,100 μmol/L Fe2+ significantly decreased DA neuronal numbers compared with control group ( F = 12.047,P <0.01);DA neuronal bodies were shrunk and smaller,cytoplasmic stainings were reduced,neuronal dendrites were decreased;(2) The numbers of Neu-N ( + ) total neurons in 5,25 and 100 μmol/L Fe2+-treated groups were 100%,104% and 101% of control group and Fe2+ did not decrease DA neuronal numbers compared with control group (t =4.458,P > 0.05 );5,25 and 100 μmol/L Fe2+-induced difference between total neurons and DA neurons were 11%,34% and 46%,and 25 and 100 (Amol/L Fe2+ produced significant difference(t =8.098,P <0.05;t = 11.218,P<0.05);(3) In primary midbrain neuron-microglia-astroglia and neuron-astroglia cultures,the numbers of DA neurons in 25 μmol/L Fe+-treated group were 70% and 98% of control group,respectively.The difference between two groups was 28%,which was statistically significant (t =8.061,P<0.05);The numbers of DA neurons in 100 μmol/L groups were 183%,190 % and 240% of control group,and 25 and 100 μmol/L Fe2 + significantly increased microglial numbers compared with control group ( F = 6.101,P < 0.01 );dramatic changes of microglial morphology were indicated by the enlarged cell bodies and irregular shape.Conclusions Fe2 + provokes selective DA neuronal damage and microglia are the mediators of the neurotoxic effect,which may be due to microglial over-activation featured by the significant production of neurotoxic factors and morphological changes of microglia.This investigation cast a new light for PD therapy by inhibiting Fe2+ -induced neuroinflammation characterized by the microglial over-activation.