Postictal state - Knowledge

338:(PET) scanning of radiolabelled ligands before, during, and after spontaneous seizures in humans. They found that opioid receptors were upregulated in the regions near the focus of the seizure during the ictal phase, gradually returning to baseline availability during the postictal phase. Hammers notes that cerebral bloodflow after a seizure cannot account for the increase in PET activity observed. Regional bloodflow can increase by as much as 70–80% after seizures but normalizes after 30 minutes. The shortest postictal interval in their study was 90 minutes and none of the patients had seizures during the scanning. It has been predicted that a decrease in opioid activity following a seizure could cause withdrawal symptoms, contributing to postictal depression. The opioid receptor connection with mitigating seizures has been disputed, and opioids have been found to have different functions in different regions of the brain, having both proconvulsive and anticonvulsive effects. 399:

it has been shown that sometimes cerebral blood flow is not proportionate to metabolism. While cerebral blood flow didn't change in the mouse hippocampus (the foci of seizures in this model) during or after seizures, increases in relative glucose uptake were observed in the region during the ictal and early postictal periods. Animal models are difficult for this type of study because each type of seizure model produces a unique pattern of perfusion and metabolism. Thus, in different models of epilepsy, researchers have had differing results as to whether or not metabolism and perfusion become uncoupled. Hosokawa's model used EL mice, in which seizures begin in the

228:. Following the typical postictal confusion and lethargy, the person gradually recovers to a normal lucid state. In persons who experience postictal psychosis, this "lucid phase" usually continues at least 6 hours (and up to a week) followed by the psychosis lasting as little as one hour to more than 3 months (the mean is 9–10 days). The psychosis is typically treated medically using 382:. With continued contractions under anaerobic conditions, the cells undergo lactic acidosis, or the production of lactic acid as a metabolic byproduct. This acidifies the blood (higher H+ concentration, lower pH), which has many impacts on the brain. For one, “hydrogen ions compete with other ions at the ion channel associated with N-methyl-d-aspartate ( 333:

may be occurring during seizures and may be partially responsible for the weariness humans experience following a seizure. When humans were given naloxone in-between seizures, researchers observed increased activity on their EEGs, suggesting that opioid receptors may also be upregulated during human

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typically ensures that the correct amount of blood reaches the various regions of the brain to match the activity of the cells in that region. In other words, perfusion typically matches metabolism in all organs; especially in the brain, which gets the highest priority. However, following a seizure

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terminal and then exocytosed into the synaptic cleft in order to propagate the signal to the next neuron. While neurotransmitters are not typically a limiting factor in neuronal signaling rates, it is possible that with extensive firing during seizures neurotransmitters could be used up faster than

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Quote: "Patients who are aware of increased depression or tension prior to generalized tonic-clonic or limbic seizures occasionally report a feeling of euphoria or release during the postictal period atients with interictal or preictal depression can report relief or euphoria postictally, which is

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The postictal state can also be useful for determining the focus of the seizure. Decreased verbal memory (short term) tends to result from a seizure in the dominant hemisphere, whereas seizures in the non-dominant hemisphere tend to manifest with decreased visual memory. Inability to read suggests

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do not produce a postictal state and some seizure types may have very brief postictal states. Otherwise, the lack of typical postictal symptoms, such as confusion and lethargy following convulsive seizures, may be a sign of non-epileptic seizures. Usually such seizures are instead related to

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is a temporary regional loss of function in whatever region just experienced the seizure, and its manifestation depends on where the seizure was located. Loss of motor function is most common and can range from weakness to full paralysis. About 6% of patients who had

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Leftover inhibitory signals are the most likely explanation for why there would be a period in which the threshold for provoking a second seizure is high, and lowered excitability may also explain some of the postictal symptoms. Inhibitory signals could be through

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Absence ... seizures begin and end suddenly. There is no warning before the seizure, and immediately afterward the person is alert and attentive. This lack of a postictal period is a key feature that allows one to distinguish between absence and partial complex

158:-induced reversible alterations in neuronal function but not structure." Commonly after a seizure, a person feels mentally and physically exhausted for up to one or two days. The most common complaint is an inability to think clearly, specifically "poor 243:

Postictal bliss or euphoria is also reported following seizures. This has been described as a highly blissful feeling associated with the emergence from amnesia. Feelings of depression before a seizure may lead to postictal euphoria.

359:, a period of weeks or even months following a series of seizures in which seizures cannot be induced (using animal models and a technique called kindling, in which seizures are induced with repeated electrical stimulation). 905:

Hammers, Alexander; Asselin, Marie-Claude; Hinz, Rainer; Kitchen, Ian; Brooks, David J.; Duncan, John S.; Koepp, Matthias J. (14 April 2007). Newsom-David, John; Husain, Masud; Al-Chalabi, Ammar; Mallucci, Giovanna (eds.).

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It is possible that seizures cease spontaneously, but it is much more probable that some changes in the brain create inhibitory signals that serve to tamp down the overactive neurons and effectively end the seizure.

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of the blood could aid in ending the seizure and also depress neuron firing following its conclusion. As muscles contract during tonic-clonic seizures they outpace oxygen supplies and go into

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disorder. For most people with epilepsy, the interictal state corresponds to more than 99% of their life. The interictal period is often used by neurologists when diagnosing epilepsy since an

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Hosokawa, Chisa; Ochi, Hironobu; Yamagami, Sakae; Yamada, Ryusaku (1 April 1997). Goldsmith, Stanley J.; Murphy, Dawn; Sonnemaker, Robert E.; Silver, Stacey; Tapscott, Eleanore (eds.).

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Postictal psychosis is a neuropsychiatric sequel to seizures of chronic epilepsy in adults. Tending to occur with bilateral seizure types it is characterized by auditory and visual

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period is the seizure itself; the interictal period is the time between seizures, when brain activity is more normal; and the preictal period is the time leading up to a seizure:

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consistent with the well-known beneficial effect of electroconvulsive shock therapy (ECT). Postictal hypomania can occur, particularly after repeated limbic seizures."

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experienced Todd's paresis afterward, with loss of motor function sometimes accompanied with temporary numbness, blindness, or deafness. Todd's paresis can also cause

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new ones could be synthesized in the cell and transported down the axon. There is currently no direct evidence for neurotransmitter depletion following seizures.

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and present similarly to the behaviors observed in human epileptic patients. If humans show similar uncoupling of perfusion and metabolism, this would result in

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has also been implicated as a molecule potentially involved in terminating seizures. Evidence for the theory of active inhibition lies in the postictal

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While it might seem that the neurons become “exhausted” after the near-constant firing involved in a seizure, the ability of the neuron to carry an

1081: 883: 624: 812: 38:. It usually lasts between 5 and 30 minutes, but sometimes longer in the case of larger or more severe seizures, and is characterized by 887: 907: 98:(EEG), the recording during a seizure is said to be "ictal". The following definitions refer to the temporal relation with seizures. 1449: 1366: 209:

if the seizures began in the language-dominant hemisphere. Symptoms typically last about 15 hours, but can continue for 36 hours.

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following a seizure is not decreased. Neurons of the brain fire normally when stimulated, even after long periods of

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seizure foci in the language areas of the left hemisphere, and "after a seizure semivoluntary events as mundane as

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in the affected area, a possible explanation for the confusion and 'fog' patients experience following a seizure.

386:). This competition may partially attenuate NMDA receptor and channel mediated hyperexcitability after seizures.” 185:. At times, a person may be unaware of having had a seizure, and the characteristic migraine is their only clue. 1510: 1371: 1174: 1388: 1361: 1067: 356: 31: 1515: 1423: 1338: 335: 724:

Devinsky, Orrin (26 February 2008). Spencer, David; Jehi, Lara E.; Won, Michael; Danzer, Steve C. (eds.).

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immediately reverses this state, providing evidence that increased responsiveness or concentration of the

170:, decreased verbal and interactive skills, and a variety of cognitive defects specific to individuals." 1393: 1305: 1010: 1310: 1461: 859: 751: 247:

Some of postictal symptoms are almost always present for a period of a few hours up to a day or two.

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peptides have been shown to be involved in the postictal state and are at times anticonvulsive, and

1520: 1257: 855: 747: 1222: 1187: 933: 702: 557: 1237: 1217: 1157: 1002: 629: 368: 229: 95: 822: 142:. Interictal EEG discharges are those abnormal waveforms not associated with seizure symptoms. 1295: 1242: 840:. In Bromfield, Edward B.; Cavazos, José E.; Sirven, Joseph I.; Rogawski, Michael A. (eds.). 441: 1478: 1272: 1262: 1182: 1133: 979: 379: 318: 139: 131: 8: 1466: 1433: 1003:"Regional cerebral blood flow and glucose utilization in spontaneously epileptic EL mice" 462: 198: 135: 1353: 1330: 796: 725: 694: 623:

Fisher, Robert S.; Schachter, Steven C. (1 February 2000). Schachter, Steven C. (ed.).

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Mula, Marco; Monaco, Francesco (23 March 2011). Cavanna, A.E.; Trojano, Luigi (eds.).

367:(both fast and slow IPSPs), calcium-activated potassium receptors (which give rise to 261: 1505: 1418: 1247: 1090: 1039: 1031: 1023: 971: 963: 955: 947: 863: 801: 783: 775: 767: 763: 730: 686: 678: 670: 662: 571: 561: 500: 482: 474: 189: 167: 35: 698: 1483: 1472: 1315: 1227: 1128: 937: 791: 759: 654: 490: 466: 285: 248: 237: 908:"Upregulation of opioid receptor binding following spontaneous epileptic seizures" 508: 273: 1455: 1320: 1285: 1123: 912: 539: 330: 269: 841: 371:), hyperpolarizing pumps, or other changes in ion channels or signal receptors. 1381: 1376: 1290: 1164: 1149: 1113: 929: 646: 553: 458: 416: 395: 364: 233: 213: 182: 106:

refers to the state immediately before the actual seizure, stroke, or headache.

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Postictal migraine headaches are a major complaint among persons with

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Other symptoms associated with the postictal state are less common.

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Bromfield, Edward B.; Cavazos, José E.; Sirven, Joseph I. (2006).

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seizures. To provide direct evidence for this, Hammers et al. did

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Society of Nuclear Medicine and Molecular Imaging (SNMMI)

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In studies that stimulate seizures by subjecting rats to

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Altered state of consciousness after an epileptic seizure

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is high intracranial pressure resulting from postictal

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to (that is on the same side as) the seizure focus."

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NCBI (National Center for Biotechnology Information)

154:defines the postictal state as "manifestations of 138:and other abnormalities known by neurologists as 78:refers to a physiologic state or event such as a 1497: 932:: Guarantors of Brain (charitable organization)/ 888:NLM (United States National Library of Medicine) 622: 544:. Conteporary neurology series (2nd ed.). 1075: 829: 114:refers to the state shortly after the event. 374:While not an example of active inhibition, 1082: 1068: 434: 122:refers to the period between seizures, or 90:. The word originates from the Latin word 1089: 941: 795: 618: 616: 494: 308: 300:Neurotransmitters must be present in the 1450:Citizens United for Research in Epilepsy 723: 614: 612: 610: 608: 606: 604: 602: 600: 598: 596: 994: 717: 530: 528: 526: 1498: 898: 437:"Ictal and peri-ictal psychopathology" 325:. Administering the opiate antagonist 201:if the seizure included the bilateral 1063: 818: 593: 534: 389: 146: 1367:Dentatorubral–pallidoluysian atrophy 523: 341: 295: 240:can resolve the psychotic episodes. 1414:Sudden unexpected death in epilepsy 62:, and other disorienting symptoms. 13: 1344:Complex partial status epilepticus 14: 1532: 1429:Psychogenic non-epileptic seizure 1301:Benign familial neonatal seizures 1253:Sleep-related hypermotor epilepsy 94:, meaning a blow or a stroke. In 764:10.1111/j.1535-7511.2008.00227.x 126:, that are characteristic of an 1389:Early myoclonic encephalopathy 1362:Progressive myoclonus epilepsy 838:"Chapter 2: Clinical Epilepsy" 823:Chapter 9: Periictal Phenomena 428: 272:tend to be done with the hand 32:altered state of consciousness 1: 934:Oxford University Press (OUP) 422: 1339:Epilepsia partialis continua 336:positron emission tomography 279: 134:trace will often show small 7: 1394:Juvenile myoclonic epilepsy 1372:Unverricht–Lundborg disease 1011:Journal of Nuclear Medicine 843:An Introduction to Epilepsy 410: 10: 1537: 1311:Myoclonic astatic epilepsy 321:(EEG), signs of postictal 15: 1462:Epilepsy Action Australia 1442: 1406: 1352: 1329: 1271: 1205: 1196: 1173: 1142: 1101: 860:American Epilepsy Society 752:American Epilepsy Society 1424:Landau–Kleffner syndrome 1258:Panayiotopoulos syndrome 856:United States of America 748:United States of America 224:, affective change, and 16:Not to be confused with 1306:Lennox–Gastaut syndrome 1188:Epilepsy and employment 630:Epilepsy & Behavior 558:Oxford University Press 230:atypical antipsychotics 1511:Electroencephalography 1238:Temporal lobe epilepsy 1158:Electroencephalography 659:10.1006/ebeh.2000.0023 369:afterhyperpolarization 309:Receptor concentration 96:electroencephalography 1243:Frontal lobe epilepsy 541:Seizures and Epilepsy 471:10.3233/ben-2011-0314 442:Behavioural Neurology 195:tonic–clonic seizures 1479:Epilepsy Research UK 1263:Vertiginous epilepsy 1183:Epilepsy and driving 1134:Epilepsy in children 943:10.1093/brain/awm012 380:anaerobic metabolism 319:electroencephalogram 140:subclinical seizures 1516:Medical terminology 1467:Epilepsy Foundation 1434:Epilepsy in animals 1114:Aura (warning sign) 199:anterograde amnesia 1354:Myoclonic epilepsy 1331:Status epilepticus 874:on 21 January 2011 390:Cerebral bloodflow 290:status epilepticus 258:psychogenic origin 147:Signs and symptoms 136:interictal spiking 1493: 1492: 1407:Related disorders 1402: 1401: 1248:Rolandic epilepsy 731:Epilepsy Currents 536:Engel, Jerome Jr. 357:refractory period 342:Active inhibition 296:Neurotransmitters 236:, and successful 168:short term memory 36:epileptic seizure 1528: 1484:Epilepsy Society 1473:Epilepsy Outlook 1316:Epileptic spasms 1228:Gelastic seizure 1203: 1202: 1129:Neonatal seizure 1084: 1077: 1070: 1061: 1060: 1055: 1054: 1052: 1050: 1007: 998: 992: 991: 989: 987: 978:. 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Archived from 498: 432: 331:opiate receptors 286:action potential 249:Absence seizures 238:epilepsy surgery 1536: 1535: 1531: 1530: 1529: 1527: 1526: 1525: 1521:Neurophysiology 1496: 1495: 1494: 1489: 1456:Epilepsy Action 1438: 1398: 1348: 1325: 1321:Febrile seizure 1286:Absence seizure 1267: 1223:Complex partial 1192: 1175:Personal issues 1169: 1154:Investigations 1150:Anticonvulsants 1138: 1124:Epileptogenesis 1119:Postictal state 1097: 1088: 1058: 1048: 1046: 1005: 999: 995: 985: 983: 903: 899: 877: 875: 834: 830: 821:, p. 332, 817: 813: 722: 718: 708: 706: 621: 594: 580: 578: 568: 533: 524: 514: 512: 511:on 18 June 2015 433: 429: 425: 413: 392: 344: 311: 298: 282: 234:benzodiazepines 149: 28:postictal state 24: 21: 12: 11: 5: 1534: 1524: 1523: 1518: 1513: 1508: 1491: 1490: 1488: 1487: 1481: 1476: 1470: 1464: 1459: 1453: 1446: 1444: 1440: 1439: 1437: 1436: 1431: 1426: 1421: 1419:Todd's paresis 1416: 1410: 1408: 1404: 1403: 1400: 1399: 1397: 1396: 1391: 1386: 1385: 1384: 1382:Lafora disease 1379: 1377:MERRF syndrome 1374: 1369: 1358: 1356: 1350: 1349: 1347: 1346: 1341: 1335: 1333: 1327: 1326: 1324: 1323: 1318: 1313: 1308: 1303: 1298: 1293: 1291:Atonic seizure 1288: 1283: 1277: 1275: 1269: 1268: 1266: 1265: 1260: 1255: 1250: 1245: 1240: 1235: 1231: 1230: 1225: 1220: 1218:Simple partial 1215: 1211: 1209: 1200: 1194: 1193: 1191: 1190: 1185: 1179: 1177: 1171: 1170: 1168: 1167: 1165:Epileptologist 1162: 1161: 1160: 1152: 1146: 1144: 1140: 1139: 1137: 1136: 1131: 1126: 1121: 1116: 1111: 1105: 1103: 1099: 1098: 1087: 1086: 1079: 1072: 1064: 1057: 1056: 993: 982:on 2 June 2018 930:United Kingdom 897: 828: 811: 716: 705:on 2 June 2018 647:United Kingdom 592: 566: 554:United Kingdom 522: 459:United Kingdom 426: 424: 421: 420: 419: 417:Ictal headache 412: 409: 396:autoregulation 391: 388: 365:GABA receptors 343: 340: 310: 307: 297: 294: 281: 278: 262:pseudoseizures 214:hallucinations 190:Todd's paresis 183:cerebral edema 148: 145: 144: 143: 115: 107: 99: 22: 9: 6: 4: 3: 2: 1533: 1522: 1519: 1517: 1514: 1512: 1509: 1507: 1504: 1503: 1501: 1485: 1482: 1480: 1477: 1474: 1471: 1468: 1465: 1463: 1460: 1457: 1454: 1451: 1448: 1447: 1445: 1443:Organizations 1441: 1435: 1432: 1430: 1427: 1425: 1422: 1420: 1417: 1415: 1412: 1411: 1409: 1405: 1395: 1392: 1390: 1387: 1383: 1380: 1378: 1375: 1373: 1370: 1368: 1365: 1364: 1363: 1360: 1359: 1357: 1355: 1351: 1345: 1342: 1340: 1337: 1336: 1334: 1332: 1328: 1322: 1319: 1317: 1314: 1312: 1309: 1307: 1304: 1302: 1299: 1297: 1294: 1292: 1289: 1287: 1284: 1282: 1279: 1278: 1276: 1274: 1270: 1264: 1261: 1259: 1256: 1254: 1251: 1249: 1246: 1244: 1241: 1239: 1236: 1233: 1232: 1229: 1226: 1224: 1221: 1219: 1216: 1213: 1212: 1210: 1208: 1204: 1201: 1199: 1198:Seizure types 1195: 1189: 1186: 1184: 1181: 1180: 1178: 1176: 1172: 1166: 1163: 1159: 1156: 1155: 1153: 1151: 1148: 1147: 1145: 1141: 1135: 1132: 1130: 1127: 1125: 1122: 1120: 1117: 1115: 1112: 1110: 1109:Seizure types 1107: 1106: 1104: 1100: 1096: 1092: 1085: 1080: 1078: 1073: 1071: 1066: 1065: 1062: 1045: 1041: 1037: 1033: 1029: 1025: 1021: 1017: 1013: 1012: 1004: 997: 981: 977: 973: 969: 965: 961: 957: 953: 949: 944: 939: 936:: 1009–1016. 935: 931: 927: 923: 919: 915: 914: 909: 901: 894: 889: 885: 873: 869: 865: 861: 857: 853: 849: 848:West Hartford 845: 844: 839: 832: 824: 820: 815: 807: 803: 798: 793: 789: 785: 781: 777: 773: 769: 765: 761: 757: 756:SAGE Journals 753: 749: 745: 741: 737: 733: 732: 727: 720: 704: 700: 696: 692: 688: 684: 680: 676: 672: 668: 664: 660: 656: 652: 651:Elsevier Inc. 648: 644: 640: 636: 632: 631: 626: 619: 617: 615: 613: 611: 609: 607: 605: 603: 601: 599: 597: 588: 577: 573: 569: 567:9780803632011 563: 559: 555: 551: 547: 543: 542: 537: 531: 529: 527: 510: 506: 502: 497: 492: 488: 484: 480: 476: 472: 468: 464: 460: 456: 452: 448: 444: 443: 438: 431: 427: 418: 415: 414: 408: 406: 405:hypoperfusion 402: 397: 387: 385: 381: 377: 372: 370: 366: 360: 358: 354: 350: 339: 337: 332: 328: 324: 320: 316: 306: 303: 293: 291: 287: 277: 275: 271: 265: 263: 259: 255: 250: 245: 241: 239: 235: 231: 227: 223: 219: 215: 210: 208: 204: 200: 196: 191: 186: 184: 180: 176: 171: 169: 165: 164:concentration 161: 157: 153: 141: 137: 133: 129: 125: 121: 120: 116: 113: 112: 108: 105: 104: 100: 97: 93: 89: 85: 81: 77: 76: 72: 71: 70: 68: 63: 61: 57: 53: 49: 45: 41: 37: 33: 29: 19: 1281:Tonic–clonic 1118: 1047:. 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