Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Cysteamine is formed by degradation of coenzyme A (CoA) and causes somatostatin (SS), prolactin and noradrenaline depletion in the brain and peripheral tissues. 2. Cysteamine influences several behavioral processes, like active and passive avoidance behavior, open-field activity, kindled seizures, pain perception and SS-induced barrel rotation. 3. Cysteamine has several established (cystinosis, radioprotection, acetaminophen poisoning) and theoretical (Huntington's disease, prolactin-secreting adenomas) indications in clinical practice. 4. Pantethine is a naturally occurring compound which is metabolized to cysteamine. 5. Pantethine depletes SS, prolactin and noradrenaline with lower efficacy compared to that of cysteamine. 6. Pantethine is well tolerated by patients and has been suggested to treatment of atherosclerosis. The other possible clinical indications (alcoholism, Parkinson's disease, instead of cysteamine) are discussed.
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PMID:Preclinical and clinical studies with cysteamine and pantethine related to the central nervous system. 227 50

Correlations were sought among neuroendocrine, psychopathologic, neuropsychological, and seizure variables in 16 male patients with limbic epilepsy. Plasma prolactin and luteinizing hormone levels were directly correlated with seizure frequency. Plasma prolactin was inversely correlated with thought disorder. Post hoc findings included a strong direct correlation between total plasma testosterone levels and aggression. These relationships may help to elucidate mechanisms related to interictal symptomatology in patients with limbic epilepsy.
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PMID:Neuroendocrinology and limbic epilepsy: relationships to psychopathology, seizure variables, and neuropsychological function. 234 44

Transient elevation of serum levels of prolactin has been observed following several types of epileptic seizures and after electrical stimulation of limbic temporal lobe structures via implanted electrodes. Transcranial magnetic stimulation has been found to selectively induce epileptiform afterdischarges in the epileptic focus of candidates for epilepsy surgery who suffered from temporal lobe epilepsy. Lateralized serial transcranial magnetic stimulation was therefore used and serum levels of prolactin or luteinizing hormone were measured to find if it could be used as a non-invasive diagnostic tool. The investigation was performed on six patients and five healthy volunteers. In the patients the induction of epileptiform potentials was continuously monitored via subdural electrodes. A transient surge of prolactin and luteinizing hormone was found in only one patient, in whom a complex partial seizure was induced. Thus, transcranial magnetic stimulation appeared not to be helpful for the lateralization of the (primary) epileptic focus during presurgical evaluation.
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PMID:Activation of epileptic foci by transcranial magnetic stimulation: effects on secretion of prolactin and luteinizing hormone. 239 46

Various factors possibly influencing responsiveness to thyrotropin-releasing hormone (TRH) therapy were studied in 38 children (20 M, 18 F) with severe epilepsy. Mean age at treatment was 4.7 years (range; 0-18 years). Seizure type was infantile spasms (IS) in 16, generalized tonic seizures in 8, secondarily generalized partial seizures in 4, generalized tonic-clonic seizures in 2, atypical absence in 5, myoclonic seizures in 1, and atonic seizures in 2 cases. All seizure types were classified by ictal EEGs documented by simultaneous EEG-VTR according to the International Classification of seizures, except for two with atonic seizures and one with IS. Factors analyzed were sex, age, etiology, neurologic abnormality, seizure types, seizure frequency, EEGs, duration of TRH therapy, and serum hormone [human growth hormone (HGH), prolactin (PRL), thyroid-stimulating hormone (TSH)] levels before and after TRH therapy. We showed that: (a) serum PRL level was significantly correlated to effectiveness of TRH therapy (the higher the PRL, the greater the response rate); (b) serum basal PRL decreased significantly, especially in good responders; and (c) serum basal PRL was elevated especially in patients with IS, which responded more to TRH therapy. These interesting findings seen in severe epilepsy of childhood deserve further neuroendocrinologic study.
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PMID:Factors influencing effectiveness of thyrotropin-releasing hormone therapy for severe epilepsy in childhood: significance of serum prolactin levels. 249 23

The time course of changes in serum prolactin after complex partial seizures has been determined and compared to similar changes after other types of seizure and non-epileptic attacks. Seizures in 33 subjects were recorded on video EEG telemetry. Peak serum prolactin concentrations occurred 15-20 min after tonic-clonic seizures, 10 min after complex partial seizures, and were highest after generalised tonic-clonic seizures. Serum prolactin concentrations remained less than 1000 mU/l after absences and non-epileptic attacks. Application of Bayes' theorem showed that where serum prolactin was greater than 1000 mU/l 5-10 min post event this would identify genuine tonic-clonic or complex partial seizures. The false negative rate of this test was 9% for tonic-clonic seizures and 38% for complex partial seizures. Failure of serum prolactin to rise after an attack is of little value in distinguishing complex partial seizures from non-epileptic attacks.
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PMID:The clinical value of serum prolactin measurement in the differential diagnosis of complex partial seizures. 249 52

Measurement of postictal serum-prolactin concentrations in epileptic seizures in order to distinguish them from psychogenic seizures is at present used only rarely and non-systematically. Studies of 209 Grand mal seizures, 232 complex-partial seizures, 102 simple-partial seizures and 15 generalized seizures published between 1980 and 1987 differ in their standards of seizure classification as well as in their criteria for evaluating increases in postictal serum-prolactin concentrations. A significant rise was seen in 88% of Grand mal seizures, 78% of complex-partial seizures, 22% of simple-partial seizures and 6% of generalized seizures. The discussion of both these general findings and our own investigations is based on the presentation of neuroanatomical and neurophysiological principles of prolactin secretion.
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PMID:[Neurophysiologic principles and clinical value of post-convulsive serum prolactin determination in epileptic seizure]. 251 72

Fifteen children with infantile spasms and a hypsarrhythmic EEG defined by EEG-videotelemetry monitoring received a regimen of high-dose (150 IU/m2/d) ACTH for their seizures. We carried out an endocrinologic evaluation before and after initiation of the ACTH and conducted a time course study of plasma ACTH and cortisol levels after ACTH dosing. Spasms were controlled and the EEG normalized in 14 of the 15 children. Prior to starting ACTH therapy all the patients had normal prolactin, insulin, cortisol, and ACTH levels in plasma and normal thyroid function. Although the pattern of rise of ACTH levels in plasma after ACTH dosing was similar in all the children, there was great individual variation in the absolute concentrations. However, both the pattern of rise and absolute level of cortisol in plasma after ACTH was highly predictable in all patients. Plasma cortisol rose rapidly within 1 hour of ACTH administration and continued a slower rise for 12 to 24 hours after the ACTH dose. High-dose ACTH therapy seems quite effective in infantile spasms, perhaps because of a sustained high level of plasma cortisol. This sustained plateau of cortisol may be more effective in controlling infantile spasms than the pulse effect expected with oral steroids or lower doses of ACTH.
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PMID:Treatment of infantile spasms with high-dose ACTH: efficacy and plasma levels of ACTH and cortisol. 254 19

The serum concentration of prolactin is frequently increased after single epileptic seizures and has therefore been used as a method to differentiate between hysterical attacks and epileptic seizures. We determined plasma prolactin concentrations in fifteen patients with status epilepticus. Seven patients had absence status, five complex partial and three generalised tonic-clonic status epilepticus. Prolactin levels were normal in all patients which indicates that, in contrast to single seizures, status epilepticus is not associated with an increase in serum prolactin.
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PMID:Serum prolactin during status epilepticus. 261 44

Ten women with a documented history of catamenial epilepsy underwent a hormonal study to evaluate hypophyseal-gonadal function. Baseline values of luteinizing hormone, follicle-stimulating hormone and prolactin were similar in catamenial seizure patients and in control groups throughout a complete menstrual cycle. Stimulated secretions of the same hypophyseal hormones in catamenial seizure patients overlapped those of the controls. The luteal secretion ratio of progesterone to estradiol was significantly reduced in catamenial seizure patients versus normal controls. In a subgroup of catamenial seizure patients on antiepileptic therapy, luteal progesterone levels were remarkably decreased compared to normal and epileptic controls. These results indicate that catamenial epilepsy is characterized by an imbalance in ovarian steroid secretion and emphasize the need for an endocrinological assessment in these patients.
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PMID:Unbalanced progesterone and estradiol secretion in catamenial epilepsy. 265 Nov 13

The circadian rhythm of serum prolactin was determined in 12 patients with seizures, and 28 age- and sex-matched healthy subjects (14 men and 14 women). Blood was also collected every 15 min for 2 h immediately after a simultaneously video/EEG-documented epileptic (6 patients) and psychogenic seizure (5 patients) for the determination of prolactin, thyrotropin, growth hormone, cortisol, melatonin, catecholamines and serotonin. During the seizure-free interval, the circadian profile of serum prolactin was lower in female patients than in healthy women. Serum prolactin, thyrotropin, growth hormone, and cortisol were increased postictally, followed by a decrease, after a grand mal or complex partial seizure, but not after a psychogenic seizure in comparison to baseline serum hormone levels obtained during the same time on a seizure-free day. During the seizure and for 2 h afterwards, blood serotonin, serum melatonin, dopamine, and epinephrine did not alter and were within the reference limits of healthy subjects. Serum norepinephrine was lower in patients compared to healthy subjects (p less than 0.05). The simultaneous elevation of serum prolactin, thyrotropin, growth hormone, and cortisol points to a central stimulation of the hypothalamic-pituitary axis during an epileptic seizure, but not during seizures of psychogenic origin.
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PMID:Epileptic but not psychogenic seizures are accompanied by simultaneous elevation of serum pituitary hormones and cortisol levels. 271 48


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